MULTIFUNCTIONAL CENTRAL SUCTION SYSTEM CAPABLE OF REMOTE MONITORING

Abstract

A multifunctional central suction system capable of remote monitoring includes a flow measurement device and a controller, wherein a negative pressure port of the flow measurement device is connected to a negative pressure air nozzle of the controller via a gas pipe; the flow measurement device includes a measurement mechanism and a liquid bottle; the negative pressure port is arranged on the liquid bottle; a first Bluetooth communication module is provided on the measurement mechanism; a communication module is provided in the controller; the communication module includes a second Bluetooth communication module and a WiFi communication module; and the first Bluetooth communication module on the measurement mechanism is in communication connection with the second Bluetooth communication module in the controller.

Claims

1. A multifunctional central suction system capable of remote monitoring, comprising a flow measurement device and a controller, wherein a negative pressure port of the flow measurement device is connected to a negative pressure air nozzle of the controller via a gas pipe, the flow measurement device comprises a measurement mechanism and a liquid bottle, the negative pressure port is arranged on the liquid bottle; the measurement mechanism is provided with a first Bluetooth communication module, a communication module comprising a second Bluetooth communication module and a WiFi communication module is provided in the controller; the first Bluetooth communication module on the measurement mechanism is in communication connection with the second Bluetooth communication module in the controller.

2. The multifunctional central suction system according to claim 1, wherein the measurement mechanism of the flow measurement device comprises a base, a weighing monitoring unit, a bracket and a battery, the weighing monitoring unit is powered by a battery arranged in the base, a weighing sensor of the weighing monitoring unit is provided on the base, a bracket is provided above the weighing sensor, and baffle plates are evenly and circumferentially disposed at an interval on an upper end surface of a bracket body of the bracket, an area surrounded by the baffle plates forms a mounting area for the liquid bottle, the liquid bottle is mounted in the mounting area.

3. The multifunctional central suction system according to claim 2, wherein the base is a groove-type base, a guard plate protruding upward is provided at a first side in a groove of the groove-type base, a weighing sensor is provided at a second side opposite to the first side in the groove and is arranged perpendicularly to the guard plate in a plane, and a height of the weighing sensor is higher than a height of the guard plate.

4. The multifunctional central suction system according to claim 2, wherein the bracket comprises an upper supporting plate and a lower supporting plate provided in one piece, a bottom of the lower supporting plate is provided with limiting protrusions assembled at two ends of the weighing sensor, a mounting groove is arranged in a middle of the upper supporting plate, mounting through holes for leading to the lower supporting plate are arranged in the mounting groove and is located between two limiting protrusions, the bracket is assembled with the weighting sensor within the base via screw passing through the mounting through holes, the baffle plates adapted to an outer diameter of a bottom of the liquid bottle are arranged circumferentially on the upper supporting plate.

5. The multifunctional central suction system according to claim 2, wherein the measurement mechanism further comprises a protection frame; the protection frame comprises a shell integrally formed with the base, a protection frame body arranged on an inner wall of the shell, and a guard ring arranged on an inner periphery of the protection frame body via a mounting block.

6. The multifunctional central suction system according to claim 2, wherein the weighing monitoring unit comprises the weighing sensor, a first CPU, a signal processor, a first display module, the first Bluetooth communication module and a first alarm module, an output terminal of the weighing sensor is connected to an input terminal of the signal processor, an output terminal of the signal processor is connected to the first CPU, the first Bluetooth communication module is disposed on the first CPU, an output terminal of the first CPU is connected to the first display module and the first alarm module, the first display module comprises a measurement liquid crystal display and a key mounted on the base.

7. The multifunctional central suction system according to claim 2, wherein the base is further provided with a charging port thereon.

8. The multifunctional central suction system according to claim 1, wherein the liquid bottle comprises a bottle body, a bottle cap, an overflow-proof protection mechanism and a full liquid protection mechanism, the overflow-proof protection mechanism comprises an overflow-proof plug and a splash-proof baffle, the bottle cap is provided with a liquid inlet and a negative pressure port thereon, the overflow-proof plug is arranged at the negative pressure port at a bottom of the bottle cap, the splash-proof baffle is arranged between the overflow-proof plug and the liquid inlet; the full liquid protection mechanism comprises a photoelectric sensor arranged on the protection frame and connected with the first CPU.

9. The multifunctional central suction system according to claim 8, wherein the overflow-proof plug comprises a conical floating head, a connecting rod, a float silicone head and a float basket; the float basket is mounted at a lower end of the negative pressure port, the connecting rod is mounted to the float basket via the float silicone head for limiting and is provided with the conical floating head at a lower end of the connecting rod.

10. The multifunctional central suction system according to claim 5, further comprising a liquid pipe fixing clamp, the liquid pipe fixing clamp comprises a clamp head formed with a clamping slot and a mounting slide groove arranged on a back of the clamp head and clamped on the protection frame.

11. The multifunctional central suction system according to claim 1, wherein the controller comprises a housing, a pressure detection control module, a second CPU, a second display module and a key module; a negative pressure inlet and an oxygen inlet are provided sequentially on a wall of a rear housing of the housing; and an oxygen outlet and a negative pressure outlet are provided sequentially on a bottom of the housing; the pressure detection control module is provide in the housing, various corresponding electromagnetic valves of the pressure detection control module are connected to the negative pressure inlet, the oxygen inlet, the negative pressure outlet and the oxygen outlet via a pipe, respectively; the pressure detection control module, the second display module and the key module are respectively connected to the second CPU arranged inside the housing, the second display module is embedded into a front end surface of a front housing of the housing, the key module is arranged below the second display module on the front housing.

12. The multifunctional central suction system according to claim 11, wherein the key module comprises a key circuit board and a key; the pressure detection control module comprises a negative pressure detection control unit comprising a negative pressure regulating valve, a negative-pressure-inlet pressure sensor and a negative-pressure-outlet pressure sensor arranged on a valve plate; the negative pressure regulating valve comprises a negative pressure intake valve, a negative pressure gulp valve, and a first vent valve; the negative pressure intake valve is connected in series with the first vent valve and in parallel to the negative pressure gulp valve; the negative-pressure-inlet pressure sensor is arranged on a pipe between the negative pressure inlet and the negative pressure regulating valve; the negative-pressure-outlet pressure sensor is arranged on a pipe between the negative pressure regulating valve and the negative pressure outlet; the negative pressure regulating valve, the negative-pressure-inlet pressure sensor and the negative-pressure-outlet pressure sensor each are connected to the second CPU.

13. The multifunctional central suction system according to claim 12, wherein the pressure detection control module further comprises an oxygen detection control unit comprising an oxygen regulating valve, an oxygen-inlet pressure sensor and an oxygen-outlet pressure sensor arranged on the valve plate; the oxygen regulating valve comprises an oxygen intake valve and a second vent valve connected in series; the oxygen-inlet pressure sensor is arranged on a pipe between the oxygen inlet and the oxygen regulating valve; the oxygen-outlet pressure sensor is arranged on a pipe between the oxygen regulating valve and the oxygen outlet; the oxygen regulating valve, the oxygen-inlet pressure sensor and the oxygen-outlet pressure sensor each are connected to the second CPU.

14. The multifunctional central suction system according to claim 12, wherein the negative pressure intake valve of the negative pressure regulating valve comprises one negative pressure intake valve or more negative pressure intake valves connected in parallel.

15. The multifunctional central suction system according to claim 12, wherein a sealing device is provided at each valve port of the negative pressure regulating valve and the oxygen regulating valve.

16. A multifunctional central suction system according to claim 11, further comprising an electronic overflow-proof module; the electronic overflow-proof module comprises an overflow-proof device, an electrode circuit board, electrodes, and an overflow-proof bottle; the overflow-proof device is arranged at the negative pressure outlet; two electrodes are mounded on the overflow-proof device and connected with the electrode circuit board; the electrode circuit board is connected to the second CPU, and the overflow-proof bottle covering an exterior of the electrodes is arranged at the negative pressure outlet, a negative pressure air nozzle is provided on a bottle body of the overflow-proof bottle via a sealing device.

17. The multifunctional central suction system according to claim 16, further comprising a second alarm module, the second alarm module comprises an LED light covered by the overflow-proof bottle and a buzzer in the housing; and the LED light and the buzzer are both connected to the second CPU.

18. The multifunctional central suction system according to claim 13, wherein a sealing device is provided at each valve port of the negative pressure regulating valve and the oxygen regulating valve.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0033] FIG. 1 is a structural schematic diagram of the present disclosure;

[0034] FIG. 2 is a structural schematic diagram of a flow measurement device according to the present disclosure;

[0035] FIG. 3 is a cross-sectional view taken along a line A-A of FIG. 2;

[0036] FIG. 4 is a right side view of FIG. 2;

[0037] FIG. 5 is a cross-sectional view taken along a line B-B of FIG. 4, in which a bottle cap portion is omitted;

[0038] FIG. 6 is a cross-sectional view taken along a line C-C of FIG. 4;

[0039] FIG. 7 is a structural schematic diagram of a liquid pipe fixing clamp according to the present disclosure;

[0040] FIG. 8 is a top view of FIG. 7;

[0041] FIG. 9 is a perspective view of FIG. 7;

[0042] FIG. 10 is a perspective view of the bracket according to the present disclosure;

[0043] FIG. 11 is a bottom view of the bracket according to the present disclosure;

[0044] FIG. 12 is a right side view of FIG. 11;

[0045] FIG. 13 is a structural schematic diagram of arrangement of a weighing sensor and a guard plate arranged in a groove in the flow measurement device according to the present disclosure;

[0046] FIG. 14 is a schematic block diagram of a circuit of the flow measurement device according to the present disclosure;

[0047] FIG. 15 is a structural schematic diagram of a controller according to the present disclosure;

[0048] FIG. 16 is a cross-sectional view taken along a line D-D of FIG. 15;

[0049] FIG. 17 is a right side view of FIG. 15;

[0050] FIG. 18 is a structural schematic diagram of a pressure detection control module of the present disclosure;

[0051] FIG. 19 is a left side view of FIG. 18;

[0052] FIG. 20 is a rear view of FIG. 18;

[0053] FIG. 21 is a schematic block diagram of a circuit of the controller according to the present disclosure;

[0054] FIG. 22 is a schematic diagram of connections of each pressure sensor at a negative pressure regulating valve in the controller;

[0055] FIG. 23 is a schematic diagram of connections of each pressure sensor at an oxygen regulating valve in the controller.

[0056] List of reference numerals: 1 controller, 2 gas pipe, 3 flow measurement device, 4 bottle cap, 5 protection frame, 6 baffle plate, 7 bracket, 8 base, 9 key, 10 measurement liquid crystal display, 11 liquid pipe fixing clamp, 12 liquid bottle, 13 negative pressure port, 14 liquid inlet, 15 splash-proof baffle, 16 mounting groove, 17 weighing sensor, 18 first CPU, 19 charging port, 20 conical floating head, 21 connecting rod, 22 float silicone head, 23 photoelectric sensor, 24 battery, 25 mounting slide groove, 26 clamp head, 27 protection frame body, 28 mounting block, 29 guard ring, 30 upper supporting plate, 31 lower supporting plate, 32 mounting through hole, 33 limiting protrusion, 34 guard plate, 35 controller liquid crystal display, 36 front housing, 37 oxygen outlet, 38 overflow-proof bottle, 39 negative pressure air nozzle, 40 silencer, 41 electromagnetic valve group, 42 negative pressure inlet, 43 oxygen inlet, 44 rear housing, 45 electrode circuit board, 46 overflow-proof device, 47 electrode, 48 negative-pressure-outlet pressure sensor, 49 negative-pressure-inlet pressure sensor, 50 oxygen-inlet pressure sensor, 51 oxygen-outlet pressure sensor, 52 second CPU, 53 LED light, 54 key module, 55 float basket, 56 first vent valve, 57 negative pressure gulp valve, 58 oxygen intake valve, 59 oxygen outlet connector, 60 second vent valve, 61 negative-pressure-outlet connector, 62 negative-pressure-inlet connector, 63 negative pressure intake valve, 64 sealing gasket, 65 annular sealing ring.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0057] The embodiments of the present disclosure are further detailed below in combination with the drawings:

[0058] A multifunctional central suction system capable of remote monitoring is configured to include a flow measurement device 3 and a controller 1, a negative pressure port on the flow measurement device is connected to a negative pressure air nozzle 39 of the controller via a gas pipe 2. The flow measurement device includes a measurement mechanism and a liquid bottle 12. The negative pressure port is arranged on the liquid bottle, and the measurement mechanism is provided with a first Bluetooth communication module. The controller is provided therein with a communication module including a second Bluetooth communication module and a WiFi communication module. The first Bluetooth communication module of the measurement mechanism is in communication connection with the second Bluetooth communication module of the controller. A model number of the second Bluetooth communication module is DX-BT05, and a model number of the WiFi communication module is ESP8266MOD.

[0059] The measurement mechanism of the flow measurement device includes a base 8, a weighing monitoring unit, a bracket 7 and a battery 24. The weighing monitoring unit is powered by the battery arranged in the base. A weighing sensor of the weighing monitoring unit is provided on the base. The bracket is provided above the weighing sensor. Baffle plates 6 are evenly disposed at intervals circumferentially on an upper end surface of a bracket body of the bracket; and an area surrounded by the baffle plates forms a liquid bottle mounting area. The liquid bottle is mounted in the liquid bottle mounting area.

[0060] The base is a groove-type base, a guard plate 34 protruding upward is provided at a first side in a groove of the groove-type base, the weighing sensor 17 is provided at a second side opposite to the first side in the groove and is arranged perpendicularly to the guard plate in a plane. A height of the weighing sensor is higher than a height of the guard plate, a height difference between the weighting sensor and the guard plate is 1 mm.

[0061] The bracket includes an upper supporting plate 30 and a lower supporting plate 31 provided in one piece. A bottom of the lower supporting plate is provided with limiting protrusions 33 assembled at two ends of the weighing sensor. A mounting groove 16 is arranged in a middle of the upper supporting plate. Mounting through holes 32 leading to the lower supporting plate are arranged in the mounting groove and located between two limiting protrusions. The bracket is assembled with the weighing sensor in the base via a screw passing through the mounting through-hole. The baffle plates adapted to an outer diameter of a bottom of the liquid bottle are arranged circumferentially on the upper supporting plate.

[0062] The measurement mechanism further includes a protection frame 5. The protection frame includes a shell integrally formed with the base, a protection frame body 27 arranged on an inner wall of the shell, and a guard ring 29 arranged within the protection frame body via a mounting block 28.

[0063] The weighing monitoring unit includes the weighing sensor, a first CPU 18, a signal processor, a first display module, the first Bluetooth communication module and a first alarm module. An output terminal of the weighing sensor is connected to an input terminal of the signal processor. The output terminal of the signal processor is connected to the first CPU. The first Bluetooth communication module is further provided on the first CPU. An output terminal of the first CPU is connected to the first display module and the first alarm module. The first display module includes a measurement liquid crystal display 10 and a key 9 mounted on the base.

[0064] The base is further provided with a charging port 19.

[0065] The liquid bottle includes a bottle body, a bottle cap 4, an overflow-proof protection mechanism and a full liquid protection mechanism. The overflow-proof protection mechanism includes an overflow-proof plug and a splash-proof baffle 15. The bottle cap is arranged on the bottle body, and provided with a liquid inlet 14 and a negative pressure port 13. The overflow-proof plug is arranged at the negative pressure port at a bottom of the bottle cap. The splash-proof baffle is arranged between the overflow-proof plug and the liquid inlet. The full liquid protection mechanism includes a photoelectric sensor 23 arranged on the protection frame and connected with the first CPU.

[0066] The overflow-proof plug includes a conical floating head 20, a connecting rod 21, a float silicone head 22 and a float basket 55. The float basket is mounted at a lower end of the negative pressure port. The connecting rod is mounted to the float basket via the float silicone head for limiting. The conical floating head integrally formed with the connecting rod is provided at a lower end of the connecting rod.

[0067] The system further includes a liquid pipe fixing clamp 11 made of rubber and plastic material. The liquid pipe fixing clamp includes a clamp head 26 formed with a clamping slot, and a mounting slide groove 25 arranged on a back of the clamp head and clamped on the protection frame.

[0068] The controller includes a housing, a pressure detection control module, a second CPU 52, a second display module and a key module 54. A negative pressure inlet 42 and an oxygen inlet 43 is sequentially provided on a rear wall of the housing; an oxygen outlet 37 and a negative pressure outlet are sequentially provided at a bottom of the housing. The pressure detection control module is provided in the housing. Various corresponding electromagnetic valves of the pressure detection control module are connected to the corresponding negative pressure inlet, the corresponding oxygen inlet, the corresponding negative pressure outlet and the corresponding oxygen outlet via pipes, respectively. The pressure detection control module, the second display module and the key module are respectively connected to the second CPU arranged inside the housing. A controller liquid crystal display 35 of the second display module is embedded into a front end surface of a front housing of the housing. The key module is arranged below the second display module on the front housing. The key module includes a key circuit board and a key. A model number of the second CPU is an STM32 series.

[0069] The pressure detection control module includes an electromagnetic valve group 41, a negative-pressure-inlet pressure sensor 49, a negative-pressure-outlet pressure sensor 48, an oxygen-inlet pressure sensor 50 and an oxygen-outlet pressure sensor 51. A silencer 40 is provided in the electromagnetic valve group 41 including a valve plate, a negative pressure regulating valve and an oxygen regulating valve provided on the valve plate. The negative pressure regulating valve includes a negative pressure intake valve 63, a negative pressure gulp valve 57, and a first vent valve 56. The negative pressure intake valve is connected in series with the first vent valve 56. The negative pressure gulp valve is connected in parallel to the negative pressure intake valve. The negative-pressure-inlet pressure sensor is provided on a pipe between the negative pressure inlet and a negative-pressure-inlet connector 62 at the negative pressure regulating valve. The negative-pressure-outlet pressure sensor is provided on a pipe between a negative-pressure-outlet connector 61 at the negative pressure regulating valve and the negative pressure outlet. The oxygen regulating valve includes an oxygen intake valve 58 and a second vent valve 60 connected in series. The oxygen-inlet pressure sensor is provided on a pipe between the oxygen inlet and the oxygen regulating valve. The oxygen-outlet pressure sensor is provided on a pipe between the oxygen outlet connector 59 at the oxygen regulating valve and the oxygen outlet. The negative pressure regulating valve, the oxygen regulating valve, the negative-pressure-inlet pressure sensor, the negative-pressure-outlet pressure sensor, the oxygen-inlet pressure sensor and the oxygen-outlet pressure sensor each are connected to the second CPU.

[0070] The negative pressure intake valve of the negative pressure regulating valve includes one negative pressure intake valve or more negative pressure intake valves connected in parallel. A first end of the negative pressure regulating valve is connected to the negative pressure inlet via a pipe, and a second end of the negative pressure regulating valve is connected to the negative pressure outlet via a pipe.

[0071] A sealing gasket 64 is provided at each valve port of the negative pressure regulating valve and the oxygen regulating valve.

[0072] The system further includes an electronic overflow-proof module. The electronic overflow-proof module includes an overflow-proof device 46, an electrode circuit board 45, electrodes 47 and an overflow-proof bottle 38. The overflow-proof device is provided at the negative pressure outlet. The electrodes are mounted on the overflow-proof device and connected to the electrode circuit board. The electrode circuit board is connected with the second CPU. The overflow-proof bottle 38 covering an exterior of the electrodes is arranged at the negative pressure outlet. A negative pressure air nozzle is mounted on a bottle body of the overflow-proof bottle via an annular sealing ring 65. The overflow-proof device 46 is an overflow-proof valve.

[0073] The system further includes a second alarm module including an LED light 53 covered by the overflow-proof bottle and a buzzer in the housing, and the LED light and the buzzer are both connected to the second CPU.

[0074] The housing includes a front housing 36 and a rear housing 44 that are connected via screws.

[0075] In the present embodiments, the controller can acquire data from the flow measurement device via the first Bluetooth communication module and the second Bluetooth communication module provided, and transmit the data to a terminal such as Nurses Station via a WiFi module on the controller, facilitating a nurse to monitor and ensuring safety of a patient during drainage.

[0076] Although the embodiments and drawings of the present disclosure are disclosed for the purpose of illustration, it will be understood by those skilled in the art that various alternatives, changes and modifications are possible without departing from the spirit and scope of the present disclosure and the appended claims, and the scope of the present disclosure is thus not limited to the contents disclosed in the embodiments and the drawings.