CN114396380A

CN114396380A - Liquid spraying and air exhausting connecting mechanism of liquid pump

Info

Publication number: CN114396380A
Application number: CN202210054040.9A
Authority: CN
Inventors: 蔡文杰; 蔡先保; 王国群; 陆文清; 张亮
Original assignee: Hefei Lejie Intelligent Technology Co ltd
Current assignee: Hefei Lejie Intelligent Technology Co ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2022-04-26

Abstract

The invention relates to the technical field of oral care, and discloses a spray liquid air exhaust connecting mechanism of a liquid pump, which comprises a mixing box arranged on a middle frame, wherein a liquid inlet pipe orifice, a water inlet pipe orifice and a liquid exhaust pipe orifice are arranged on the mixing box, the liquid inlet pipe orifice and the water inlet pipe orifice are respectively connected with a cleaning liquid pipe orifice and a clear water pipe orifice on the upper part of a machine body through sealing rubber pipes, the liquid exhaust pipe orifice is communicated with a first pump inlet on the upper part of a first pump, mixed liquid is exhausted from the first pump outlet to a joint liquid inlet on a joint after being pumped and pressurized by the first pump inlet, and the mixed liquid is directly conveyed to a bidirectional pipe orifice after entering the joint liquid inlet. The mixing box of the invention realizes the mixing of the cleaning solution and the clear water, and the liquid inlet pipe orifice and the water inlet pipe orifice are respectively connected with the cleaning solution pipe orifice and the clear water pipe orifice on the upper part of the machine body through the sealing rubber pipe, so that the liquid in the cleaning solution box and the clear water box can enter the mixing box through the liquid inlet pipe orifice and the water inlet pipe orifice.

Description

Liquid spraying and air exhausting connecting mechanism of liquid pump

Technical Field

The invention relates to the technical field of oral care, in particular to a liquid spraying and air exhausting connecting mechanism of an infusion pump.

Background

Tooth cleaning plays an important role in affecting the overall health of an individual, and many people arrange to visit a dentist on a regular basis for regular examination and cleaning operations. For many years, devices have been developed, whether electrical or non-electrical, for the purpose of oral hygiene. Powered dental units (dentaluatit) have become popular, some examples of which are power toothbrushes, water pick (water pick) and power flosses, which are intended to provide cleaning results by removing food debris, dental plaque, etc. from the spaces between the teeth. These devices tend to require less user intervention in their operation, and some are also suitable for persons with impaired mobility or those who are traveling around and have difficulty using conventional toothbrushes. However, there is a need to provide and improve existing dental units to ensure satisfactory cleaning results.

In order for existing devices to be effective, consumers are required to be highly compliant with the instructions for using the powered tooth cleaning device. In addition, the user needs to operate the device in each area of the oral cavity to perform cleaning action, but the existing oral cleaning products remove stains by rubbing the toothpaste and the teeth, which is not good for children and is not beneficial to removing food debris in slits between teeth, so that the purpose of efficient tooth protection cannot be achieved.

Disclosure of Invention

The invention aims to provide a liquid spraying and air exhausting connecting mechanism of a liquid pump, a mixing box realizes the mixing of cleaning liquid and clear water, a liquid inlet pipe orifice and a water inlet pipe orifice are respectively connected with a cleaning liquid pipe orifice and a clear water pipe orifice on the upper part of a machine body through a sealing rubber pipe, so that the liquid in the cleaning liquid box and the clear water box can enter the mixing box through the liquid inlet pipe orifice and the water inlet pipe orifice, and the invention aims to solve the problems that in the prior art, oral cleaning products are used for removing stains through the friction between toothpaste and teeth, the effect is poor for children, and the food scraps in the teeth gaps are not easy to remove, so that the aim of efficiently protecting the teeth cannot be achieved.

The invention is realized in such a way that the liquid spraying and air exhausting connecting mechanism of the liquid pump comprises a mixing box arranged on a middle frame, the mixing box is provided with a liquid inlet pipe orifice, a water inlet pipe orifice and a liquid pumping pipe orifice, the liquid inlet pipe orifice and the water inlet pipe orifice are respectively connected with a cleaning liquid pipe orifice and a clear water pipe orifice at the upper part of the machine body through sealing rubber pipes, the liquid pumping pipe orifice is communicated with a first pump inlet at the upper part of the first pump, the first pump inlet pumps out the mixed liquid and discharges the mixed liquid into a connector liquid inlet on the connector from a first pump outlet after pressurization, the mixed liquid enters the connector liquid inlet and then is directly conveyed to the bidirectional pipe orifice, the upper part of the bidirectional pipe orifice is provided with two connectors which are sleeved and fixed with the bidirectional through pipe, and a joint liquid pumping port is arranged on one side of the joint, and the two connectors of the bidirectional pipe orifice are respectively communicated with the joint liquid inlet and the joint liquid pumping port.

Furthermore, the joint liquid pumping port is connected with a second pump inlet on the upper part of the second pump, waste liquid pumped by the second pump inlet is discharged into the vacuum box through a second pump outlet under the pressurization of the second pump, and a liquid pumping pipe opening on one side of the vacuum box is connected with the second pump outlet.

And further, an air inlet pipe orifice is arranged on the other side of the vacuum box and connected with a vacuum pump on the middle frame, and an air exhaust pipe orifice of the vacuum pump is connected with the air inlet pipe orifice to realize pressurization inside the vacuum box.

Furthermore, the liquid outlet is connected with a peristaltic pump, a liquid inlet pipe orifice of the peristaltic pump on the peristaltic pump receives and flows the waste liquid into the peristaltic pump for pressurization, and the pressurized waste liquid flows out through a liquid outlet pipe of the peristaltic pump.

Further, peristaltic pump feed liquor mouth of pipe, peristaltic pump play liquid mouth of pipe on the peristaltic pump all are connected through the rubber tube, the peristaltic pump realizes forming the negative pressure space discharge waste liquid with liquid extrusion forward through rotating the extrusion rubber tube.

Further, the tail end of the liquid outlet pipe opening of the peristaltic pump is connected with a liquid discharge connector, the liquid discharge connector is positioned above the waste water box, and the liquid outlet pipe opening of the peristaltic pump discharges liquid onto the liquid discharge connector and finally into the waste water box for deposition.

Furthermore, a vacuum pump air inlet pipe orifice is arranged at the position, extending to the bottom end of the lower frame, of the vacuum pump, external air is pumped into the vacuum pump through the vacuum pump air inlet pipe orifice to pressurize the inside of the vacuum box, and waste liquid in the vacuum box is discharged to the vacuum box through the liquid discharge port.

Furthermore, an air blowing pipe orifice is further arranged below the joint liquid pumping port, the lower part of the air blowing pipe orifice is connected with an air blowing pump arranged on the lower frame, and an air blowing pump exhaust pipe orifice on the air blowing pump is communicated with the air blowing pipe orifice.

Furthermore, an air inlet pipe orifice of the air blowing pump on the air blowing pump is exposed in the machine body, an electromagnetic valve is arranged between an air outlet pipe orifice of the air blowing pump and an air blowing pipe orifice, and the electromagnetic valve can realize the pipeline sealing between the air outlet pipe orifice of the air blowing pump and the air blowing pipe orifice. .

Compared with the prior art, the liquid spraying and air exhausting connecting mechanism of the liquid pump provided by the invention has the following beneficial effects:

1. the mixing box realizes the mixing of the cleaning solution and the clear water, the liquid inlet pipe orifice and the water inlet pipe orifice are respectively connected with the cleaning solution pipe orifice and the clear water pipe orifice on the upper part of the machine body through the sealing rubber pipe, so that the liquid in the cleaning solution box and the clear water box can enter the mixing box through the liquid inlet pipe orifice and the water inlet pipe orifice, the liquid pumping pipe orifice is communicated with the first pump inlet on the upper part of the first pump, the first pump inlet pumps out and pressurizes the mixed liquid, and then the mixed liquid is discharged into the pump outlet from the first pump to the joint liquid inlet on the joint, and the mixed liquid is directly conveyed to the bidirectional pipe orifice for use after entering the joint liquid inlet;

2. the rubber tube that is two passageways through the two-way siphunculus that sets up, the effect of two passageways is respectively: one is used for spouting into mixed liquid, and another passageway is used for taking mixed liquid out, makes mixed liquid for walking the same route, has guaranteed the oral cavity cleanness to U type brush sleeve is connected to the two-way siphunculus one end that sets up, and the brush holder has been cup jointed to the lower part of U type brush sleeve, and the child of can being convenient for of brush holder takes and puts.

Drawings

Fig. 1 is a front schematic view of an oral care robot;

fig. 2 is a schematic back view of an oral care robot;

fig. 3 is an exploded view of the back structure of an oral care robot;

fig. 4 is an exploded schematic view of a front structure of an oral care robot;

FIG. 5 is a schematic diagram of the upper structure of the liquid-spraying air-extracting connection mechanism of the liquid-extracting pump according to the present invention;

FIG. 6 is a schematic bottom view of a pumping connection mechanism of the present invention;

fig. 7 is a back cross-sectional view of an oral care robot;

fig. 8 is a cross-sectional view of a positive portion of an oral care robot;

FIG. 9 is a schematic diagram of the connection of the induction sterilization system;

FIG. 10 is a schematic connection diagram of a light interaction system;

fig. 11 is a display effect diagram of the light interaction system.

In the figure: 1-machine body, 11-outer shell, 12-key, 13-inner shell, 14-base, 15-power supply, 16-upper frame, 17-middle frame and 18-lower frame;

2-a sterilizing box;

3-a wastewater box;

4-a mixed flushing mechanism, 41-a cleaning solution tank, 42-a clear water tank, 43-a cleaning solution seat, 431-a cleaning solution nozzle, 44-a gasket, 45-a bidirectional through pipe, 46-a brush handle, 47-a U-shaped brush sleeve, 48-a magnet sheet, 49-a clear water seat and 491-a clear water nozzle;

5-power communication mechanism, 51-mixing box, 511-liquid inlet pipe orifice, 512-water inlet pipe orifice, 513-liquid pumping pipe orifice, 52-first pump, 521-first pump inlet, 522-first pump outlet, 53-joint, 531-joint liquid inlet, 532-joint liquid pumping orifice, 533-bidirectional pipe orifice, 534-air blowing pipe orifice, 54-vacuum box, 541-liquid pumping pipe orifice, 542-air inlet pipe orifice, 543-liquid outlet, 55-vacuum pump, 551-vacuum pump air inlet pipe orifice, 552-vacuum pump air outlet pipe orifice, 56-air blowing pump, 561-air blowing pump air inlet pipe orifice, 562-air blowing pump air outlet pipe orifice, 563-electromagnetic valve, 57-peristaltic pump, 571-peristaltic pump liquid inlet, 572-peristaltic pump liquid outlet pipe orifice, peristaltic pump liquid outlet pipe orifice, 573-drain connection, 58-second pump, 581-second pump inlet, 582-second pump outlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-8, an oral care robot comprises a machine body 1, a sterilization box 2 is arranged on one side inside the machine body, an induction sterilization system is arranged inside the sterilization box 2, a wastewater box 3 is arranged on the machine body 1 below the sterilization box 2, a mixed scouring mechanism 4 is arranged on the upper portion of the machine body 1, the mixed scouring mechanism 4 sends mixed cleaning fluid into an oral cavity to clean teeth, the mixed scouring mechanism 4 is connected with a power communicating mechanism 5, the power communicating mechanism 5 mixes the mixed cleaning fluid, sends the mixed cleaning fluid into the oral cavity, extracts the oral cavity, and discharges the mixed cleaning fluid into the wastewater box for deposition.

In this embodiment, the machine body 1 includes an outer casing 11, a button 12 is provided on the outer casing, a light interaction system is provided on the button 12, the light interaction system, an induction sterilization system, the power communication mechanism 55 is electrically connected with a main controller disposed inside the machine body 1, the inner casing 13 is nested in the middle of the outer casing 11, the lower portion of the inner casing 13 is provided with a base 14, the upper portion of the base 14 is provided with a lower frame 18, the upper portion of the lower frame 18 is provided with a middle frame 17, the upper portion of the middle frame 17 is provided with an upper frame 16, the power communication mechanism 55 is respectively disposed in the lower frame 18, the middle frame 17 and the upper frame 16, different power output devices 5 are respectively fixed through the lower frame 18, the middle frame 17 and the upper frame 16, so as to realize cooperative work after the whole mechanism is fixed.

In this embodiment, be provided with power 15 at the downside of button 12, power 15 realizes being connected with main control unit electricity, power 15 supplies power for the device when using like this, guarantee whole system's normal operating, the light interactive system that sets up simultaneously, response sterilization system also needs power 15 to carry out the energy demand, when the system is triggered promptly, the electric quantity of whole device all is provided by power 15, and be provided with the connecting wire on the power and connect the outside, thereby make things convenient for external power source to charge power 15, in order to reach the electric quantity circulation of power 15.

In this embodiment, the mixed flushing mechanism includes a pad 44 disposed on the upper portion of the machine body 1, a cleaning liquid tank 41 and a clean water tank 42 are disposed on two sides of the pad 44, a cleaning liquid seat 43 and a clean water seat 49 are disposed on the machine body 1, the cleaning liquid tank 41 and the clean water tank 42 are respectively fitted with the cleaning liquid tank 41 and the clean water tank 42, the cleaning liquid tank 41 and the clean water tank 42 are respectively inserted upside down into the cleaning liquid seat 43 and the clean water seat 49 to achieve communication, under the action of the power communication mechanism 5, the liquids in the cleaning liquid tank 41 and the clean water tank 42 enter the power communication mechanism 5 through the cleaning liquid pipe orifice 431 and the clean water pipe orifice 491 respectively to be mixed, after mixing, the mixed liquid is introduced into the interior of the bidirectional through pipe 45 and finally merged into the U-shaped brush sleeve 47, the U-shaped brush sleeve 47 is a silica gel material and is placed in the mouth of the child, so that the mixed liquid is sprayed onto the teeth to achieve cleaning, and the mixed liquid is in the mouth after cleaning, the power communicating mechanism 5 adsorbs the mixed liquid, and then the mixed liquid is discharged into the machine body 1 from the bidirectional through pipe 45, and is discharged into the waste water box 3 under the action of the power communicating mechanism 5.

In this embodiment, the bidirectional through pipe 45 is a rubber pipe provided with two channels inside, and the two channels respectively have the following functions: one is used for spouting into mixed liquid, another passageway is used for taking mixed liquid out, make mixed liquid for walking the same route, it is clean to have guaranteed the oral cavity, and power communicating mechanism 5 is connected to two-way siphunculus 45 one end that sets up, U type brush cover 47 is connected to the other end, brush holder 46 has been cup jointed to the lower part of U type brush cover 47, the child of brush holder 46 can be convenient for take and put, and when putting into to oral cavity inside with U type brush cover 47, brush holder 46 is convenient for handheld, make like this that U type brush cover 47 can realize wasing and drawing liquid with the inseparable bonding of tooth, U type brush cover 47 can realize upper and lower circulation use, wash the upper portion with U type brush cover 47 cover in upper portion tooth can, it can in the tooth of lower part to wash the lower part with U type brush cover 47 cover, and all be hydrojet and imbibition during the operation, the inside material that can not left over of oral cavity, realize wasing zero and keep somewhere the effect.

In this embodiment, be provided with magnet piece 48 on the outer wall of shell body 11 and the relative interior casing 13 of shell body 11 respectively, also be provided with magnet piece 48 on brush holder 46, like this to brush holder 46 place, the mirror need realize that magnet piece 48 wants to attract, can realize brush holder 46's fixed, brush holder 46 after fixing only need hold brush holder 46 when taking off again, outwards pull out for magnet piece 48 phase separation can, the simple operation.

In this embodiment, the power connection mechanism 5 includes a mixing box 51 disposed on the middle frame 17, the mixing box 51 is provided with a liquid inlet pipe orifice 511, a water inlet pipe orifice 512, and a liquid pumping pipe orifice 513, the liquid inlet pipe orifice 511 and the water inlet pipe orifice 512 are respectively connected with a cleaning liquid pipe orifice 431 and a clean water pipe orifice 491 on the upper portion of the machine body 1 through a sealing rubber tube, so that the liquid in the cleaning liquid box 41 and the clean water box 42 can enter the mixing box 51 through the liquid inlet pipe orifice 511 and the water inlet pipe orifice 512, the liquid pumping pipe orifice 513 is connected with a first pump inlet 521 on the upper portion of the first pump 52, the mixed liquid is pumped out and pressurized by the first pump inlet 521 and then discharged into a connector liquid inlet 531 on the connector 53 from a first pump outlet 522, the mixed liquid enters the connector liquid inlet 531 and then is directly conveyed to the two-way pipe orifice 533, the upper portion of the two-way pipe orifice 533 is provided with two connectors sleeved with the two-way pipe 45 to complete fixation, one side of the connector 53 is provided with the connector liquid pumping orifice 532, the two connectors of the bidirectional pipe orifice 533 are respectively communicated with the connector liquid inlet 531 and the connector liquid pumping orifice 532 to realize liquid pumping after liquid spraying, the connector liquid pumping orifice 532 is connected with a second pump inlet 581 at the upper part of the second pump 58, waste liquid pumped by the second pump inlet 581 is discharged into the vacuum box 54 through a second pump outlet 582 under the pressurization of the second pump 58, the liquid pumping pipe orifice 541 at one side of the vacuum box 54 is connected with the second pump outlet 582, the air inlet pipe orifice 542 is arranged at the other side of the vacuum box 54, the air inlet pipe orifice 542 is connected with the vacuum pump 55 on the middle frame 17, the vacuum pump air pumping pipe orifice 552 of the vacuum pump 55 is connected with the air inlet pipe orifice 542 to realize the internal pressurization of the vacuum box 54 so as to realize the downward extrusion of the waste liquid, and finally the waste liquid in the vacuum box 54 is discharged to the vacuum box 54 through the liquid discharge orifice 543.

In this embodiment, the liquid discharge port 543 is connected to the peristaltic pump 57, the peristaltic pump liquid inlet nozzle 571 on the peristaltic pump 57 receives and flows the waste liquid into the peristaltic pump 57 for pressurization, the pressurized waste liquid flows out through the peristaltic pump liquid outlet nozzle 572, the peristaltic pump liquid inlet nozzle 571 and the peristaltic pump liquid outlet nozzle 572 on the peristaltic pump 57 are both connected through a rubber tube, and the peristaltic pump 57 extrudes the liquid forward by rotating the extrusion rubber tube to form a negative pressure space to discharge the waste liquid.

In this embodiment, the end of the peristaltic pump outlet nozzle 572 is connected to a drainage connector 573, and the drainage connector 573 is located above the waste water box, so that the peristaltic pump 57 operates to squeeze waste liquid in the peristaltic pump inlet nozzle 571 to the peristaltic pump outlet nozzle 572, and the peristaltic pump outlet nozzle 572 discharges the liquid to the drainage connector 573 and finally to the waste water box 3 for deposition.

In this embodiment, a vacuum pump air inlet pipe 551 is disposed at a position where the vacuum pump 55 extends to the bottom end of the lower frame 18, the vacuum pump air inlet pipe 551 pumps external air into the vacuum pump 55, the vacuum pump 55 discharges air into the vacuum box 54 through the vacuum pump air inlet pipe 552 to pressurize the inside of the vacuum box 54, so as to squeeze waste liquid downward, and finally discharge the waste liquid inside the vacuum box 54 to the vacuum box 54 through the liquid discharge port 543, and after the waste liquid enters the inside of the vacuum box 54 through the liquid suction pipe 541, the waste liquid flows to the bottom due to gravity, so that when the external air is pumped through the air inlet pipe 552, the liquid level of the waste liquid is squeezed, and the waste liquid is forced to be discharged from the liquid discharge port 543 and flow into the peristaltic pump 57.

In this embodiment, the connector 53 is further provided with an air blowing nozzle 534 below the connector liquid pumping port 532, the lower portion of the air blowing nozzle 534 is connected to the air blowing pump 56 disposed on the lower frame 18, an air blowing pump air outlet nozzle 562 on the air blowing pump 56 is communicated with the air blowing nozzle 534, an air blowing pump air inlet nozzle 561 on the air blowing pump 56 is exposed in the machine body 1, an electromagnetic valve 563 is arranged between the air blowing pump exhaust pipe port 562 and the air blowing pipe port 534, the electromagnetic valve 563 can realize the pipeline sealing between the air blowing pump exhaust pipe port 562 and the air blowing pipe port 534, thus, under the action of the air blowing pump 56, the external air can directly flow into the U-shaped brush sleeve 47, thus, in the continuous blowing and air-extracting process, the U-shaped brush sleeve 47 can be opened and closed loosely, and through the contact of the internal brush hairs and the teeth, the tooth cleaning brush has the advantages that teeth are cleaned, the U-shaped brush sleeve 47 is relaxed continuously, mixed liquid can be sprayed conveniently, and the spraying area is wider.

Referring to fig. 9-10, the induction sterilization system includes the induction module that is connected with main control unit, whether article have been placed in induction module response goes out sterilization box 2, close sterilization box 2 after article are placed, the induction module starts the response, its response can be laser induction or ultrasonic wave response, send signal to main control unit after the response, main control unit receives signal after the start-up and is located the inside lamp area that disinfects of organism 1, lamp area that disinfects sends to ultraviolet ray light after the start-up to sterilization box 2, the article that is located sterilization box 2 inside like this realize bactericidal effect.

In this embodiment, response sterilization system still includes and is connected timing module and lid sensor with main control unit, the lid sensor is used for judging sterilizing box 2 and organism 1 closed mutually, the closure finishes the back and sends the start-up in signal to the master controller lamp area that disinfects, if it is opened to sterilizing box 2 by the sensor of lid in the middle of disinfecting, send stop signal immediately promptly, the lamp area stop work that disinfects this moment, timing module is used for the record to disinfect the start-up in lamp area long, the user sets up to disinfect long, time countdown after the lamp area that disinfects starts, time count module sends signal to main control unit after the countdown is accomplished, main control unit sends and stops limit number to the lamp area that disinfects.

Referring to fig. 11, the light interactive system is disposed on the button 12, the button 12 adjusts different modes by external force pressing to achieve a replacement coefficient oral mode, and specifically includes a soft mode, a standard mode, an enhanced mode, and a massage mode, the soft mode is changed by adjusting the extrusion force of the U-shaped brush sleeve 47, and in the soft mode, the light interactive system displays purple light, the standard mode completes washing through normal frequency, the light interactive system displays orange light, the enhanced mode completes washing by increasing the extrusion force of the U-shaped brush sleeve 47, the light interactive system displays pink light, the massage mode completes washing comfort by massaging gums, and the light interactive system displays blue light.

In this embodiment, the whole operation process can be controlled by a computer, and PLC and the like are added to realize automatic operation control, and in each operation link, signal feedback can be performed by setting a sensor to realize sequential execution of steps, which are conventional knowledge of the current automatic control, and are not repeated in this embodiment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The hydrojet coupling mechanism that bleeds of drawing liquid pump, a serial communication port, including setting up the mixing box on the well frame, be provided with the feed liquor mouth of pipe, the mouth of pipe of water intaking on the mixing box, the mouth of pipe of water intaking is connected with washing liquid mouth of pipe, the clear water mouth on organism upper portion through the sealing rubber pipe respectively, the first pump import on the mouth of pipe intercommunication first pump upper portion of liquid intaking, first pump import will be mixed the liquid and take out and discharge from first pump after the pressurization to the joint inlet on connecting, mix the liquid and directly carry to two-way mouth of pipe after entering into to connecting the inlet on, two-way orificial upper portion is provided with two connectors and cup joints with two-way siphunculus and accomplishes fixedly one side of connecting is provided with joint drawing liquid mouth, two-way orificial connectors are linked together with joint inlet, joint drawing liquid mouth respectively.

2. The connection mechanism of liquid spray pump of claim 1, wherein the liquid suction port of the connector is connected to a second pump inlet on the upper part of the second pump, the waste liquid pumped from the second pump inlet is pumped by the second pump to the vacuum box through the second pump outlet, and the liquid suction nozzle on one side of the vacuum box is connected to the second pump outlet.

3. The connection mechanism for liquid spraying and air exhausting of an infusion pump as claimed in claim 2, wherein an air inlet pipe orifice is arranged on the other side of the vacuum box, the air inlet pipe orifice is connected with a vacuum pump on the middle frame, and an air exhaust pipe orifice of the vacuum pump is connected with the air inlet pipe orifice to pressurize the inside of the vacuum box.

4. The liquid jet pumping connection mechanism of the liquid pump according to claim 3, wherein the liquid outlet is connected to a peristaltic pump, a liquid inlet pipe orifice of the peristaltic pump on the peristaltic pump receives and flows the waste liquid into the peristaltic pump for pressurization, and the pressurized waste liquid flows out through the liquid outlet pipe orifice of the peristaltic pump.

5. A liquid spraying and air exhausting connection mechanism of an infusion pump as claimed in claim 4, wherein a peristaltic pump liquid inlet pipe orifice and a peristaltic pump liquid outlet pipe orifice on the peristaltic pump are connected through rubber tubes, and the peristaltic pump extrudes liquid forwards to form a negative pressure space to discharge waste liquid by rotating and extruding the rubber tubes.

6. The connection mechanism for liquid spraying and air exhausting of an infusion pump as claimed in claim 5, wherein the end of the outlet nozzle of the peristaltic pump is connected with a liquid discharging connector which is positioned above the waste water box, and the outlet nozzle of the peristaltic pump discharges the liquid onto the liquid discharging connector and finally into the waste water box for deposition.

7. The connection mechanism for liquid ejection and air suction of an infusion pump according to claim 6, wherein a vacuum pump air inlet nozzle is provided at a position where the vacuum pump extends to the bottom of the lower frame, and the vacuum pump air inlet nozzle pumps external air into the vacuum pump to pressurize the inside of the vacuum chamber and discharge waste liquid in the vacuum chamber to the vacuum chamber through the liquid discharge port.

8. The connection mechanism for liquid spraying and air exhausting of an infusion pump as claimed in claim 7, wherein the joint is further provided with an air blowing nozzle below the liquid pumping nozzle of the joint, the lower part of the air blowing nozzle is connected with an air blowing pump arranged on the lower frame, and an air blowing pump exhaust nozzle on the air blowing pump is communicated with the air blowing nozzle.

9. The connection mechanism for liquid spraying and air exhausting of an infusion pump as claimed in claim 8, wherein an air inlet pipe orifice of an air blowing pump on the air blowing pump is exposed in the machine body, and an electromagnetic valve is arranged between an air outlet pipe orifice of the air blowing pump and an air blowing pipe orifice and can realize the pipeline sealing between the air outlet pipe orifice of the air blowing pump and the air blowing pipe orifice.