MULTI-SYSTEM WATER HEATER MODULE AND HEAT PUMP SYSTEM

Abstract

The present disclosure provides a multi-system water heater module and a heat pump system, which belong to the field of water heaters. The multi-system water heater module includes a box body and at least two independently operating water circuit systems arranged in the box body, wherein one of the water circuit systems is connected to a first end device, and the other water circuit system is connected to a second end device, wherein the first end device and the second end device are different. The above multi-system water heater module can accommodate multiple water circuit systems, and each water circuit system is connected to a different end device, so as to integrate multiple water circuit systems, which meets the needs of multiple usage and mounting scenarios, and also improves the mounting and maintenance efficiency, so as to save the mounting cost.

Claims

1. A multi-system water heater module, comprising a box body and at least two independently operating water circuit systems arranged in the box body, wherein one of the water circuit systems is connected to a first end device, and the other water circuit system is connected to a second end device, wherein the first end device and the second end device are different.

2. The multi-system water heater module according to claim 1, wherein the water circuit system comprises cold-water pipelines and hot-water pipelines arranged in the box body, and end parts of the hot-water pipelines and the cold-water pipelines both pass through a side wall of the box body.

3. The multi-system water heater module according to claim 2, wherein the hot-water pipelines are provided with a heater, a first check valve, and a water flow switch, and the first check valve is located on a water inlet side of the heater, wherein one of the hot-water pipelines is provided with a safety valve; and/or, one of the cold-water pipelines is provided with a pressure gauge, and the pressure gauge is mounted on an outer side wall of the box body.

4. The multi-system water heater module according to claim 2, wherein the cold-water pipeline is provided with a water pump and a second check valve, and the second check valve is located on a water outlet side of the water pump.

5. The multi-system water heater module according to claim 4, wherein in the two water circuit systems, one of the hot-water pipelines is provided with a three-way valve, and a branch connector of the three-way valve is communicated with the other hot-water pipeline; and a cold-water connection pipeline is communicated between pipeline sections of the two cold-water pipelines being located on a water inlet side of the water pump.

6. The multi-system water heater module according to claim 5, wherein the multi-system water heater module further comprises a three-way pipe, and the three-way pipe comprises a water inlet pipeline section, a first water outlet pipeline section, and a second water outlet pipeline section, and a nut is rotationally sleeved on an end part of the first water outlet pipeline section, wherein the water inlet pipeline section is communicated with one of the cold-water pipelines; the nut is threadedly connected to a water inlet connector of a corresponding water pump; and the second water outlet pipeline section is communicated with the cold-water connection pipeline

7. The multi-system water heater module according to claim 2, wherein one end of the hot-water pipelines and one end of the cold-water pipelines both pass through and are arranged on a first side wall of the box body, and the other ends both pass through and are arranged on a second side wall of the box body, wherein end parts of the hot-water pipelines and the cold-water pipelines located on the same side wall are staggered in a width direction of a corresponding side wall.

8. The multi-system water heater module according to claim 7, wherein a cold-water pipeline is a first cold-water pipeline and a hot-water pipeline is a first hot-water pipeline for one of the water circuit systems, and a cold-water pipeline is a second cold-water pipeline and a hot-water pipeline is a second hot-water pipeline for the other water circuit system, wherein an end part of the first cold-water pipeline, an end part of the first hot-water pipeline, an end part of the second cold-water pipeline, and an end part of the second hot-water pipeline located on the same side wall are arranged in sequence from bottom to top, and the first cold-water pipeline, the second cold-water pipeline, and the second hot-water pipeline all extend transversely between the first side wall and the second side wall, wherein the first hot-water pipeline comprises a vertical pipeline section extending vertically and a transverse pipeline section extending transversely between the first side wall and the second side wall, wherein a top end of the vertical pipeline section is communicated with one end of the transverse pipeline section towards the first side wall; a bottom end of the vertical pipeline section is connected to the first side wall by a first connecting pipeline section; and one end of the transverse pipeline section towards the second side wall is connected to the second side wall by a second connecting pipeline section, wherein the transverse pipeline section is located above the second hot-water pipeline.

9. The multi-system water heater module according to claim 8, wherein the transverse pipeline section is provided with a three-way valve, wherein a branch connector of the three-way valve is communicated with the second hot-water pipeline.

10. The multi-system water heater module according to claim 9, wherein a first Y-connector is arranged on a position inside the box body close to the second side wall, and openings of a first branch connector a1 and a second branch connector a2 of the first Y-connector both face the first side wall, wherein one end of the second hot-water pipeline towards the second side wall is connected to the first branch connector a1, and a third end of the three-way valve is connected to the second branch connector a2 by a hot-water connection pipeline.

11. The multi-system water heater module according to claim 8, wherein the first side wall and the second side wall are arranged oppositely in a left and right direction; the first cold-water pipeline and the second cold-water pipeline in their extension directions sequentially comprise a cold-water pipeline section A extending from left to right, a cold-water pipeline section B extending from front to back, and a cold-water pipeline section C extending from left to right, wherein a left end of the cold-water pipeline section A passes through and is arranged on the first side wall; a region between a rear side of the cold-water pipeline section A and a left side of the cold-water pipeline section B is an accommodation space; and a right end of the cold-water pipeline section C is connected to the second side wall by a cold-water pipeline section D, wherein the vertical pipeline section is located behind the first cold-water pipeline, the second cold-water pipeline, and the second hot-water pipeline and is accommodated in the accommodation space; and/or, the cold-water pipeline section C is provided with a water pump.

12. The multi-system water heater module according to claim 11, wherein the multi-system water heater module further comprises a second Y-connector, a cold-water connection pipeline, and a tee-junction arranged in the box body, wherein openings of a first branch connector b1 and a second branch connector b2 of the second Y-connector both face the first side wall, and a third branch connector b3 of the second Y-connector is close to or fixedly arranged on the second side wall, wherein one end of the cold-water pipeline section D of the second cold-water pipeline towards the second side wall is connected to the first branch connector b1, and one end of the cold-water connection pipeline is connected to the second branch connector b2; and a water inlet end of the tee-junction is connected to the first cold-water pipeline, wherein a nut is rotationally sleeved on an outer peripheral wall of a first water outlet end of the tee-junction; the nut is threadedly connected to a water inlet connector a1 of a corresponding water pump; and a second water outlet end of the tee-junction is connected to the other end of the cold-water connection pipeline.

13. The multi-system water heater module according to claim 2, wherein one end of the hot-water pipelines and one end of the cold-water pipelines both pass through and are arranged on a first side wall of the box body, and the other ends both pass through and are arranged on a second side wall of the box body, wherein a positioning seat is fixedly arranged in the box body, and pipeline sections of the cold-water pipelines and the hot-water pipelines close to the first side wall are both detachably connected to the positioning seat by position limitation structures.

14. The multi-system water heater module according to claim 2, wherein the multi-system water heater module further comprises an electric control assembly; the electric control assembly is integrated to an electric control base; and the electric control base is rotationally connected to the box body.

15. The multi-system water heater module according to claim 2, wherein the multi-system water heater module further comprises a front panel, wherein the front panel is pivotably connected to the box body, and is configured to cover an opening of the box body; and a recess part recessing inwardly is arranged in a middle region of an outer surface of the front panel.

16. A heat pump system, comprising a heat pump host, a first end device, a second end device, and the multi-system water heater module according to claim 1, wherein one water circuit system in the multi-system water heater module is communicated between the heat pump host and the first end device, and the other water circuit system in the multi-system water heater module is communicated between the heat pump host and the second end device.

17. The heat pump system according to claim 16, wherein the water circuit system comprises cold-water pipelines and hot-water pipelines arranged in the box body, and end parts of the hot-water pipelines and the cold-water pipelines both pass through a side wall of the box body.

18. The heat pump system according to claim 17, wherein the hot-water pipelines are provided with a heater, a first check valve, and a water flow switch, and the first check valve is located on a water inlet side of the heater, wherein one of the hot-water pipelines is provided with a safety valve; and/or, one of the cold-water pipelines is provided with a pressure gauge, and the pressure gauge is mounted on an outer side wall of the box body.

19. The heat pump system according to claim 17, wherein the cold-water pipeline is provided with a water pump and a second check valve, and the second check valve is located on a water outlet side of the water pump.

20. The heat pump system according to claim 19, wherein in the two water circuit systems, one of the hot-water pipelines is provided with a three-way valve, and a branch connector of the three-way valve is communicated with the other hot-water pipeline; and a cold-water connection pipeline is communicated between pipeline sections of the two cold-water pipelines being located on a water inlet side of the water pump.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0031] In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure or in the prior art, the drawings to be used in the description of the embodiments or prior art will be briefly introduced below. It is obvious that the drawings in the following description are some embodiments of the present disclosure. For a person of ordinary skill in the art, other drawings can be obtained based on these drawings without inventive efforts.

[0032] FIG. 1 shows a structure schematic diagram of a prior water heater module;

[0033] FIG. 2 shows an internal structure schematic diagram of one multi-system water heater module provided by the embodiment;

[0034] FIG. 3 shows an overall structure schematic diagram of one multi-system water heater module provided by the embodiment;

[0035] FIG. 4 shows a mounting schematic diagram of a pressure gauge in one multi-system water heater module provided by the embodiment;

[0036] FIG. 5 shows a fixing schematic diagram of an electric control base in one multi-system water heater module provided by the embodiment;

[0037] FIG. 6 shows a turning schematic diagram of an electric control base in one multi-system water heater module provided by the embodiment;

[0038] FIG. 7 shows a front view of the other multi-system water heater module provided by the embodiment;

[0039] FIG. 8 shows a schematic diagram of the multi-system water heater module in FIG. 7 removing a front panel;

[0040] FIG. 9 shows an internal-structure schematic diagram of the other multi-system water heater module provided by the embodiment at one view;

[0041] FIG. 10 shows an internal-structure schematic diagram of the other multi-system water heater module provided by the embodiment at another view;

[0042] FIG. 11 shows an internal-structure schematic diagram of the other multi-system water heater module provided by the embodiment at another view;

[0043] FIG. 12 shows an internal-structure schematic diagram of the other multi-system water heater module provided by the embodiment at another view;

[0044] FIG. 13 shows a schematic diagram of a pipeline arrangement in the other multi-system water heater module provided by the embodiment;

[0045] FIG. 14 shows an explosion schematic diagram of a first cold-water pipeline in the other multi-system water heater module provided by the embodiment; and

[0046] FIG. 15 shows a schematic diagram of a three-way pipe in a multi-system water heater module arranged in the embodiment.

REFERENCE NUMBERS

[0047] 10B-first accommodation space; 10C-first mounting space; 10D-second accommodation space; 10E-second mounting space; [0048] 21-first water circuit system; 211-first cold-water pipeline; 2111-first end; 2112-second end; 2113-first cold-water pipeline section A; 2114-first cold-water pipeline section B; 2115-first cold-water pipeline section C; 2116-first cold-water pipeline section D; 212-first hot-water pipeline; 2121-first end; 2122-second end; 2123-first connecting pipeline section; 2124-vertical pipeline section; 2125- transverse pipeline section; 2126- second connecting pipeline section; 213-first heater; 214-first check valve A; 215-first water flow switch; 216-first water pump; 2161-water inlet connector a1; 217-second check valve A; [0049] 22-second water circuit system; 221- second cold-water pipeline; 2211-first end; 2212-second end; 2213-second cold-water pipeline section A; 2214-second cold-water pipeline section B; 2215-second cold-water pipeline section C; 2216-second cold-water pipeline section D; 222-second hot-water pipeline; 2221-first end; 2222-second end; 223-second heater; 224-first check valve B; 225-second water flow switch; 226-safety valve; 227-second water pump; 2271-water inlet connector b1; 228-second check valve B; [0050] 23-box body; 231-first side wall; 232-second side wall; 233-left side plate; 234-right side plate; 235-back wall plate; 236-top plate; 237-bottom plate; 238-front panel; 2381-first recess part; 2382-second recess part; [0051] 24-three-way valve; 241-branch connector; [0052] 25-cold-water connection pipeline; 251-third pipeline section; 252-fourth pipeline section; [0053] 26-pressure gauge; [0054] 27-electric control base; [0055] 28-hinge; [0056] 29-hot-water connection pipeline; 291-first pipeline section; 292-second pipeline section; [0057] 100-three-way pipe; 110-water inlet pipeline section; 120-first water outlet pipeline section; 130-second water outlet pipeline section; 150-nut; [0058] 200-first Y-connector; 210-first branch connector a1; 220-second branch connector a2; 230-third branch connector a3; [0059] 510-positioning seat; 520-position limitation structure; [0060] 700-second Y-connector; 710-first branch connector b1; 720-second branch connector b2; and 730-third branch connector b3.

DETAILED DESCRIPTION OF EMBODIMENTS

[0061] In order to make the purpose, technical solutions, and advantages of the embodiment clearer, the technical solutions of the present disclosure will be described clearly and completely as follows in conjunction with drawings. It is clear that the embodiments described are partial embodiments of the present disclosure, and not all of the embodiments. Based on the embodiments in the present disclosure, all other embodiments obtained by a person of ordinary skill in the art without inventive efforts shall fall within the scope of protection of the present disclosure.

[0062] In order to facilitate the understanding of the embodiment, the embodiment is described in detail below.

[0063] The embodiment provides a multi-system water heater module, including a boxy 23 and at least two water line systems, wherein each water circuit system is arranged in the box body 23; one of the water circuit systems is connected to a first end device; and the other water circuit system is connected to a second end device, wherein the first end device and the second end device are different.

[0064] The embodiment further provides a heat pump system, including a heat pump host, a first end device, a second end device, and the multi-system water heater module above, wherein one water circuit system in the multi-system water heater module is communicated between the heat pump host and the first end device, and the other water circuit system in the multi-system water heater module is communicated between the heat pump host and the second end device.

[0065] As shown in FIG. 2, two water circuit systems are provided, wherein one water circuit system is a first water circuit system 21; the other water circuit system is a second water circuit system 22; and the first water circuit system 21 and the second water circuit system 22 are both arranged in the box body 23, wherein the first water circuit system 21 is connected to a first end device; the second water circuit system 22 is connected to a second end device; and the first end device and the second end device are different. In practical use, the first end device is preferably a domestic water tank, and the second end device is preferably at least one of the following: an air conditioner, floor heating, and radiator groups. The specific first end device and the second end device can be arranged according to the actual situation, and the embodiment will not be described in detail herein.

[0066] The above multi-system water heater module can accommodate multiple water circuit systems, wherein each water circuit system is connected to a different end device, so as to integrate multiple water circuit systems, which meets the needs of multiple usage and mounting scenarios, wherein the mounting space is smaller, and the operation and the control are more convenient, which further improves the mounting and maintenance efficiency, so as to save the mounting cost.

[0067] In one embodiment, the water circuit system includes a cold-water pipeline and a hot-water pipeline arranged in the box body 23, and end parts of the hot-water pipeline and the cold-water pipeline both pass through a side wall of the box body 23. During use, the external cold water source or the end device transmits the cold water to the heat pump host by the cold-water pipeline, wherein the cold water undergoes the heat transfer when flowing through the heat pump host, so as to become the hot water; and then the hot water flows to the end device via the hot-water pipeline, so as to be used by the user or supply heat to the indoor environment by the end device.

[0068] The end parts of the cold-water pipeline and the hot-water pipeline are arranged on the side wall of the box body 23. In this way, it can ensure a bottom flatness of the box body 23 based on realizing the cold and hot water circulation, so that the box body 23 and the multi-system water heater module not only can be used by mounting on the wall, but also can be used on the ground, so as to meet the needs of multiple usage and mounting scenarios. Additionally, since the end part of each pipeline is located on the side wall of the box body 23 rather than the bottom, the operator can directly carry out mounting and maintaining operations at the side part of the box body 23, wherein the operation is more convenient, so as to facilitate the mounting and maintenance after sale.

[0069] In the embodiment, the hot-water pipeline is provided with a heater, a first check valve, and a water flow switch, and the first check valve is located on a water inlet side of the heater, wherein one hot-water pipeline is provided with a safety valve 226. Since the hot-water pipeline is provided with the heater, when the heat pump host supplies heat to the end device by the water circuit system, if the heat supply capacity of the heat pump host reaches the requirement, the heater can be turned off; and if the heat supply capacity of the heat pump host does not reach the requirement, the heater can be turned on and carry out auxiliary heating for the hot water flowing through the hot-water pipeline, so as to improve the temperature of the hot water sent to the end device, and thus to ensure the heat supplying effect on the end device, so that the adjustability of the heat pump system is improved, and the heat supplying effect of the heat pump system is ensured.

[0070] When the heat pump host is turned off or starts running, the first check valve can be called an unidirectional valve for preventing the hot water from returning to the heat pump host; and the water flow switch can also be called a target flow switch for detecting the fluid in the hot-water pipeline after heated by the heater, which solves problems of dry burning of the heater and excessive pressure of the water circuit system because the flow rate is too small, so as to ensure the normal operation of the water circuit system. The safety valve 226 is used to relieve pressure for the first water circuit system 21 and the second water circuit system 22, so as to protect the multi-system hot water module.

[0071] As shown in FIG. 2, the first water circuit system 21 includes a first cold-water pipeline 211 and a first hot-water pipeline 212 arranged in the box body 23, and end parts of the first hot-water pipeline 212 and the first cold-water pipeline 211 both pass through the side wall of the box body 23. Similarly, the second water circuit system 22 includes a second cold-water pipeline 221 and a second hot-water pipeline 222 arranged in the box body 23, and end parts of the second hot-water pipeline 222 and the second cold-water pipeline 221 both pass through the side wall of the box body 23.

[0072] The heater located in the first hot-water pipeline 212 is a first heater 213; the first check valve is a first check valve A214; and the water flow switch is a first water flow switch 215. The heater located in the second hot-water pipeline 222 is a second heater 223; the first check valve is a first check valve B224; the water flow switch is a second water flow switch 225; and the safety valve 226 can be arranged in the first hot-water pipeline 212 or the second hot-water pipeline 222.

[0073] As shown in FIG. 4, one cold-water pipeline is provided with a pressure gauge 26, and the pressure gauge 26 is mounted on an outer side wall of the box body 23. The pressure gauge 26 is designed to be external, which is convenient for monitoring during after sale and daily use.

[0074] In the embodiment, the cold-water pipeline is provided with a water pump and a second check valve, and the second check valve is located on a water outlet side of the water pump. Through providing the water pump, the liquid can flow in the cold-water pipeline, and the pipeline can be arranged in the hot-water pipeline less, which can reduce the damage to the water pump when the hot water flows in the hot-water pipeline, so as to accordingly ensure the stable operation of the water pump. Through providing the second check valve, it can prevent the water flow back from damaging the water pump, which plays a protective role, so as to further ensure the stable operation of the water pump.

[0075] The water pump located in the first cold-water pipeline 211 is a first water pump 216, and the second check valve is a second check valve A217; and the water pump located in the second cold-water pipeline 221 is a second water pump 227, and the second check valve is a second check valve B228.

[0076] In the embodiment, in two water circuit systems, one hot-water pipeline is provided with a three-way valve 24, and a branch connector 241 of the three-way valve is communicated with the other the hot-water pipeline by the hot-water connection pipeline 29; and a cold-water connection pipeline 25 is communicated between pipeline sections of two cold-water pipelines being located on a water inlet side of the water pump.

[0077] The hot-water connection pipeline 29 is communicated between hot water pipes of the first water circuit system 21 and the second water circuit system 22 by the three-way valve 24, so that the first water circuit system 21 and the second water circuit system 22 are connected. During the normal use, as shown in FIG. 2, by adjusting the main path of the three-way valve 24, i.e., the first end (i.e., the end A) and the second end (i.e., the end B) can pass, and the first hot-water pipeline 212 and the second hot-water pipeline 222 are operated independently. When one end device, such as the living water tank, reaches temperature, and the requirement of the other end device, such as the heating end, is too large to meet, by adjusting the three-way valve 24, the branches, i.e., the first end (i.e., the A end) and the third end (i.e., the C end) can pass, wherein the first hot-water pipeline 212 can transfer the hot water to the second hot-water pipeline 222 by the three-way valve 24, so that the first water circuit system 21 and the second water circuit system 22 provide a heat source or a cold source to the heating end together, so as to quickly satisfy the heating or cooling demand of the user. Additionally, the three-way valve 24 also facilitates the disassembly and assembly of the second water circuit system 22, wherein when the mounting scenario changes, the disassembly and assembly of the second water circuit system 22 can be directly completed by the three-way valve 24. Further, when it needs to mount three or more water circuit systems, the second water circuit system 22 can be expanded, and it only needs to add multiple valve bodies or multiple three-way valves 24 in order.

[0078] As shown in FIG. 2, a cold-water connection pipeline 25 is communicated between the first cold-water pipeline 211 and the second cold-water pipeline 221. When the flow rate of the cold water transferring to the heat pump host by the second cold-water pipeline 221 in one end device, such as the heating end, cannot reach the requirement, the other end device, such as the living water tank, can supply the flow rate of the cold water to the second cold-water pipeline 211 by the first cold-water pipeline 211 and the cold-water connection pipeline 25, so as to ensure the stable operation of each circulation system.

[0079] Specifically, as shown in FIG. 2, the three-way valve 24 is located on the water outlet side of the corresponding heater.

[0080] In the embodiment, the specific form of the cold-water connection pipeline 25 communicating with the cold-water pipeline is below. As shown in FIG. 9-FIG. 15, the multi-system water heater module further includes a three-way pipe 100, wherein the three-way pipe includes a water inlet pipeline section 110, a first water outlet pipeline section 120 and a second water outlet pipeline section 130, and a nut 150 is rotationally sleeved on an end part of the first water outlet pipeline section 120; and the water inlet pipeline section 110 is communicated with one cold-water pipeline; the nut 150 is threadedly connected to a water inlet connector of the corresponding water pump; and the second water outlet pipeline section 130 is communicated with the cold-water connection pipeline 25. Based on arranging the cold-water connection pipeline 25 by using the three-way pipe 100, the first water outlet pipeline section 120 of the three-way pipe 100 is connected to the water inlet connector of the water pump 216 through rotation by the nut 150, which is more convenient for the disassembly and assembly. It does not need to connect the water pump to the first water outlet pipeline section 120 by the connecting tube, which results in a reduction of the distance between them, so as to shorten the pipeline length of the cold-water pipeline. Further, the convenience and simplicity of the arrangement of the cold-water pipeline are correspondingly improved, and the space occupied by the cold-water pipeline in the box body 23 and the interference with the other pipeline are reduced.

[0081] Specifically, as shown in FIG. 9-FIG. 15, the three-way pipe 100 can be arranged in the first cold-water pipeline 211, and the nut 150 threadedly connected to the water inlet connector a12161 of the first water pump 216. Similarly, the cold-water connection pipeline 25 and the second cold-water pipeline 221 can be communicated by the three-way pipe 100. Specifically, the water inlet pipeline section 110 of the three-way pipe 100 is communicated with the second cold-water pipeline 221; the nut 150 is threadedly connected to the water inlet connector b12271 of the second water pump 227; and the second water outlet pipeline section 130 is communicated with the cold-water connection pipeline 25.

[0082] In the embodiment, one end of the hot-water pipeline and one end of the cold-water pipeline both pass through and are arranged on the first side wall 231 of the box body, and the other ends both pass through and are arranged on the second side wall 232 of the box body, wherein end parts of the hot-water pipeline and the cold-water pipeline located on the same side wall are staggered in a width direction of the corresponding side wall. The end parts of the cold-water pipeline and the hot-water pipeline are overall arranged on the first side wall 231 and the second side wall 232, and the other side walls of the box body 23 are in a flat state, so as to improve the flexibility of the arrangement of the box body 23 in use; and The amounts of the pipeline ports arranged around the side walls of the box body 23 are reduced, so as to avoid the condition that the occupying space for arranging the box body 23 is too large and it cannot ne arranged against a wall. The end parts of various pipelines arranged on the same side wall are arrayed from top to bottom and staggered in the width direction of the side wall, i.e., the end parts of various pipelines located on the same side wall are arranged in a non-collinear method in the vertical direction, so as to make full use of the space of each region of the side wall and the box body 23 in the width direction. The compactness of the arrangement of the pipeline is improved, so as to accordingly reduce the overall volume of the box body 23 and the multi-system water heater module, and to make it miniaturized.

[0083] For ease of illustration, in the embodiment, the port connecting the first hot-water pipeline 212, the first cold-water pipeline 211, the second hot-water pipeline 222, and the second cold-water pipeline 221 to the heat pump host (or the outdoor host) is called as the first end; and the port connecting the first hot-water pipeline 212, the first cold-water pipeline 211, and the first end device to the second hot-water pipeline 222, the second cold-water pipeline 221, and the second end device is called as the second end.

[0084] Specifically, as shown in FIG. 2 and FIG. 3, the first cold-water pipeline 211 includes a first end 2111 and a second end 2112; the first hot-water pipeline 212 includes a first end 2121 and a second end 2122; the second cold-water pipeline 221 includes a first end 2211 and a second end 2212; and the second hot-water pipeline 222 includes a first end 2221 and a second end 2222, wherein the first end 2111 of the first cold-water pipeline 211, the first end 2121 of the first hot-water pipeline 212, the first end 2211 of the second cold-water pipeline 221, and the first end 2221 of the second hot-water pipeline 222 are all passed through and arranged on the first side wall 231 of the box body 23, wherein the first side wall 231 is the left side wall of the box body 23 in the view of FIG. 2; and the second end 2112 of the first cold-water pipeline 211, the second end 2122 of the first hot-water pipeline 212, the second end 2212 of the second cold-water pipeline 221, and the second end 2222 of the second hot-water pipeline 222 are all passed through and arranged on the second side wall 232 of the box body 23, wherein the second side wall 232 is the right side wall of the box body 23 in the view of FIG. 2.

[0085] In one arrangement method, the first water circuit system 21 is located below the second water circuit system 22. In another arrangement method, the hot-water pipelines and the cold-water pipelines can be overall arranged respectively. Specifically, the first hot-water pipeline 212 of the first water circuit system 21 is located below the second hot-water pipeline 222 of the second water circuit system 22; the first cold-water pipeline 211 of the first water circuit system 21 is located below the second cold-water pipeline 221 of the second water circuit system 22; and the second cold-water pipeline 221 is located below the first hot-water pipeline 212, i.e., the first hot-water pipeline 212 and the second hot-water pipeline 222 are distributed overall; the first cold-water pipeline 211 and the second cold-water pipeline 221 are distributed overall; and the overall distributed cold-water pipelines are arranged below the overall distributed hot-water pipelines.

[0086] In another arrangement method, the cold-water pipelines and hot-water pipelines can also be arranged as follows. As shown in FIG. 9, the end part of the first cold-water pipeline 211, the end part of the first hot-water pipeline 212, the end part of the second cold-water pipeline 221, and the end part of the second hot-water pipeline 222 located on the same side wall are arranged in sequence from bottom to top, and the first cold-water pipeline 211, the second cold-water pipeline 221, and the second hot-water pipeline 222 all extend transversely between the first side wall 231 and the second side wall 232, wherein the first hot-water pipeline 212 includes a vertical pipeline section 2124 extending vertically and a transverse pipeline section 2125 extending transversely between the first side wall 231 and the second side wall 232, wherein a top end of the vertical pipeline section 2124 is communicated with one end of the transverse pipeline section 2125 towards the first side wall 231; a bottom end of the vertical pipeline section 2124 is connected to the first side wall 231 by a first connecting pipeline section 2123; one end of the transverse pipeline section 2125 towards the second side wall 232 is connected to a second side wall 232 by a second connecting pipeline section 2126, wherein the transverse pipeline section 2125 is located above the second hot-water pipeline 222.

[0087] In each water circuit system, the end part of the cold-water pipeline is located below the end part of the hot-water pipeline, wherein this arrangement is more consistent with the arrangement habit of the user to the cool and hot pipes, which facilitates the assembling and maintenance of the operator to the hot and cold pipes, and reduces the assembling error rate.

[0088] Additionally, three pipes of the first cold-water pipeline 211, the second cold-water pipeline 221, and the second hot-water pipeline 222 extend transversely and are arranged at intervals from bottom to top. The second hot-water pipeline 212 is provided with the vertical pipeline section 2124 extending vertically and the transverse pipeline section 2125 extending transversely, so as to ensure that various pipelines are arranged vertically on two ends. Further, the first cold-water pipeline 211 and the second cold-water pipeline 221 can be arranged adjacently, so as to shorten the length of the cold-water connection pipeline 25 connected between them. Further, the transverse pipeline section 2125 of the first hot-water pipeline 212 and the second hot-water pipeline 222 can be arranged adjacently, so as to shorten the length of the hot-water connection pipeline 29 connected between them. The compactness and the convenience of the arrangement of each water pipeline are correspondingly improved, and the volume and the occupying space of the multi-system water heater module are also reduced.

[0089] On the other hand, the first cold-water pipeline 211 and the second cold-water pipeline 221 are arranged adjacently and are located at the lower region of the box body 23. When the first water pump 216 is arranged on the first cold-water pipeline 211, and the second water pump 227 is arranged on the second cold-water pipeline 221, the center of the multi-system water heater module moves downwardly, so as to improve the stability of the multi-system water heater module, and accordingly to improve the stability of the floor-type placement thereof and to improve the stability of the mounting and conveyance process, which avoids the condition of the multi-system water heater module being tilted and damaged.

[0090] Further, the main pipeline section of each pipeline approximately extends in a straight-pipe shape of three horizontal and one vertical. Based on the above arrangement, it does not need to provide bending pipes with complicated shapes and occupying larger space, such as S pipe and U pipe, so as to shorten the length of the pipeline, reduce the occupying space of the pipeline, and improve the compactness of the pipeline arrangement. The above arrangement can effectively reduce the height required for the arrangement of each pipeline, so as to reduce the height of the box body, and to improve its applicability for the mounting scenarios, for example, the multi-system water heater module can be arranged below the windowsill, so as to make full use of the space below the windowsill.

[0091] It should be noted that the above extending transversely is not limited to the extension in the horizontal direction, and the overall up-and-down tilt angle of two ends of the pipeline being smaller than 30 also belongs to the extending transversely described in the present disclosure.

[0092] In the embodiment, as shown in FIG. 9-FIG. 12, the transverse pipeline section 2125 is provided with a three-way valve 24, wherein a main path between the first end (i.e., the end A) and the second end (i.e., the end B) of the three-way valve 24 is communicated to the transverse pipeline section 2125, and a branch connector 241 of the third end of the three-way valve 24 is communicated to the second hot-water pipeline 222. Since the transverse pipeline section 2125 and the second hot-water pipeline 222 both extend transversely and are arranged adjacently, the three-way valve 24 is arranged on the transverse pipeline section 2125, and is communicated between the transverse pipeline section 2125 and the second hot-water pipeline 222 by the hot-water connection pipeline 29. Therefore, two circulation systems assist each other in heating by adjusting the pathway of the three-way valve 24, so as to effectively shorten the length of the hot-water connection pipeline 29, to reduce the space occupation of the hot-water connection pipeline 29, and to improve its convenience of arrangement.

[0093] In the embodiment, as shown in FIG. 12 and FIG. 13, the multi-system water heater module further includes a first Y-connector 200 located in the box body, wherein openings of a first branch connector a1210 and a second branch connector a2220 of the first Y-connector 200 both face the first side wall 231; one end of the second hot-water pipeline 222 towards the second side wall 232 is connected to the first branch connector a1210, and a third end of the three-way valve 24 is connected to the second branch connector a2220 by the hot-water connection pipeline 29; and the first Y-connector 200 is arranged on a part close to the second side wall 232, or the third branch connector a3230 of the first Y-connector 200 is fixedly arranged on the second side wall 232.

[0094] Since the openings of the first branch connector a1210 and the second branch connector a2220 of the first Y-connector 200 both face the first side wall 231, the opening orientation of the first branch connector a1210 is consistent with the extension direction of the second hot-water pipeline 222, and they are approximately communicated in a direct insertion; and the opening orientation of the second branch connector a2220 and the orientation of the third end port of the three-way valve 24 are approximately perpendicular. The hot-water connection pipeline 29 can include a first pipeline section 291 extending in a facing direction along the third end port of the three-way valve 24 and a second pipeline section 292 extending in a facing direction along the opening of the first branch connector a1210, wherein the first pipeline section 291 is communicated with an opposite end of the second pipeline section 292 in shape of an angle; one end of the first pipeline section 291 departing from the second pipeline section 292 is communicated with the third end of the three-way valve 24 in approximate direct insertion; and one end of the second pipeline section 292 departing from the first pipeline section 291 is communicated with the second branch connector a2220 in approximate direct insertion.

[0095] Through providing the first Y-connector 200, it can improve the arrangement simplicity of the second hot-water pipeline 222 and the hot-water connection pipeline 29, which avoids the condition of pipeline bending, so as to improve the convenience of pipeline arrangement and reduce the space occupation thereof.

[0096] The arrangement corresponding to the connection between the third branch connector a3230 and the second side wall can be specifically as follows. The opening of the third branch connector a3230 faces the second side wall 232, and the third branch connector a3230 passes through and is arranged on the second side wall 232 by other pipelines; or the third branch connector a3230 extends out of the second side wall 232 proximally in a direction towards the second side wall 232.

[0097] In the embodiment, the first side wall 231 and the second side wall 232 are arranged oppositely in the left and right direction, wherein the left side plate 233 and the right side plate 234 of the box body 23, the first hot-water pipeline 212, the first cold-water pipeline 211, the second hot-water pipeline 222, and the second cold-water pipeline 221 all extend along the left and right direction respectively, which reduces the bending arrangement for each pipeline, so as to reduce the length of each pipeline and the space occupation. The structure compactness of the multi-system water heater module is correspondingly improved; the volume and the occupying space are reduced; and the convenience of the arrangement of each pipeline is improved.

[0098] In the embodiment, the first cold-water pipeline 211 and the second cold-water pipeline 221 in their extension directions sequentially include a cold-water pipeline section A extending from left to right, a cold-water pipeline section B extending from front to back, and a cold-water pipeline section C extending from left to right, wherein a left end of the cold-water pipeline section A passes through and is arranged on the first side wall; a region between a rear side of the cold-water pipeline section A and a left side of the cold-water pipeline section B is an accommodation space; and a right end of the cold-water pipeline section C is connected to the second side wall by the cold-water pipeline section D, wherein the vertical pipeline section is located behind the first cold-water pipeline, the second cold-water pipeline, and the second hot-water pipeline and is accommodated in the accommodation space; and the water pump is located on the cold-water pipeline section C.

[0099] Specifically, as shown in FIG. 9-FIG. 13, the first cold-water pipeline 211 in its extension direction sequentially includes a first cold-water pipeline section A2113 extending from left to right, a first cold-water pipeline section B2114 extending from front to back, and a first cold-water pipeline section C2115 extending from left to right, wherein the left end of the first cold-water pipeline section A2113 passes through and is arranged on the first side wall 231, and a region between a rear side of the cold-water pipeline section A2113 and a left side of the first cold-water pipeline section B2114 is a first accommodation space 10B; a right end of the cold-water pipeline section C2115 is connected to the second side wall 232 by the first cold-water pipeline section D 2116; and the vertical pipeline section 2124 and the first connecting pipeline section 2123 are accommodated in the first accommodation space 10B.

[0100] The bottom port of the vertical pipeline section 2124 faces downward, and the first connecting pipeline section 2123 is in the shape of a bending pipeline, wherein one end is upwardly connected to the bottom port of the vertical pipeline section 2124 in direct insertion, and the other end extends toward the first side wall 231, and passes through and is arranged on the first side wall 231. The first cold-water pipeline section A2113 of the first cold-water pipeline 211 is close to the first side wall 231, and the first accommodation space 10B is formed between the rear side of the first cold-water pipeline section A2113, the left side of the first cold-water pipeline section B2114, and the first side wall 231, wherein the first connecting pipeline section 2123 in the shape of bending pipeline is located behind the first cold-water pipeline 211, and is accommodated in the first accommodation space 10B. The first cold-water pipeline section C2115 is close to the back wall plate 235 of the box body 23 backward, so as to provide a larger first mounting space 10C for mounting the first water pump 216 and other components. The extension form of the first cold-water pipeline 211 can not only facilitate the arrangement of the first hot-water pipeline 212, but also form a larger first mounting space 10C in front of the first cold-water pipeline section C2115 for mounting the first water pump 216 and other components. The pipelines of the first cold-water pipeline 211 and the first hot-water pipeline 212 are simple and arranged compactly, and occupy a smaller space.

[0101] Similarly, as shown in FIG. 12 and FIG. 13, the second cold-water pipeline 221 in its extension direction sequentially includes a second cold-water pipeline section A2213 extending from left to right, a second cold-water pipeline section B2214 extending from front to back, and a second cold-water pipeline section C2215 extending from left to right, wherein a left end of the second cold-water pipeline section A2213 passes through and is arranged on the first side wall 231; a region between a rear side of the second cold-water pipeline section A2213 and a left side of the second cold-water pipeline section B2214 is a second accommodation space 10D; the vertical pipeline section 2124 extends through the second accommodation space 10D; and a right end of the second cold-water pipeline section C2215 is connected to the second side wall 232 by the second cold-water pipeline section D2216.

[0102] In the second cold-water pipeline 221, the second accommodation space 10D is formed by the second cold-water pipeline section A2213, the second cold-water pipeline B2214, and the first side wall 231, and the vertical pipeline section 2124 passes through the rear of the second cold-water pipeline 221 via the second accommodation space 10D, which can effectively reduce the pipeline interference between the vertical pipeline section 2124 and the second cold-water pipeline 221; and the second cold-water pipeline section C2215 is close to the back wall plate 235 of the box body 23 backward, so as to provide a larger second mounting space 10E for mounting the second water pump 227 and other components. The extension form of the second cold-water pipeline 221 can not only facilitate the arrangement of the first hot-water pipeline 212, but also form a larger second mounting space 10E in front of the second cold-water pipeline section C2215 for mounting the second water pump 227 and other components. The pipelines of the second cold-water pipeline 221 and the first hot-water pipeline 212 are simple and arranged compactly, and occupy a smaller space.

[0103] Specifically, as shown in FIG. 9-FIG. 13, a first heater 213 can be arranged on the vertical pipeline section 2124, and the first heater 213 extends through the second accommodation space 10D. The first heater 213 is arranged in the second accommodation space 10D with a larger space, which can make full use of the second accommodation space 10D and reduce the arrangement interference between the first heater 213 and the pipelines, so as to improve the structure compactness of the multi-system water heater module.

[0104] In the embodiment, as shown in FIG. 13, the second check valve A217 can be located on the first cold-water pipeline section C2115 and on the water outlet side of the first water pump 216, so as to fully utilize the first mounting space 10C on the front side of the first cold-water pipeline section C2115; and the second check valve B228 is located on the second cold-water pipeline section C2215 and on the water outlet side of the second water pump 227, so as to fully utilize the second mounting space 10E on the front side of the second cold-water pipeline section C2215, so as to improve the structure compactness of each pipeline and each component in the box body 23, which reduces its space occupancy based on ensuring the functionality of the multi-system water heater module.

[0105] In the embodiment, as shown in FIG. 12 and FIG. 13, the multi-system water heater module further includes a second Y-connector 700, a cold-water connection pipeline 25, and a tee-junction arranged in the box body 23, wherein the openings of the first branch connector b1710 and the second branch connector b2720 of the second Y-connector 700 both face the first side wall 231, and the third branch connector b3730 of the second Y-connector 700 is close to or fixed to the second side wall 232, wherein one end of the cold-water pipeline section D of the second cold-water pipeline towards the second side wall 232 is connected to the first branch connector b1710, wherein the cold-water pipeline section D of the second cold-water pipeline is the second cold-water pipeline section D2216, and one end of the cold-water connection pipeline 25 is connected to the second branch connector b2720. The water inlet end of the tee-junction is connected to the first cold-water pipeline 211, wherein a nut 150 is rotationally sleeved on an outer peripheral wall of a first water outlet end of the tee-junction; the nut 150 is threadedly connected to a water inlet connector a12161 of the first water pump 216; and a second water outlet end of the tee-junction is connected to the other end of the cold-water connection pipeline 25.

[0106] Since the openings of the first branch connector b1710 and the second branch connector b2720 of the second Y-connector 700 both face the first side wall 231, the opening orientation of the first branch connector b1710 is consistent with the extension directions of the second cold-water pipeline 221 and the second cold-water pipeline section D2216, and they are approximately communicated in direct insertion; and the opening orientation of the second branch connector b2720 and the orientation of the port of the second water outlet end of the tee-junction are approximately perpendicular. The cold-water connection pipeline 25 can include a third pipeline section 251 extending in a facing direction along the second water outlet end port of the tee-junction and a fourth pipeline section 252 extending in a facing direction along the opening of the second branch connector b 2720, wherein the third pipeline section 251 is communicated with an opposite end of the fourth pipeline section 252 in shape of an angle; one end of the third pipeline section 251 departing from the fourth pipeline section 252 is communicated with the second water outlet end of the tee-junction in approximate direct insertion; and one end of the fourth pipeline section 252 departing from the third pipeline section 251 is communicated with the second branch connector a2720 in approximate direct insertion.

[0107] Through providing the second Y-connector 700, it can improve the arrangement simplicity of the second cold-water pipeline 221 and the cold-water connection pipeline 25, which avoids the condition of pipeline bending, so as to improve the convenience of pipeline arrangement and reduce the space occupation thereof.

[0108] In the embodiment, as shown in FIG. 10 and FIG. 12, a positioning seat 510 is fixedly arranged in the box body 23, and the first cold-water pipeline 211, the first hot-water pipeline 212, the second cold-water pipeline 221, and the pipeline section of the second hot-water pipeline 222 close to the first side wall 231 are all detachably connected to the positioning seat 510 by the position limitation structure 520. The positioning seat 510 can play the supporting and positioning role at rear side for pipeline sections of each pipeline close to the first side wall 231, and the pipeline section of each pipeline close to the first side wall 231 is fixed to the positioning seat 510 by the position limitation structure 520, so that the positional accuracy and stability of each pipeline section arranged in the box body 23 are improved, so as to ensure that the pipeline section is corresponding to the through holes arranged on the first side wall 231, so that the length of each pipeline section extending towards the left side from the through hole is ensured, and each pipeline section is fittingly connected to the connector at the first side wall 231.

[0109] In one embodiment, as shown in FIG. 5, FIG. 6, and FIG. 8, the multi-system water heater module further includes an electric control assembly, wherein the electric control assembly is integrated to an electric control base 27, and the electric control base 27 is rotationally connected to the box body 23. As shown in FIG. 5, the electric control assembly can be independently controlled, wherein the electric control base 27 is a box-shaped structure, and the electric control assembly is integrated into the box 271 of the electric control base 27. In practical use, the electric control base 27 is rotationally connected to the box body 23. The entirety can be turned over by assembling the hinge 28, as shown in FIG. 6, which facilitates the subsequent maintenance for components in each water circuit system.

[0110] In the embodiment, as shown in FIG. 7, the multi-system water heater module further includes a front panel 238, wherein the front panel 238 is pivotably connected to the box body 23, and is configured to cover an opening of the box body 23; and a first recess part 2381 recessing inwardly is arranged in a middle region of an outer surface of the front panel 238, the strip-shaped second recess parts 2382 extend to four corners of the first recess part 2381 towards the front panel 238. The first recess part 2381 and the second recess part 2382 can be provided as a reinforcing structure to increase the structure strength of the front panel 238, so as to ensure the shape of the front panel 238 and its sealing for the box body 23. Further, the first recess part 2381 and the second recess part 2382 are recessed inwardly relative to the edge region of the front panel 238. When the electric control base 27 is mounted in the box opening of the box body 23, based on ensuring the stable connection between the edge region of the front panel 238 and the box body 23, the first recess part 2381 and the second recess part 2382 protruding toward the rear can further abut against the electric control base 27, so as to improve the mounting stability of the electric control base 27; and the heat of the electric control base 27 can be further be dispersed outwardly by the front panel 238, so as to accordingly ensuring the stable operation of the electric control assembly inside the electric control base 27. Further, the first recess part 2381 and the second recess part 2382 with specific shapes are provided to adapt to the shape of the front panel 238, which can improve the visibility of the front panel 238 and the multi-system water heater module.

[0111] In the embodiment, as shown in FIG. 7-FIG. 12, the box body 23 has a top plate 236, a bottom plate 237, and a left side plate 233, a back wall plate 235, and a right side plate 234 located therebetween. When the first side wall 231 and the second side wall 232 are arrayed in the left and right direction, the left side plate 233 serves as the first side wall 231; the right side plate 234 serves as the second side wall 232; and the front panel 238 seals on the front side of the box body 23.

[0112] In the embodiment, a buffer tank is arranged between the second water circuit system 22 and the second end device. The arrangement of a buffer tank can reduce the frequent starting and stopping of the compressor of the heat pump host, so as to protect the compressor, which improves the comfort and stability of the heat pump system.

[0113] In summary, the multi-system water heater module provided by the embodiment can accommodate multiple water circuit systems, so as to satisfy more mounting demands. Additionally, the heat pump water charging module is used to replace the gas system; the structure is set to be floor-type; and the pipelines are connected at left and right sides, so as to distinguish the pipelines of the domestic water and the outdoor machine, which is convenient for mounting and maintenance after sale. Further, the multiple water circuit systems are overall controlled by a unified electric control scheme, which reduces the operation difficulty.

[0114] In the description of the embodiments of the present disclosure, unless other expressly specifications and limitations, the terms mount, connect, and link are to be understood in a broad sense, e.g. it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; and it can be a direct connection, an indirect connection through an intermediate medium, or a communication inside two components. For a person of ordinary skill in the art, the specific meaning of the above terms in the present disclosure may be understood in specific situations.

[0115] In the description of the present disclosure, it is to be noted that orientation or positional relationships indicated by terms, such as center, up, down, left, right, vertical, horizontal, inside, outside, are the orientation or positional relationships based on the drawings, which are only to facilitate the description of the present disclosure and simplify the description, and are not to indicate or imply that the device or element referred to must have a particular orientation, or be constructed and operated with a particular orientation, and are not to be understood as limitations of the present disclosure. Additionally, the terms first, second, and third, etc., are used only for descriptions, and are not to be understood as indicating or implying a relative importance.

[0116] Finally, it should be noted that: The above embodiments are only specific embodiments of the present disclosure, and are used to illustrate the technical solutions of the present disclosure, and not to limit it. The scope of protection of the present disclosure is not limited to this. Although the present disclosure is described in detail with reference to the foregoing embodiments, persons of ordinary skill in the art should understand that any skilled person familiar with the technical field within the technical scope disclosed by the present disclosure, they can still modify or easily change the technical solutions recorded in the foregoing embodiments or make equivalent substitutions for some of the technical features, and these modifications, changes, or substitutions do not take the essence of the corresponding technical solutions out of the spirit and scope of the technical solutions of the embodiments shall be covered by the protection scope of the present disclosure. Therefore, the scope of protection of the present disclosure shall be subject to the scope of protection of the claims.