COFFEE BREWING SYSTEM AND COFFEE MACHINE

Abstract

A coffee brewing system and a coffee machine including a body, a brew head assembly, a brewing cavity assembly, and a driving device; the body has an inner cavity; the brew head assembly is fixed at one end of the inner cavity; the brewing cavity assembly has a brewing cavity and a powder pusher assembly; the brewing cavity is movably disposed in the inner cavity and is in transmission connection with the driving device; two opposite ends of the brewing cavity are respectively provided with a first opening and a second opening communicated with the interior of the brewing cavity; the first opening is opposite to the brew head assembly; the top of the brewing cavity is provided with a first powder receiving port communicated with the brewing cavity.

Claims

1. A coffee brewing system, comprising: a body, a brew head assembly, a brewing cavity assembly, and a driving device, wherein the body has an inner cavity, and the brew head assembly is fixed at one end of the inner cavity, wherein the brewing cavity assembly further comprising a brewing cavity and a powder pusher assembly, wherein the brewing cavity is movably arranged in the inner cavity and is in transmission connection with the driving device, wherein two opposite ends of the brewing cavity are respectively provided with a first opening and a second opening connected with the interior of the brewing cavity, wherein the first opening is opposite to the brew head assembly, and the top of the brewing cavity is provided with a first powder receiving port connected with the brewing cavity, wherein the powder pusher assembly has one end extending into the brewing cavity from the second opening, and the other end extending out of the brewing cavity and connected to the body, wherein the powder pusher assembly and the body may be locked to or unlocked from each other, wherein along the moving direction, the brewing cavity in the inner cavity is provided with a first position for discharging coffee residue, a second position for receiving powder, and a third position for brewing coffee, wherein in the first position, one end of the powder pusher assembly is adjacent to the first opening, in the second position, the brewing head assembly is adjacent to the first opening, and in the third position, the brewing head assembly extends into the brewing cavity and is adjacent to the powder pusher assembly.

2. The coffee brewing system of claim 1, wherein when the brewing cavity moves between the first position and the second position, wherein the powder pusher assembly and the body are locked to each other, wherein when the brewing cavity moves between the second position and the third position, the brewing cavity propels the powder pusher assembly to move causing the powder pusher assembly and the body are unlocked from each other.

3. The coffee brewing system of claim 2, wherein the coffee brewing system further comprising a sliding pull rod assembly, wherein the sliding pull rod assembly further comprising a fixing frame and a pull rod, wherein the fixing frame is fixedly connected to the body, and the pull rod is connected to another end of the powder pusher assembly and is slidably connected to the fixing frame, wherein the pull rod and the fixing frame is capable of being locked to or unlocked from each other, wherein through the locking and unlocking between the pull rod and fixing frame, the powder pusher assembly and the body are locked to or unlocked from each other in time.

4. The coffee brewing system of claim 3, wherein one of the fixing frame and the pull rod is provided with an elastic locking pin, and the other of the fixing frame and the pull rod is provided with a locking groove, wherein when the pull rod slides relative to the fixing frame to enable the locking pin to extend into the locking groove, the locking pin and the locking groove are locked to each other, wherein when the pull rod is pulled by the powder pusher assembly, the elastic locking pin escapes from the locking groove causing the locking pin and the locking groove are unlocked from each other.

5. The coffee brewing system of claim 3, wherein the driving device is in transmission connection with the brewing cavity through a lead screw assembly, wherein the lead screw assembly further comprising a nut and a lead screw meshed with each other, wherein the nut is arranged in the inner cavity and is in transmission connection with the driving device, and the lead screw is arranged in the inner cavity and connected to the brewing cavity, wherein when the driving device propels the nut to rotate in the inner cavity, the lead screw is propelled to linearly move in the inner cavity, thereby propelling the brewing cavity to move linearly in the inner cavity.

6. The coffee brewing system of claim 5, wherein a lead screw cavity penetrating through two ends of the lead screw is formed in the lead screw, wherein the fixing frame and the pull rod are arranged in the lead screw cavity, wherein one end of the fixing frame extends out from one end of the lead screw cavity and is fixedly connected to the body, and another end of the powder pusher assembly extends into the lead screw cavity and is connected to the pull rod.

7. The coffee brewing system of claim 2, wherein the powder pusher assembly further comprising a first piston portion and a rod portion, wherein the first piston portion is arranged in the brewing cavity, wherein diameter of the first piston portion is greater than diameter of the second opening, wherein one end of the rod portion extends into the brewing cavity and is connected to the first piston portion, and another end of the rod portion extends out of the brewing cavity and is connected to the body.

8. The coffee brewing system of claim 7, wherein the powder pusher assembly is provided with a liquid outlet channel, wherein an inlet of the liquid outlet channel is formed in an end surface of the first piston portion facing the brewing head assembly, and an outlet of the liquid outlet channel is formed in the circumferential surface of the rod portion, wherein sealing rings are respectively arranged on the two sides of the outlet of the liquid outlet channel on the rod portion, and the brewing cavity is provided with a liquid outlet, wherein when the brewing cavity moves to the third position, the outlet of the liquid outlet channel directly faces the liquid outlet, and the sealing rings abut against the wall of the brewing cavity.

9. The coffee brewing system of claim 8, wherein a one-way valve is arranged in the liquid outlet channel, wherein when the liquid pressure between the brewing head assembly and the powder pusher assembly reaches a predetermined threshold value, the one-way valve is opened.

10. The coffee brewing system of claim 1, wherein the coffee brewing system further comprising a controller electrically connected to the driving device and sensors arranged to respectively correspond to the first position, the second position, and the third position, wherein when the brewing cavity moves to the first position, the second position or the third position, the corresponding sensor sends a sensing signal to the controller, so that the driving device is turned off by the controller.

11. The coffee brewing system of claim 1, wherein the top of the body is provided with a second powder receiving port connected with the inner cavity, wherein the top of the body is provided with a powder blocking plate, and a third powder receiving port is formed in the powder blocking plate, wherein when the brewing cavity moves, the powder blocking plate moves along with the brewing cavity, and wherein when the brewing cavity moves to the second position, the third powder receiving port is opposite to the second powder receiving port and the first powder receiving port.

12. A coffee machine, comprising the coffee brewing system of claims 1.

13. A coffee machine, comprising the coffee brewing system of claims 2.

14. A coffee machine, comprising the coffee brewing system of claims 3.

15. A coffee machine, comprising the coffee brewing system of claims 4.

16. A coffee machine, comprising the coffee brewing system of claims 5.

17. A coffee machine, comprising the coffee brewing system of claims 6.

18. A coffee machine, comprising the coffee brewing system of claims 7.

19. A coffee machine, comprising the coffee brewing system of claims 8.

20. A coffee machine, comprising the coffee brewing system of claims 9.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] FIGS. 1-3 are respectively conceptual diagrams illustrating a sectional view of the coffee brewing system of the present invention when the brewing cavity is located at a first position, a second position and a third position;

[0019] FIGS. 4-6 are respectively conceptual diagrams illustrating a three-dimensional structure of the coffee brewing system of the present invention when the brewing cavity is located at a first position, a second position and a third position;

[0020] FIG. 7 is a conceptual diagram illustrating a three-dimensional structure of the coffee brewing system of the present invention from another viewing angle;

[0021] FIG. 8 is a conceptual diagram illustrating a sectional view of the brewing cavity assembly of the present invention;

[0022] FIG. 9 is a conceptual diagram illustrating a three-dimensional structure of the brewing cavity assembly of the present invention;

[0023] FIG. 10 is a conceptual diagram illustrating a sectional view of the powder pusher assembly of the coffee brewing system of the present invention;

[0024] FIG. 11 is a conceptual diagram illustrating a sectional view of the brewing head assembly of the coffee brewing system of the present invention;

[0025] FIG. 12 is a conceptual diagram illustrating a sectional view of the sliding pull rod assembly of the coffee brewing system of the present invention;

[0026] FIG. 13 is a conceptual diagram illustrating a three-dimensional structure of the sliding pull rod assembly of the coffee brewing system of the present invention;

[0027] FIG. 14 is a conceptual diagram illustrating the connection between the lead screw assembly and the sliding pull rod assembly of the coffee brewing system of the present invention;

[0028] FIG. 15 is a conceptual diagram illustrating a three-dimensional structure of the lead screw assembly and the sliding pull rod assembly of the coffee brewing system of the present invention.

MARKING INSTRUCTIONS IN FIGURES

[0029] 100-Body, 110-The First Power Receiving Port, 120-Residue Discharging Port, 130-Powder Blocking Plate, 140-The Third Power Receiving Port, 200-Brewing Head Assembly, 210-The Second Piston Portion, 220-Hot Water Channel, 230-The Second Filter Screen, 300-Brewing Cavity, 310-The First Opening, 320-The Second Opening, 330-The Second Powder Receiving Port, 340-Liquid Outlet, 400-Power Pusher Assembly, 410-The First Piston Portion, 420-Rod Portion, 430-The First Filter Screen, 440-Liquid Outlet Channel, 450-Sealing Ring, 460-One-way Valve, 461-Sealing Member, 462-Ball Valve, 463-Spring, 500-Driving Device, 600-Sliding Pull Rod Assembly, 610-Fixing Frame, 620-Pull Rod, 621-The Second Connecting Portion, 630-Elastic Locking Pin, 640-Locking Groove, 700-Lead Screw Assembly, 710-Lead Screw, 711-Lead Screw Cavity, 712-The First Connecting Portion, 720-Nut, 800-Sensor.

DETAILED DESCRIPTION

[0030] To allow those skilled in the art to better understand the present invention, drawings and detailed embodiments are combined hereinafter to elaborate the technical solution of the present invention.

[0031] The present invention provides a coffee brewing system for a powder coffee machine. Referring to FIGS. 1-6, the coffee brewing system comprises a body 100, a brew head assembly 200, a brewing cavity assembly, and a driving device 500. The body 100 has an inner cavity, and the brew head assembly 200 is fixed at one end of the inner cavity. The brewing cavity assembly comprises a brewing cavity 300 and a powder pusher assembly 400. The brewing cavity 300 is movably arranged in the inner cavity and is in transmission connection with the driving device 500. The brewing cavity 300 is capable of moving in the inner cavity when being propelled by the driving device 500, and the brewing cavity 300 is internally provided with a brewing space. Two opposite ends of the brewing cavity 300 are respectively provided with a first opening 310 and a second opening 320 communicated with the interior of the brewing cavity 300. The first opening 310 is opposite to the brew head assembly 200, and the top of the brewing cavity 300 is provided with a first powder receiving port 330 communicated with the brewing cavity 300. The powder pusher assembly 400 has one end extending into the brewing cavity 300 from the second opening 320, and the other end extending out of the brewing cavity 300 and connected to the body 100. The powder pusher assembly 400 and the body 100 may be locked to or unlocked from each other.

[0032] Along the moving direction, the brewing cavity 300 in the inner cavity is provided with a first position for discharging coffee residue, a second position for receiving powder, and a third position for brewing coffee. In the first position, one end of the powder pusher assembly 400 abuts against the first opening 310, in the second position, the brewing head assembly 200 abuts against the first opening 310, and in the third position, the brewing head assembly 200 extends into the brewing cavity and abuts against the powder pusher assembly 400. In some embodiments, the top and the bottom of the body 100 are respectively provided with a second powder receiving port 110 and a residue discharging port 120 in communication with the inner cavity. In some embodiments, the second powder receiving port 110 may be connected to a powder discharging channel of the coffee machine, and a residue receiving device may be arranged below the residue discharging port 120. When the brewing cavity 300 moves between the first position and the second position, the powder pusher assembly 400 and the body 100 are locked to each other. When the brewing cavity 300 moves between the second position and the third position, the brewing cavity 300 propels the powder pusher assembly 400 to move such that the powder pusher assembly 400 and the body 100 are unlocked from each other.

[0033] The first position may be an initial position of the brewing cavity 300. Referring to FIGS. 1-4, when brewing coffee, the driving device 500 propels the brewing cavity 300 to move towards the brewing head assembly 200, thereby enabling the brewing cavity 300 to move from the first position to the second position. Because the powder pusher assembly 400 and the body 100 are locked to each other, during this process, the powder pusher assembly 400 does not move along with the brewing cavity 300, and one end of the powder pusher assembly 400 gradually moves from the first opening 310 to the second opening 320.

[0034] When the brewing cavity 300 moves to the second position, referring to FIGS. 2 and 5, one end of the powder pusher assembly 400 moves to a position close to the second opening 320, and one end of the brewing head assembly 200 abuts against the first opening 310. At this point, the first powder receiving port 330 is opposite to the second powder receiving port 110, which allows the coffee powder in the powder discharging channel to fall into the brewing cavity through the second powder receiving port 110 and the first powder receiving port 330, thereby completing the powder feeding process.

[0035] Subsequently, the driving device 500 continuously propels the brewing cavity 300 to move towards the brewing head assembly 200, which enables the brewing cavity to move from the second position to the third position. The brewing cavity 300 further propels the powder pusher assembly 400 and the body 100 to be unlocked from each other, thus making the powder pusher assembly 400 move towards the brewing head assembly 200 along with the brewing cavity 300. At this point, the brewing head assembly 200 gradually extends into the brewing cavity, and when the brewing head assembly 200 gradually approaches the powder pusher assembly 400, the brewing head assembly 200 presses the coffee powder in the brewing cavity until the brewing cavity 300 moves to the third position. Referring to FIGS. 3 and 6, hot water is then fed into the pressed coffee powder for brewing coffee.

[0036] After the brewing is completed, the driving device 500 propels the brewing cavity 300 to return to the second position from the third position. In this process, the brewing head assembly 200 gradually escapes from the brewing cavity, and the powder pusher assembly 400 moves along with the brewing cavity 300 until the brewing cavity 300 reaches the second position. At this point, the powder pusher assembly 400 and the body 100 are re-locked to each other. When the brewing cavity 300 moves towards the first position, the powder pusher assembly 400 does not move any more. One end of the powder pusher assembly 400 gradually approaches the first opening 310, which is capable of continuously pushing the coffee residue in the brewing cavity to the first opening 310. When the brewing cavity 300 returns to the first position, the first opening 310 abuts against the residue discharging port 120, and one end of the powder pusher assembly 400 abuts against the first opening 310. In this way, the coffee residue in the brewing cavity is pushed out from the brewing cavity to fall into the residue receiving device through the residue discharging port 120. Therefore, a coffee brewing process is completed.

[0037] Through adopting the coffee brewing system with the aforesaid structure, after propelling the brewing cavity 300 to reciprocate once by the driving device 500, a coffee brewing process is completed. In this process, by means of the locking or unlocking between the powder pusher assembly 400 and the body 100, the powder pusher assembly 400 moves or does not move along with the brewing cavity 300. Thus, operations such as powder feeding, powder pressing, brewing and residue removal are performed conveniently. The structure is simple, the cost is low, and the stability is high.

[0038] Referring to FIGS. 3, 8 and 9, in some embodiments, the powder pusher assembly 400 comprises a first piston portion 410 having a larger diameter and a rod portion 420 having a smaller diameter. The diameter of the second opening 320 is smaller than the diameter of the first piston portion 410 and greater than the diameter of the rod portion 420. The first piston portion 410 is arranged in the brewing cavity, wherein one end of the rod portion 420 extends into the brewing cavity through the second opening 320 and is connected to the first piston portion 410, and the other end of the rod portion 420 extends out of the brewing cavity and is connected to the body 100. When the brewing cavity 300 moves from the first position to the second position, the frictional force between the brewing cavity 300 and the first piston portion 410 is too weak to enable the powder pusher assembly 400 to be unlocked from the body 100. At this point, the first piston portion 410 does not move along with the brewing cavity 300, and the first piston portion 410 moves from the first opening 310 to the second opening 320. When the brewing cavity 300 moves to the second position, the first piston portion 410 moves to a position close to the second opening 320. Because the first piston portion 410 cannot escape from the second opening 320, when the brewing cavity 300 moves to the third position, the brewing cavity 300 pulls the powder pusher assembly 400 such that the powder pusher assembly 400 is unlocked from the body 100 and moves along with the brewing cavity 300. When the brewing cavity 300 returns to the second position from the third position, under the action of the frictional force, the first piston portion 410 moves along with the brewing cavity 300, and when the brewing cavity 300 reaches the second position, the powder pusher assembly 400 and the body 100 are locked to each other again. When the brewing cavity 300 moves from the second position to the first position, the first piston portion 410 does not move along with the brewing cavity 300, and the first piston portion 410 moves to the first opening 310 from the second opening 320, thereby pushing the coffee residue out.

[0039] Referring to FIGS. 8-10, in some embodiments, the powder pusher assembly 400 is provided with a liquid outlet channel 440. An inlet of the liquid outlet channel 440 is formed in an end surface of the first piston portion 410 facing the brewing head assembly 200, and a first filter screen 430 is fixed to the end surface by means of, for example, a piston sealing ring 450 for sealing the inlet of the liquid outlet channel 440. The liquid outlet channel 440 extends into the rod portion 420 from the first piston portion 410, and an outlet of the liquid outlet channel 440 is formed in the circumferential surface of the rod portion 420. Sealing rings 450 are respectively arranged on the two sides of the outlet of the liquid outlet channel 440 on the rod portion 420, and the brewing cavity 300 is provided with a liquid outlet 340. When the brewing cavity 300 moves to the third position, the outlet of the liquid outlet channel 440 directly faces the liquid outlet 340, and the sealing rings 450 abut against the wall of the brewing cavity. Referring to FIG. 3, a sealing cavity is formed among the outer peripheral surface of the rod portion 420, the wall of the brewing cavity and the two sealing rings 450. Through adopting the aforesaid design, the liquid coffee may flow out through the liquid outlet 340 formed in the brewing cavity 300, thus preventing the liquid coffee from spilling.

[0040] Corresponding to the structure of the powder pusher assembly 400, the brewing head assembly 200 comprises a second piston portion 210 capable of extending into the brewing cavity. One end of the second piston portion 210 is fixedly connected to the body 100, a hot water channel 220 is formed in the second piston portion 210, and the hot water channel 220 extends to an end surface of the other end of the second piston portion 210. Referring to FIG. 11, the end surface is provided with a second filter screen 230, and the second filter screen 230 is fixed to the second piston portion 210 by means of, for example, a piston fixing ring.

[0041] In this way, when the brewing head assembly 200 extends into the brewing cavity and interacts with the powder pusher assembly 400 to press the coffee powder, water is fed into the brewing cavity through the hot water channel 220. After passing through the second filter screen 230, the hot water is evenly fed into the pressed coffee powder. At this point, the coffee liquid enters the liquid outlet channel 440 after being filtered by the first filter screen 430 and finally flows out of the coffee brewing system. The arrangement of the liquid path in the coffee brewing system is reasonable and the structure is simple, achieving ideal coffee brewing effect.

[0042] Referring to FIGS. 3, 8 and 9, in some embodiments, a one-way valve 460 is arranged in the liquid outlet channel 440, and when the liquid pressure between the brewing head assembly 200 and the powder pusher assembly 400 reaches a preset threshold value, the one-way valve 460 is opened, which allows the liquid coffee to flow out through the liquid outlet channel 440. In this way, the coffee is brewed under a high pressure such that the brewing effect and the brewing speed are improved while preventing the liquid coffee from flowing back to the brewing cavity. More specifically, the one-way valve 460 comprises a sealing member 461, a ball valve 462 and a spring 463, wherein the sealing member 461 is arranged at the inlet of the liquid outlet channel 440. The sealing member 461 is provided with a liquid inlet hole and a sealing surface arranged around the liquid inlet hole. The ball valve 462 is arranged in the liquid outlet channel 440, and the spring 463 is connected between the ball valve 462 and the liquid outlet channel 440 for imposing an elastic force on the ball valve 462 towards the sealing surface, thereby enabling the ball valve 462 to abut against the sealing surface to seal the liquid inlet hole. On the contrary, the ball valve 462 can be opened under the liquid pressure such that the liquid inlet hole is exposed.

[0043] In implementation, to enable the powder pusher assembly 400 and the body 100 to be locked to or unlocked from each other in time, various structures may be adopted. Referring to FIGS. 2, 12 and 13, in an embodiment, the coffee brewing system further comprises a sliding pull rod assembly 600. The sliding pull rod assembly 600 comprises a fixing frame 610 and a pull rod 620, wherein the fixing frame 610 is fixedly connected to the body 100, the pull rod 620 is connected to another end of the powder pusher assembly 400 and is slidably connected to the fixing frame 610. The pull rod 620 and the fixing frame 610 may be locked to or unlocked from each other. For example, the fixing frame 610 may be arranged in the inner cavity, and one end of the fixing frame 610 is fixedly connected to another end of the inner cavity. Another end of the fixing frame 610 may be provided with a guiding rod. The pull rod 620 is configured to be cylindrical and is sleeved on the guide rod, so that the pull rod 620 is capable of sliding along the guiding rod. A first locking mechanism is arranged between the pull rod 620 and the guiding rod for locking the pull rod 620 and the guiding rod, thereby enabling the powder pusher assembly 400 and the body 100 to be locked to or unlocked from each other in time. Definitely, in implementation, the first locking mechanism may also be arranged between the powder pusher assembly 400 and the body 100. Thus, the powder pusher assembly 400 and the body 100 can be directly locked to or unlocked from each other without the assistance of the sliding pull rod assembly 600.

[0044] In some embodiments, the first locking mechanism comprises an elastic locking pin 630 and a locking groove 640. One of the fixing frame 610 and the pull rod 620 is provided with an elastic locking pin 630, and the other of the fixing frame 610 and the pull rod 620 is provided with a locking groove 640. When the pull rod 620 slides relative to the fixing frame 610 to enable the locking pin to extend into the locking groove 640, the locking pin 630 and the locking groove 640 are locked to each other. When the brewing cavity 300 moves from the second position to the third position, the pull rod 620 is pulled by the powder pusher assembly 400 such that the elastic locking pin 630 escapes from the locking groove 640. Thus, the locking pin 630 and the locking groove 640 are unlocked from each other.

[0045] For example, the first locking mechanism comprises two groups of elastic locking pins 630, and each group of elastic locking pins 630 comprises two elastic locking pins 630. The two elastic locking pins 630 in one group are oppositely arranged on the pull rod 620 along a first straight line, and locking grooves 640 are correspondingly arranged on the guiding rod. The two elastic locking pins 630 in another group are arranged on the guiding rod along a second straight line, and locking pins are correspondingly arranged on the pull rod 620. The first straight line and the second straight line are perpendicular to each other.

[0046] When the brewing cavity 300 pulls the powder pusher assembly 400 to return to the second position, each elastic locking pin 630 is exactly aligned with the locking groove 640 and is capable of extending into the locking groove 640. Thus, the locking is achieved. Referring to FIG. 2, when the brewing cavity 300 pulls the powder pusher assembly 400 to move with a large pulling force, the brewing cavity 300 overcomes the elastic force of the elastic locking pin 630, so that the elastic locking pin 630 retracts and escapes from the locking groove 640. Thus, the pull rod 620 and the fixing frame 610 are unlocked from each other. Referring to FIG. 3, by means of the elastic locking pin 630 and the locking groove 640, the pull rod 620 and the fixing frame 610 are conveniently locked to or unlocked from each other, achieving a simple structure and high stability.

[0047] More specifically, the elastic locking pin 630 comprises a locking pin and a spring. Pin holes are formed in the pull rod 620 and the guide rod. One end of the locking pin extends into the pin hole, and another end of the locking pin is capable of extending out from the pin hole. The spring is arranged between the locking pin and the bottom of the pin hole, thereby imposing an elastic force on the locking pin to enable it to extend out from the locking hole.

[0048] Referring to FIGS. 2, 3 and 14, in some embodiments, the driving device 500 is in transmission connection with the brewing cavity 300 through a lead screw assembly 700. The lead screw assembly 700 comprises a nut 720 and a lead screw 710 that are meshed with each other. The nut 720 is arranged in the inner cavity and is in transmission connection with the driving device 500, and the lead screw 710 is arranged in the inner cavity and connected to the brewing cavity 300. When the driving device 500 propels the nut 720 to rotate in the inner cavity, the lead screw 710 is propelled to linearly move in the inner cavity, thereby propelling the brewing cavity 300 to move linearly in the inner cavity. The screw assembly 700 is capable of stably propelling the brewing cavity 300 to move linearly.

[0049] In some embodiments, a lead screw cavity 711 penetrating through two ends of the lead screw 710 is formed in the lead screw 710. The fixing frame 610 and the pull rod 620 are arranged in the lead screw cavity 711. One end of the fixing frame 610 extends out from one end of the lead screw cavity 711 and is fixedly connected to the body 100, and another end of the powder pusher assembly 400 extends into the lead screw cavity 711 and is connected to the pull rod 620. Through arranging the lead screw cavity 711 in the lead screw 710, the sliding pull rod assembly 600 is conveniently arranged in the lead screw 710. Thus, the structure of the coffee brewing system becomes compact, the space occupation is reduced, and the size of the coffee machine becomes smaller.

[0050] Referring to FIGS. 14 and 15, in some embodiments, one end of the lead screw 710 is provided with a first connecting portion 712, and another end of the pull rod 620 is provided with a second connecting portion 621. The first connecting portion 712 and the second connecting portion 621 are configured to be U-shaped. One end of the brewing cavity 300 having the second opening 320 is clamped in the first connecting portion 712, and another end of the powder pusher assembly 400 is clamped in the second connecting portion 621. A disassembly port is reserved on a side surface of the body 100 opposite to an opening of the first connection portion 712, which allows the brewing cavity 300 and the powder pusher assembly 400 to be conveniently removed. Therefore, the brewing cavity 300 is detachably connected to the lead screw 710, and the powder pusher assembly 400 is detachably connected to the pull rod 620. Through adopting the aforesaid design, the brewing cavity 300 and the powder pusher assembly 400 are capable of being removed regularly, achieving a convenient cleaning. Obviously, the brewing cavity 300 and the lead screw 710, as well as the powder pusher assembly 400 and the pull rod 620, may be connected via various detachable structures. In a preferred embodiment, the brewing cavity 300 is provided with a second locking mechanism capable of locking the first connecting portion 712 and the brewing cavity 300, which effectively prevents the brewing cavity 300 from being separated from the lead screw 710.

[0051] Referring to FIG. 7, in some embodiments, the coffee brewing system further comprises a controller (not shown) electrically connected to the driving device 500 and sensors 800 arranged to respectively correspond to the first position, the second position, and the third position. When the brewing cavity 300 moves to the first position, the second position or the third position, the corresponding sensor 800 sends a sensing signal to the controller, so that the driving device 500 is turned off by the controller. Through the arrangement of the controller and the sensors 800, the brewing process is automatically completed by the coffee brewing system, significantly improving the user experience. In implementation, the sensor may be a microswitch, a Hall sensor or an infrared sensor, etc.

[0052] Referring to FIGS. 4-6, in some embodiments, the body 100 may be a cuboid-shaped body 100. The body 100 comprises an upper support plate and a lower support plate that are arranged opposite to each other, and a side support plate arranged between the upper support plate and the lower support plate, thereby forming a cuboid-shaped inner cavity. The second powder receiving port 110 is formed in the upper support plate, and the residue discharging port 120 is formed in the lower support plate.

[0053] Referring to FIGS. 1-3, in some embodiments, the top of the body 100 is provided with a powder blocking plate 130, and a third powder receiving port is formed in the powder blocking plate 130. When the brewing cavity 300 moves, the powder blocking plate 130 moves along with the brewing cavity 300, and when the brewing cavity 300 moves to the second position, the third powder receiving port 140 is opposite to the second powder receiving port 110 and the first powder receiving port 330. After the brewing cavity 300 is moved away from the second position, the powder blocking plate 130 blocks the second powder receiving port 110, thereby preventing the coffee powder from caking due to the steam entering the powder discharging channel of the coffee machine through the first powder receiving port during in the brewing process. More specifically, the powder blocking plate 130 is arranged at the top of the upper support plate, and the upper support plate is provided with a strip-shaped hole in communication with the inner cavity. The strip-shaped hole is parallel to the moving direction of the brewing cavity 300. The top of the lead screw 710 is provided with a column pin. The column pin passes through the strip-shaped hole and is connected to the powder blocking plate 130. When the lead screw 710 propels the brewing cavity 300 to move, the powder blocking plate 130 is propelled to synchronously move through the column pin.

[0054] The present invention also provides a coffee machine having a coffee brewing system of any aforesaid embodiments. The structure of the coffee brewing system is simple, the cost is low and the stability is high. The coffee machine having the aforesaid coffee brewing system possesses these merits as well.

[0055] The above are merely exemplary embodiments of the present invention, which are not intended to limit the present invention. The scope of the present invention is defined by the claims. For those skilled in the art, modifications or equivalent replacements may be made within the spirit of the present invention, and these modifications or equivalent replacements shall therefore fall into the scope of the present invention.