CN109231614B - Medical ultrasonic couplant waste liquid recycling equipment - Google Patents

Abstract

The invention discloses a medical ultrasonic couplant waste liquid recycling device, which relates to the technical field of couplant recovery used in medical ultrasonic inspection, and comprises a filtering and degreasing device and a sterilizing and filling device; the filtration and degreasing device comprises a filtration bin, a degreasing bin and a filtration mechanism arranged between the filtration bin and the degreasing bin, and the disinfection filling device comprises a disc-shaped spraying body, a disinfection bin and a filling bin. The invention has the advantages of novel and reasonable design, capability of converting the couplant waste liquid into a new liquid meeting the standard after filtering, degreasing and sterilizing, reduction of waste of the couplant and fund investment for treating the waste liquid, resource saving, cost saving for purchasing the couplant and treating the couplant waste liquid, and strong practicability.

Description

Medical ultrasonic couplant waste liquid recycling equipment

Technical Field

The invention relates to the technical field of couplant recovery, in particular to couplant waste liquid recycling equipment for a medical ultrasonic detection probe.

Background

At present, with the improvement of the living standard of people and the enhancement of health consciousness, more and more patients receiving ultrasonic examination annually have a trend of rising year by year, and along with the increase of the medical ultrasonic examination demand, the consumption of medical ultrasonic couplant also continues to increase rapidly.

The couplant used in the current medical ultrasonic inspection is discarded after being wiped by the multi-purpose cleaning paper towel after the use, so that on one hand, a large amount of waste of the couplant is caused, and on the other hand, a large amount of funds are required to be spent for treating the medical waste liquid, so that the medical couplant is the consumable with the largest use amount in the current ultrasonic inspection of each medical institution, and does not accord with the national advocated ideas of resource conservation, green and environmental protection.

On the market, the recycling of medical ultrasonic couplant waste liquid and the recycling of waste liquid are not yet realized, which is a problem to be solved urgently at present.

Disclosure of Invention

In order to solve the technical problems, the invention provides medical ultrasonic couplant waste liquid recycling equipment capable of reducing waste of ultrasonic couplants.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a medical ultrasonic couplant waste liquid recycling device comprises a filtration degreasing device and a disinfection filling device which are communicated with each other through a transfusion tube and are arranged in a wall body;

the filtering and degreasing device comprises a filtering bin, a degreasing bin and a filtering mechanism arranged between the filtering bin and the degreasing bin, wherein a cover body is arranged on a container opening at the top of the filtering bin, a body position induction sensor I is arranged at the lower part of the filtering bin, the filtering mechanism comprises an upper fixed partition plate, a lower fixed partition plate, two side fixed partition plates and a multi-layer filtering structure arranged in an area surrounded by the four partition plates, and two groups of vibration damping mechanisms are arranged between the filtering mechanism and the wall body;

the degreasing bin is positioned under the filtering mechanism, the left side of the degreasing bin is provided with a transfusion tube I which is communicated with a degreasing liquid container or a cleaning liquid container outside the wall body, the transfusion tube I is provided with a control switch I, the bottom of the degreasing bin is also provided with a stirring fan, one end of a transfusion tube II is positioned at the bottom of the degreasing bin, the other end of the transfusion tube II is connected with a spraying body in a disinfection filling device on the right side of the filtration degreasing device, and an electric pump is also arranged on the transfusion tube II;

the disinfection filling device comprises a disc-shaped spraying body, a disinfection bin and a filling bin, wherein a plurality of capillary holes are formed in the spraying body, a plurality of ultraviolet pipelines and ultraviolet lamps are arranged in the disinfection bin, a disinfection bin partition plate is arranged at the lower part of the disinfection bin, a liquid outlet is formed in the lower part of the disinfection bin partition plate, a control switch II is arranged on the liquid outlet, a liquid accumulation container is placed in the filling bin, and a filling bin door body is arranged on one side wall body of the filling bin.

Further, the multi-layer filtering structure in the filtering mechanism comprises a wide-caliber nano silver filter screen, a narrow-caliber nano silver filter screen and an antibacterial and sterilizing fabric which are sequentially arranged at intervals from top to bottom.

Further, all pass through falcon or screw connection between upper fixed baffle, lower fixed baffle and the fixed baffle of side, upper fixed baffle, lower fixed baffle's both ends and wall contact department still are equipped with fixed gasket II and buffering cushion II.

Further, the wide-caliber nano silver filter screen is connected with the upper fixed partition plate and the side fixed partition plate through glue, the narrow-caliber nano silver filter screen is connected with the side fixed partition plate through glue, and the antibacterial and sterilizing fabric is connected with the lower fixed partition plate and the side fixed partition plate through glue.

Further, two buffer rubber pads I are respectively arranged above the upper fixed partition plate and the lower fixed partition plate, a fixed gasket I is arranged between the buffer rubber pads I and the wall body, and the fixed gasket I is fixedly connected with the wall body through screws.

Further, the vibration damping mechanism comprises a linear reciprocating motor and a damping spring, the linear reciprocating motor is fixedly connected with the wall body through a fixing plate I, motor transmission shafts I positioned at two ends of the linear reciprocating motor are respectively connected with one ends of the transmission shafts through shaft body fixing pieces I, and the other ends of the transmission shafts are respectively connected with an upper fixing partition plate and a lower fixing partition plate through fixing plate components II; the damping springs are arranged on one side of the fixed plate I, and two ends of each damping spring are fixedly connected with the upper fixed partition plate, the lower fixed partition plate or the wall body through the fixed plate component I.

Further, the fixed plate component I and the fixed plate component II are the same, and each fixed plate component I and the fixed plate component II comprise a fixed plate body and a rubber gasket which are fixedly connected through glue, screw holes embedded in the fixed plate body are matched with screw threads at the tail ends of the transmission shafts, and the tail ends of the damping springs are connected with the fixed plate body in a riveting mode.

Further, stirring blades in the degreasing bin are connected with one end of a shaft body fixing piece II through a blade connecting piece, the other end of the shaft body fixing piece II is connected with a motor transmission shaft II of a torque motor, and fixing plate pieces II are arranged on two sides of the torque motor.

Further, the bottom of the fat removal bin is also provided with a body position induction sensor II and a fat induction sensor.

The invention has the beneficial effects that the structural design is novel and reasonable, the medical ultrasonic couplant waste liquid can be converted into a new liquid which accords with YY 0299-2008 standard after being filtered, degreased and disinfected, the waste of the medical ultrasonic couplant and the fund investment for treating the waste liquid are reduced, the resources are saved, the expense for purchasing the medical ultrasonic couplant and the cost for treating the couplant waste liquid are saved, and the practicability is strong.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of a filtering mechanism according to the present invention;

FIG. 3 is a schematic view of the bottom structure of the degreasing chamber in the present invention.

FIG. 4 is a schematic diagram of a control system architecture according to the present invention.

The components in the drawings illustrate:

1-a cover body; 2-a container mouth; 3-wall body; 4, a filtering bin; 5-a body position induction sensor I; 6-buffering rubber cushion I; 6.1-fixing the gasket I; 7-upper fixed partition plates; 7.1-fixing a gasket II; 7.2-buffer rubber pad II; 8-a damping spring; 8.1-a fixed plate assembly I; 9-a linear reciprocating motor; 9.1-fixing the plate I; 9.2-a motor transmission shaft I; 9.3-shaft body fixing piece I; 9.4-a fixed plate assembly II; 10-a wide-caliber nano silver filter screen; 11-a filter gap; 12-a narrow-aperture nano silver filter screen; 13-side fixed partition; 14-an antibacterial and bactericidal fabric; 15-lower fixed partition; 16-degreasing bin; 17-a transfusion tube I; 18-control switch I; 19-a degreasing liquid container; 19.1-a cleaning solution container; 20-a shaft body fixing piece II; 21-sector connector; 22-a motor transmission shaft II; 23-stirring the fan blade; 24-a body position induction sensor II; 25-fixing a plate II; 26-torque motor; 27-a grease sensor; 28-a transfusion tube II; 29-an electric pump; 30-a disc-shaped spray body; 31-capillary holes; 32-a disinfection bin; 33-ultraviolet tube; 34-ultraviolet lamp; 35-sterilizing bin partitions; 36-body position sensing sensor iii; 37-a liquid outlet; 38-control switch II; 39-filling bin; 40-effusion container; 41-filling the bin gate body; 42-door handle; 43-positioning grooves.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

As shown in fig. 1 and 2, the medical ultrasonic couplant waste liquid recycling device comprises a filtration degreasing device and a disinfection filling device which are communicated through a transfusion tube and are arranged in a wall body 3.

The utility model provides a filter fat removal device, including filter house 4, fat removal storehouse 16 and set up the filter mechanism between the two, dispose lid 1 on the container mouth 2 at filter house 4 top, the position sensor I5 is installed to the lower part of filter house 4, filter mechanism includes fixed baffle 7, lower fixed baffle 15, two side fixed baffles 13, sets up the multilayer filtration in four baffle enclosed areas, still is equipped with two sets of vibrations damper between filter mechanism and the wall 3.

The degreasing bin 16 is located under the filtering mechanism, a transfusion tube I17 is arranged on the left side of the degreasing bin 16, the transfusion tube I17 is communicated with a degreasing liquid container 19 or a cleaning liquid container 19.1 outside the wall body 3, a control switch I18 is arranged on the transfusion tube I17, and a stirring fan blade 23 is further arranged at the bottom of the degreasing bin 16, as shown in fig. 3. One end of the infusion tube II 28 is positioned at the bottom of the degreasing bin 16, the other end is connected with a spraying body in a disinfection filling device on the right side of the filtration degreasing device, and an electric pump 29 is further arranged on the infusion tube II 28.

The disinfection filling device comprises a disc-shaped spraying body 30, a disinfection bin 32 and a filling bin 39, wherein a plurality of capillary holes 31 are formed in the spraying body, a plurality of ultraviolet pipelines 33 and ultraviolet lamps 34 are arranged in the disinfection bin 32, the ultraviolet lamps 34 are arranged in the ultraviolet pipelines 33, a disinfection bin partition 35 is arranged at the lower part of the disinfection bin 32, a liquid outlet 37 is formed in the lower part of the disinfection bin partition 35, a control switch II 38 and a body position sensing sensor III 36 are mounted on the liquid outlet 37, a liquid product container 40 is placed in the filling bin 39, the bottom of the liquid product container 40 is matched with a positioning groove 43, the liquid product container 40 is conveniently fixed, a filling bin door 41 is mounted on one side wall 3 of the filling bin 39, and a door handle 42 is mounted on the filling bin door 41.

In particular, the multi-layer filtering structure in the filtering mechanism comprises a wide-caliber nano silver filter screen 10, a narrow-caliber nano silver filter screen 12 and an antibacterial and sterilizing fabric 14 which are sequentially arranged at intervals from top to bottom, wherein a certain filtering gap 11 is reserved between the narrow-caliber nano silver filter screen 12 and the wide-caliber nano silver filter screen 10 as well as between the narrow-caliber nano silver filter screen 12 and the antibacterial and sterilizing fabric 14.

In particular, the upper fixed partition plate 7, the lower fixed partition plate 15 and the side fixed partition plates 13 are connected through falcons or screws, and fixed gaskets II 7.1 and buffer rubber gaskets II 7.2 are further arranged at the contact positions of the two ends of the upper fixed partition plate 7 and the lower fixed partition plate 15 with the wall body 3.

Specifically, the wide-caliber nano silver filter screen 10 is connected with the upper fixed partition 7 and the side fixed partition 13 through glue, the narrow-caliber nano silver filter screen 12 is connected with the side fixed partition 13 through glue, the antibacterial and sterilizing fabric 14 is connected with the lower fixed partition 15 and the side fixed partition 13 through glue, grooves are formed in the upper fixed partition 7 and the lower fixed partition 15, the size of the grooves is equal to that of the wide-caliber nano silver filter screen 10 and the antibacterial and sterilizing fabric 14, the upper surface of the wide-caliber nano silver filter screen 10 is flush with the upper fixed partition 7, and the lower surface of the antibacterial and sterilizing fabric 14 is flush with the lower fixed partition 15.

In particular, two buffer rubber pads I6 are respectively arranged above the upper fixed partition plate 7 and the lower fixed partition plate 15, a fixed gasket I6.1 is arranged between the buffer rubber pad I6 and the wall body 3, and the fixed gasket I6.1 is fixedly connected with the wall body 3 through a screw.

Specifically, the vibration damping mechanism comprises a linear reciprocating motor 9 and a damping spring 8, the linear reciprocating motor 9 is fixedly connected with the wall body 3 through a fixed plate I9.1 by bolts, motor transmission shafts I9.2 positioned at two ends of the linear reciprocating motor 9 are respectively connected with one ends of the transmission shafts through shaft body fixing pieces I9.3, and the other ends of the transmission shafts are respectively connected with an upper fixed partition plate 7 and a lower fixed partition plate 15 through fixed plate components II 9.4; the damping springs 8 are arranged on one side of the fixed plate I9.1, and two ends of each damping spring 8 are fixedly connected with the upper fixed partition 7, the lower fixed partition 15 or the wall body 3 through the fixed plate component I8.1.

In particular, the fixed plate component I8.1 and the fixed plate component II 9.4 are the same, and each fixed plate component comprises a fixed plate body and a rubber gasket which are fixedly connected through glue, a screw hole embedded in the fixed plate body is matched with the thread phase at the tail end of the transmission shaft, and the tail end of the damping spring 8 is connected with the fixed plate body through riveting.

Specifically, stirring blades 23 in the degreasing chamber 16 are connected to one end of a shaft body fixing member ii 20 through a blade connecting member 21, the other end of the shaft body fixing member ii 20 is connected to a motor transmission shaft ii 22 of the torque motor 26, the shaft body fixing member ii 20 is connected to the motor transmission shaft ii 22 by bolts, and fixing plate members ii 25 are provided on both sides of the torque motor 26 to fix the torque motor 26.

In particular, the bottom of the fat removal cartridge 16 is further provided with a body position sensor ii 24 and a fat sensor 27.

The wall body 3 is made of PVC materials, the lower wall of the disinfection bin 32 is made of glass materials, so that ultraviolet lamps 34 can penetrate glass to disinfect the filling bin 39, the filling bin 39 is guaranteed to be in a sterile state, and in addition, the disinfection bin partition plate 35 is arranged into a downward groove structure, so that the functions of downward automatic flowing and converging of coupling agents are realized.

Three-layer filtering material among the filter mechanism, wide bore nano silver filter screen 10 can filter the impurity that the diameter is greater than 0.5 millimeter, narrow bore nano silver filter screen 12 can filter the impurity that the diameter is greater than 0.1 millimeter, can get rid of the physics impurity that exists in the couplant through above two-layer filter screen, the third layer filtering material is antibiotic fabric 14 that disinfects, this fabric can get rid of virus, bacterium etc. that exists in the couplant, antibiotic fabric 14 disinfects with the ultraviolet ray in the disinfection storehouse 32 mutually support and play better disinfection, sterilization effect.

The filtering mechanism arranged in the filtering bin 4 is contacted with a plurality of groups of damping springs 8, after the linear reciprocating motor 9 is started, four groups of spring devices play a role in smoothing and storing vibration energy, and enable the filtering mechanism to vibrate uniformly, so that a coupling agent is enabled to be fully contacted with three layers of filtering materials, a good filtering function is achieved, in addition, the four groups of damping springs 8 can play a role in reducing noise and stabilizing the filtering mechanism, and noise and vibration phenomena of equipment generated by hard contact between each partition board and the wall body 3 are avoided.

The volume of the filtering bin 4 is slightly smaller than that of the effusion container 40 in the filling bin 39, so that the couplant waste liquid can be filled once, and the filtering, degreasing, sterilizing and filling processes can be automatically completed.

The ultraviolet lamp 34 is wrapped in the ultraviolet pipeline 33, so that the ultraviolet lamp 34 can not contact the couplant, the ultraviolet lamp 34 can generate deep ultraviolet rays, the wavelength is between 240 nanometers and 350 nanometers, the complete disinfection of the couplant can be realized, the ultraviolet pipeline 333 to 5 rows are designed in the disinfection bin 32, and the number of the ultraviolet lamps 34 in each row is 4 to 16.

The circular capillary holes 31 are formed on the disc-shaped spraying body 30 at the upper part of the disinfection bin 32, the diameter is 1.5-3.5 mm, and the couplant drops to the bottom of the disinfection bin 32 from the capillary holes, and the couplant is fully disinfected by the light of the ultraviolet lamp 34 through the ultraviolet pipeline 33.

As shown in fig. 4, the control system of the present invention uses the following procedures:

1. the medical ultrasonic couplant waste liquid is filled into the filter bin 4, the control system starts the control switch of the filter device, the linear reciprocating motor 9 starts to operate, the filter device vibrates up and down under the action of the reciprocating motor, the couplant waste liquid is caused to pass through the filter mechanism, the separation of physical impurities, bacteria and viruses from the couplant is realized, and the waste liquid filtering function is completed;

2. when the couplant waste liquid in the filtering bin 4 is reduced to the position of the body position sensing sensor I5, the control switch of the filtering device is closed.

3. After the coupling agent is filtered, the coupling agent enters a degreasing bin 16, a grease induction sensor 27 in the degreasing bin 16 detects the grease content of the coupling agent, a control system starts a control switch I18 according to the grease content, degreasing liquid in a degreasing liquid container 19 flows into a degreasing bin 1616 through a liquid delivery pipe I17, and simultaneously starts a stirring power control system switch, and the mixing of the coupling agent and the degreasing liquid is realized through stirring of stirring blades 23, so that the effect of fully removing the grease is achieved;

4. after the grease induction sensor 27 transmits signals that the couplant grease reaches the standard to the control system, the control system turns off the degreasing liquid control switch I18, turns on the electric pump 29 and the ultraviolet disinfection control switch, the electric pump 29 pumps the couplant to the disc-shaped spraying body 30 through the infusion tube II 28, and simultaneously turns on the ultraviolet disinfection control switch, the couplant drops from the capillary holes 31 at the bottom of the disc-shaped spraying body 30, the dropped couplant drops pass through the ultraviolet pipeline 33 provided with a plurality of rows of ultraviolet lamps 34, and the ultraviolet lamps 34 fully disinfect the dropped couplant drops;

4. when the couplant in the disinfection bin 32 is reduced to the position of the position sensing sensor II 24, the control system turns off the switch of the electric pump 29.

5. After the disinfection bin 32 is disinfected, the control system turns on the filling control switch, the couplant is injected into the effusion container 40, when the couplant in the effusion container 40 rises to the bottle mouth, the body position sensing sensor III 36 sends a signal for closing the filling control switch to the control system, so that the filling of the couplant is completed, the effusion container 40 is taken out through the filling bin door 41 after being filled with the couplant, the couplant in the effusion container 40 is transferred to other storage containers, and the empty effusion container 40 is replaced by the positioning groove 43.

After the medical ultrasonic couplant waste liquid is treated and cleaned for many times, all parts of the medical ultrasonic couplant waste liquid are required to be cleaned, in particular to a filtering mechanism between the filtering bin 4 and the degreasing bin 16.

The cleaning process of the degreasing chamber 16, the sterilizing chamber 32, the filtering mechanism and the filtering chamber 4 in the invention is as follows:

1. degreasing chamber 16, sterilization chamber 32

After the control system is started, the control switch I18, a power switch of a torque motor 26 in the degreasing chamber 16, a switch of an electric pump 29, an ultraviolet disinfection control switch and a filling control switch are started, cleaning liquid in the cleaning liquid container 19.1 is injected into the degreasing chamber 16, stirring blades 23 are stirred under the drive of the torque motor 26, the full cleaning of the degreasing chamber 16 is realized, the cleaning liquid is pumped to the disc-shaped spraying body 30 through the electric pump 29, the cleaning liquid drops from capillary holes 31 at the bottom of the disc-shaped spraying body 30, the dropped cleaning liquid cleans the ultraviolet pipeline 33 and the wall body 3 of the disinfection chamber 32, and waste liquid after cleaning is injected into the effusion container 40 through a liquid outlet 37.

After the steps are circularly carried out for 5 to 10 minutes, the control system turns off the control switches, so that the full cleaning of the degreasing chamber 16 and the disinfection chamber 32 can be completed.

2. Filter mechanism and filter cartridge 4

Firstly, the equipment is inverted, a control system is used for starting a control switch I18 and a power switch of a filtering device, cleaning liquid in a cleaning liquid container 19.1 is injected into a degreasing bin 16 through a liquid delivery pipe I17 and flows to a filtering mechanism, a linear reciprocating motor 9 is used for reciprocating operation because the control system is started and the power switch of the filtering device is started, the filtering mechanism vibrates up and down under the action of the reciprocating motor, so that cleaning liquid is fully contacted with the filtering mechanism, when the cleaning liquid is used for cleaning an antibacterial and bactericidal fabric 14, bacteria and viruses in a filter screen gap are washed away, when the cleaning liquid flows through a narrow-caliber nano silver filter screen 12, impurities with diameters larger than 0.1 millimeter in an upper filter screen gap are washed away, when the cleaning liquid flows through a wide-caliber nano silver filter screen 10, impurities with diameters larger than 0.5 millimeter on the upper surface of the wide-caliber nano silver filter screen 10 are washed away, finally, the cleaning liquid flowing into the filtering bin 4 contains bacteria, viruses, various impurities larger than 0.1 millimeter and the like, and the accumulated cleaning waste liquid can be discharged through a container opening 2.

After the circulating cleaning is carried out for 5 to 10 minutes according to the steps, the control system closes each control switch to close, and the full cleaning of the filtering mechanism and the filtering bin 4 is completed.

It should be understood that the above description is not intended to limit the invention to the particular embodiments disclosed, but to limit the invention to the particular embodiments disclosed, and that the invention is not limited to the particular embodiments disclosed, but is intended to cover modifications, adaptations, additions and alternatives falling within the spirit and scope of the invention.

Claims (4)

1. The medical ultrasonic couplant waste liquid recycling equipment is characterized by comprising a filtration degreasing device and a disinfection filling device which are communicated with each other through a transfusion tube and are arranged in a wall body;

the filtering and degreasing device comprises a filtering bin, a degreasing bin and a filtering mechanism arranged between the filtering bin and the degreasing bin, wherein a cover body is arranged on a container opening at the top of the filtering bin, a body position induction sensor I is arranged at the lower part of the filtering bin, the filtering mechanism comprises an upper fixed partition plate, a lower fixed partition plate, two side fixed partition plates and a multi-layer filtering structure arranged in an area surrounded by the four partition plates, and a vibration damping mechanism is arranged between the filtering mechanism and the wall body;

the degreasing bin is positioned under the filtering mechanism, the left side of the degreasing bin is provided with a transfusion tube I which is communicated with a degreasing liquid container or a cleaning liquid container outside the wall body, the transfusion tube I is provided with a control switch I, the bottom of the degreasing bin is also provided with a stirring fan, one end of a transfusion tube II is positioned at the bottom of the degreasing bin, the other end of the transfusion tube II is connected with a spraying body in a disinfection filling device on the right side of the filtration degreasing device, and an electric pump is also arranged on the transfusion tube II;

the disinfection filling device comprises a disc-shaped spraying body, a disinfection bin and a filling bin, wherein a plurality of capillary holes are formed in the spraying body, a plurality of ultraviolet pipelines and ultraviolet lamps are arranged in the disinfection bin, a disinfection bin partition plate is arranged at the lower part of the disinfection bin, a liquid outlet is formed below the disinfection bin partition plate, a control switch II is arranged on the liquid outlet, a effusion container is placed in the filling bin, and a filling bin door body is arranged on one side wall body of the filling bin;

the multi-layer filtering structure in the filtering mechanism comprises a wide-caliber nano silver filter screen, a narrow-caliber nano silver filter screen and an antibacterial and sterilizing fabric which are sequentially arranged at intervals from top to bottom;

the upper fixed partition plate, the lower fixed partition plate and the side fixed partition plates are connected through falcons or screws, and fixed gaskets II and buffer rubber pads II are further arranged at the contact positions of the two ends of the upper fixed partition plate and the lower fixed partition plate with the wall body;

the wide-caliber nano silver filter screen is connected with the upper fixed partition plate and the side fixed partition plate through glue water, the narrow-caliber nano silver filter screen is connected with the side fixed partition plate through glue water, and the antibacterial and sterilizing fabric is connected with the lower fixed partition plate and the side fixed partition plate through glue water;

the upper fixing partition plate and the lower fixing partition plate are provided with buffering rubber gaskets I above, fixing gaskets I are arranged between the buffering rubber gaskets I and the wall body, and the fixing gaskets I are fixedly connected with the wall body through screws;

the vibration damping mechanism comprises a linear reciprocating motor and a damping spring, the linear reciprocating motor is fixedly connected with the wall body through a fixed plate I, motor transmission shafts I positioned at two ends of the linear reciprocating motor are respectively connected with one end of each transmission shaft through shaft body fixing pieces I, and the other ends of the transmission shafts are respectively connected with an upper fixed partition plate and a lower fixed partition plate through fixed plate components II; the damping springs are arranged on one side of the fixed plate I, and two ends of each damping spring are fixedly connected with the upper fixed partition plate, the lower fixed partition plate or the wall body through the fixed plate component I.

2. The medical ultrasonic couplant waste liquid recycling device according to claim 1, wherein the fixing plate assembly II comprises a fixing plate body and a rubber gasket which are fixedly connected through glue, screw holes embedded in the fixing plate body are matched with threads at the tail end of the transmission shaft, and the tail end of the damping spring is connected with the fixing plate assembly I in a riveting mode.

3. The medical ultrasonic couplant waste liquid recycling device according to claim 2, wherein stirring blades in the degreasing bin are connected with one end of a shaft body fixing piece II through a blade connecting piece, the other end of the shaft body fixing piece II is connected with a motor transmission shaft II of a torque motor, and fixing plates II are arranged on two sides of the torque motor.

4. A medical ultrasonic couplant waste liquid recycling device according to claim 3, wherein the bottom of the degreasing bin is further provided with a body position sensor ii and a grease sensor.