CN114275410B - Liquid medicine recovery and storage device for gynecological operation - Google Patents

Abstract

The invention relates to a recovery storage device, in particular to a medicinal liquid recovery storage device for gynecological operation. The gynecological operation medicine liquid recovery and storage device is convenient for people to collect medicine liquid, does not occupy a large space, does not influence surrounding environment, and does not generate sediment. A medical liquid recovery and storage device for gynecological operation, which comprises: anti-falling outer cylinders are provided with buffer struts at intervals; the cross positioning block is arranged on the anti-falling outer cylinder; the positioning plate is arranged on the cross positioning block; the installation bottom cylinder is arranged between the positioning plate and the anti-falling outer cylinder at intervals; a storage cylinder placed on the installation base cylinder. According to the invention, through the functions of the negative pressure mechanism and the sealing mechanism, people can conveniently suck the liquid medicine into the storage cylinder, and the sealing cover plate performs sealing limit, so that the liquid medicine can be conveniently collected by people, a large space is not required to be occupied, and the surrounding environment is not influenced.

Description

Liquid medicine recovery and storage device for gynecological operation

Technical Field

The invention relates to a recovery storage device, in particular to a medicinal liquid recovery storage device for gynecological operation.

Background

When the gynecological operation is completed, the surgical liquid medicine is recovered and stored. At present, most people pour the liquid medicine into the collecting container, so that more collecting containers are needed, a large space is occupied, the waste liquid medicine can emit unpleasant smell to influence the surrounding environment, the liquid medicine can generate precipitation in the collecting container, and the subsequent treatment is troublesome.

Therefore, the design of the gynecological operation medicine liquid recovery and storage device is convenient for people to collect medicine liquid, does not occupy a large space, does not influence the surrounding environment, and does not generate sediment, so that the problem of the prior art is solved.

Disclosure of Invention

In order to overcome the defects that the waste liquid medicine occupies a large space, bad smell can be emitted to influence the surrounding environment, the liquid medicine can generate precipitation in the collecting container and the subsequent treatment is troublesome, the technical problem to be solved is that: the gynecological operation medicine liquid recovery and storage device is convenient for people to collect medicine liquid, does not occupy a large space, does not influence surrounding environment, and does not generate sediment.

The technical scheme of the invention is as follows: a medical liquid recovery and storage device for gynecological operation, which comprises: anti-falling outer cylinders are provided with buffer struts at intervals; the cross positioning block is arranged on the anti-falling outer cylinder; the positioning plate is arranged on the cross positioning block; the installation bottom cylinder is arranged between the positioning plate and the anti-falling outer cylinder at intervals; a storage cylinder placed on the installation base cylinder; the negative pressure mechanism is arranged on the anti-falling outer cylinder and is used for extracting liquid medicine; the sealing mechanism is arranged on the anti-falling outer cylinder and used for sealing; the sealing cover plate is arranged on the sealing mechanism; and the absorption hose is arranged on the sealing cover plate and penetrates through the sealing cover plate to be communicated with the storage cylinder.

Further, the negative pressure mechanism includes: the servo motor is arranged on the anti-falling outer cylinder; the driving shaft is arranged on an output shaft of the servo motor; the negative pressure fan is rotatably arranged on the anti-falling outer cylinder; the reversing bevel gear assembly is arranged between the negative pressure fan and the driving shaft; the support center column is arranged on the anti-falling outer cylinder, the negative pressure fan is positioned in the support center column, and the support center column is communicated with the storage cylinder; the negative pressure cylinder wall is arranged on the supporting center column; the unidirectional air duct is arranged on the anti-falling outer cylinder, and is fixedly connected and communicated with the supporting center column; the starting button is arranged on the anti-falling outer cylinder; and the stop button is arranged on the anti-falling outer cylinder.

Further, sealing mechanism includes: the positioning guide ring is arranged on the anti-falling outer cylinder; the threaded sealing ring is rotatably arranged on the positioning guide ring and is matched with the sealing cover plate; the fixed bottom block is arranged on the anti-falling outer cylinder; the rotating block is hinged to the fixed bottom block; the positioning column is arranged on the rotating block in a sliding manner and is fixedly connected with the sealing cover plate; the support spring is arranged between the rotating block and the positioning column; the electromagnetic lock is arranged on the fixed bottom block and is matched with the positioning column; and the unlocking button is arranged on the anti-falling outer cylinder.

Further, still including rabbling mechanism, rabbling mechanism is including: the vertical rotating shaft is rotatably arranged on the anti-falling outer cylinder; the worm and gear assembly is arranged between the vertical rotating shaft and the anti-falling outer cylinder; the transmission belt assembly is arranged between the worm and gear assembly and the driving shaft; the driving gear is arranged on the vertical rotating shaft; the transmission transfer gear is rotatably arranged on the support center post and meshed with the driving gear; the upright post with the gear is rotatably arranged on the storage cylinder and is meshed with the transmission transfer gear; and the stirring spiral plate is arranged on the upright post with the gear.

Further, still include circulation imbibition mechanism, circulation imbibition mechanism is including: the electric push rod is arranged on the supporting center column; the cross guide rail block is arranged on the electric push rod; the fixed clamping jaws are arranged on the cross guide rail block in a sliding mode at intervals; sealing plugs, wherein every two sealing plugs are arranged on the storage cylinder in a group; the liquid guide hose is arranged between the two sealing plugs and communicated with the fixed clamping jaw; the lower pressing roof is arranged on the sealing cover plate at intervals; the rotary ring is rotatably arranged on the cross guide rail block; the synchronous positioning rods are arranged on the rotary ring at intervals and are fixedly connected with the fixed clamping jaws; the pressure sensor is arranged on the cross guide rail block; the high-speed motor is arranged on the sealing cover plate; the steering vertical shaft is arranged on the output shaft of the high-speed motor; the reversing gear assembly is arranged between the steering vertical shaft and the rotary ring; the telescopic electromagnetic valve is arranged on the fixed clamping jaw; the pushing slide block is arranged on the fixed clamping jaw in a sliding manner and is fixedly connected with the telescopic electromagnetic valve; the force application push rod is arranged on the pushing slide block; the buffer springs are symmetrically arranged between the pushing slide block and the force application push rod; the movable clamping jaw is hinged to the fixed clamping jaw and is matched with the force application push rod; the communication button is arranged on the anti-falling outer cylinder; reset button, reset button installs on anti-drop urceolus.

Further, still include clamping mechanism, clamping mechanism includes: the lower pressing bottom plate is slidably arranged on the installation bottom cylinder; the clamping upright rods are hinged to the mounting bottom cylinder at intervals and are matched with the pressing-down bottom plate; and the reset spring is arranged between the mounting bottom cylinder and the pressing bottom plate and is wound on the pressing bottom plate.

Further, still including hose placement machine, hose placement machine constructs including: the vertical straight rod is arranged on the anti-falling outer cylinder; the lifting straight rod is slidably arranged on the vertical straight rod; the holding clamping jaw is hinged to the lifting straight rod; the screw rod is connected to the vertical straight rod in a threaded mode, and is connected with the vertical straight rod in a threaded mode.

Further, the anti-falling electric control device also comprises an electric control box, wherein the electric control box is arranged on one side of the anti-falling outer barrel, the electric control box comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole device, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the unlocking button, the starting button, the stopping button, the communicating button, the resetting button and the pressure sensor are electrically connected with the control module; the electric push rod, the servo motor, the high-speed motor, the electromagnetic lock and the telescopic electromagnetic valve are all connected with the control module through peripheral circuits.

The beneficial effects are that:

1. according to the invention, through the functions of the negative pressure mechanism and the sealing mechanism, people can conveniently suck the liquid medicine into the storage cylinder, and the sealing cover plate performs sealing limit, so that the liquid medicine can be conveniently collected by people, a large space is not required to be occupied, and the surrounding environment is not influenced.

2. The invention can stir the collected liquid medicine by the stirring mechanism, thus avoiding the precipitation of the liquid medicine.

3. According to the invention, the clamping upright rod swings inwards to limit the storage cylinder under the action of the clamping mechanism, so that the storage cylinder can be prevented from moving.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a schematic perspective view of a third portion of the present invention.

FIG. 5 is an enlarged schematic view of section A of the present invention.

Fig. 6 is a schematic perspective view of a fourth part of the present invention.

FIG. 7 is an enlarged schematic view of section B of the present invention.

Fig. 8 is a schematic perspective view of a fifth part of the present invention.

Fig. 9 is an enlarged schematic view of section C of the present invention.

Fig. 10 is a schematic perspective view of a sixth part of the present invention.

Fig. 11 is a schematic perspective view of a seventh part of the present invention.

Fig. 12 is an enlarged schematic view of the portion D of the present invention.

Fig. 13 is a schematic perspective view of an eighth portion of the present invention.

Fig. 14 is a schematic perspective view of a ninth part of the present invention.

Fig. 15 is a circuit block diagram of the present invention.

Fig. 16 is a schematic circuit diagram of the present invention.

In the reference numerals: 1-anti-falling outer cylinder, 2-buffering support column, 3-sealing cover plate, 4-positioning plate, 5-cross positioning block, 6-installation bottom cylinder, 7-storage cylinder, 8-absorption hose, 9-electric cabinet, 10-negative pressure mechanism, 101-servo motor, 102-driving shaft, 103-reversing bevel gear assembly, 104-negative pressure fan, 105-supporting middle column, 106-negative pressure cylinder wall, 107-one-way air duct, 108-starting button, 109-stopping button, 11-sealing mechanism, 111-threaded sealing ring, 112-positioning guide ring, 113-rotating block, 114-positioning column, 115-supporting spring, 116-fixed bottom block, 117-electromagnetic lock, 118-unlocking button, 12-stirring mechanism, 121-driving belt assembly, 122-worm and gear component, 123-vertical rotating shaft, 124-driving gear, 125-transmission transfer gear, 126-gear column, 127-stirring spiral plate, 13-circulation liquid suction mechanism, 131-electric push rod, 132-cross guide rail block, 133-fixed clamping jaw, 134-sealing plug, 135-liquid guide hose, 136-pressing down top, 137-synchronous positioning rod, 138-pressure sensor, 139-high-speed motor, 1310-steering vertical shaft, 1311-reversing gear component, 1312-rotating circular ring, 1314-telescopic electromagnetic valve, 1315-pushing slide block, 1316-buffer spring, 1317-force pushing push rod, 1318-movable clamping jaw, 1319-communication button, 1321-reset button, 14-clamping mechanism, 141-pressing bottom plate, 142-clamping upright rod, 143-return spring, 15-hose placing mechanism, 151-vertical straight rod, 152-lifting straight rod, 153-placing clamping jaw, 154-screw rod.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

1-5, including anti-drop urceolus 1, buffering pillar 2, sealed apron 3, locating plate 4, cross locating piece 5, install end section of thick bamboo 6, store a section of thick bamboo 7, absorption hose 8, negative pressure mechanism 10 and sealing mechanism 11, anti-drop urceolus 1 outer bottom interval is equipped with buffering pillar 2, anti-drop urceolus 1 in the rigid coupling have cross locating piece 5, be equipped with locating plate 4 on the cross locating piece 5, even interval is equipped with install end section of thick bamboo 6 in locating plate 4 and the anti-drop urceolus 1 in the bottom, install end section of thick bamboo 7 in the end section of thick bamboo 6, be equipped with negative pressure mechanism 10 on the anti-drop urceolus 1, still be equipped with sealing mechanism 11 on the anti-drop urceolus 1, be equipped with sealed apron 3 on the sealed apron 3, absorption hose 8 passes sealed apron 3 and is linked together with storing a 7.

The negative pressure mechanism 10 comprises a servo motor 101, a driving shaft 102, a reversing bevel gear assembly 103, a negative pressure fan 104, a supporting middle column 105, a negative pressure cylinder wall 106, a one-way air duct 107, a starting button 108 and a stopping button 109, wherein the front side of the inner bottom of the anti-falling outer cylinder 1 is provided with the servo motor 101, the driving shaft 102 is connected to the output shaft of the servo motor 101, the reversing bevel gear assembly 103 is arranged between the circumference of the lower part of the anti-falling outer cylinder 1 and the circumference of the rear part of the driving shaft 102, the supporting middle column 105 is arranged in the middle of the inner part of the anti-falling outer cylinder 1, the negative pressure fan 104 is positioned in the supporting middle column 105, the supporting middle column 105 is communicated with the storage cylinder 7, the negative pressure cylinder wall 106 is arranged at the upper part in the supporting middle column 105, the right side of the lower part of the anti-falling outer cylinder 1 is provided with the one-way air duct 107 which is fixedly connected with the supporting middle column 105, the lower part of the front side of the anti-falling outer cylinder 1 is provided with the starting button 108, the lower part of the front side of the anti-falling outer cylinder 1 is provided with the stopping button 109, and the stopping button 109 is positioned at the right side of the starting button 108.

The sealing mechanism 11 comprises a threaded sealing ring 111, a positioning guide ring 112, a rotating block 113, a positioning column 114, a supporting spring 115, a fixed bottom block 116, an electromagnetic lock 117 and an unlocking button 118, wherein the upper part of the outer side face of the anti-falling outer cylinder 1 is fixedly connected with the positioning guide ring 112 in the circumferential direction, the threaded sealing ring 111 is arranged in the rotating mode, the threaded sealing ring 111 is matched with a sealing cover plate 3, the fixed bottom block 116 is arranged on the upper part of the outer side face of the anti-falling outer cylinder 1, the rotating block 113 is arranged on the fixed bottom block 116 in a hinged mode, the positioning column 114 is arranged in the rotating block 113 in a sliding mode, the positioning column 114 is fixedly connected with the sealing cover plate 3, the supporting spring 115 is connected between the inside of the rotating block 113 and the lower part of the positioning column 114 in a winding mode, the electromagnetic lock 117 is arranged on the upper part of the outer side face of the anti-falling outer cylinder 1, the electromagnetic lock 117 is matched with the positioning column 114, and the unlocking button 118 is arranged on the upper part of the outer side face of the anti-falling outer cylinder 1.

When people press a power supply main switch to electrify the recovery storage device, if the recovery storage device is needed to be used, firstly the absorption hose 8 is pulled to be in contact with liquid medicine after operation, the start button 108 is pressed once, the start button 108 sends out a signal, the control module controls the servo motor 101 to work after receiving the signal, the servo motor 101 drives the driving shaft 102 to rotate, the driving shaft 102 rotates to drive the reversing bevel gear assembly 103 to rotate, the reversing bevel gear assembly 103 rotates to drive the negative pressure fan 104 to rotate, the negative pressure fan 104 rotates to enable air in the support center column 105 to be discharged through the one-way air duct 107, the negative pressure cylinder wall 106 plays a role in filtering, the support center column 105 forms a hollow state, then the absorption hose 8 pumps the liquid medicine into the storage cylinder 7, after all the liquid medicine is recovered, the stop button 109 is pressed once, the stop button 109 sends out a signal, after receiving the signal, the control module controls the servo motor 101 to be closed, the negative pressure fan 104 stops rotating, the unlocking button 118 is pressed once again, the unlocking button 118 sends out a signal, the control module controls the electromagnetic lock 117 to be opened after receiving the signal, the electromagnetic lock 117 stops limiting the positioning column 114, the torsion thread sealing ring 111 reverses and is separated from the sealing cover plate 3, the sealing cover plate 3 is pulled to swing upwards through the rotating block 113, the supporting spring 115 plays a buffering role, then the storage barrel 7 filled with liquid medicine is picked up for subsequent processing, the storage barrel 7 is placed back onto the installation bottom barrel 6, the sealing cover plate 3 is pulled to swing downwards for reset, the torsion thread sealing ring 111 positively rotates to be meshed with the sealing cover plate 3, the unlocking button 118 is pressed once again, the unlocking button 118 sends out a signal, the control module controls the electromagnetic lock 117 to be closed after receiving the signal, and the electromagnetic lock 117 limits the positioning column 114.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11 and fig. 12, stirring mechanism 12 is further included, stirring mechanism 12 includes driving belt assembly 121, worm gear assembly 122, vertical pivot 123, driving gear 124, transmission transfer gear 125, toothed column 126 and stirring screw 127, vertical pivot 123 is rotatably disposed at the right part of the bottom rear side in anti-falling outer cylinder 1, worm gear assembly 122 is disposed between the lower circumference of vertical pivot 123 and the rear side of the bottom in anti-falling outer cylinder 1, driving belt assembly 121 is connected between worm gear assembly 122 and the rear circumference of driving shaft 102, driving gear 124 is fixedly connected at the upper circumference of vertical pivot 123, transmission transfer gear 125 is rotatably disposed at the lower circumference of supporting center post 105, transmission transfer gear 125 is meshed with driving gear 124, toothed column 126 is rotatably disposed at the center of circle of storage cylinder 7, toothed column 126 is meshed with transmission transfer gear 125, and stirring screw 127 is circumferentially disposed at the upper circumference of toothed column 126.

The circulating liquid suction mechanism 13 is further included, the circulating liquid suction mechanism 13 comprises an electric push rod 131, a cross guide rail block 132, a fixed clamping jaw 133, a sealing plug 134, a liquid guide hose 135, a pressing jack 136, a synchronous positioning rod 137, a pressure sensor 138, a high-speed motor 139, a steering vertical shaft 1310, a reversing gear assembly 1311, a rotary ring 1312, a telescopic electromagnetic valve 1314, a pushing slide block 1315, a buffer spring 1316, a force application push rod 1317, a movable clamping jaw 1318, a communicating button 1319 and a resetting button 1321, the electric push rod 131 is arranged at the upper part in the supporting center column 105, the cross guide rail block 132 is fixedly connected on the electric push rod 131, the fixed clamping jaw 133 is arranged on the cross guide rail block 132 in a sliding mode at intervals, two sealing plugs 134 are arranged at the upper part of the storage cylinder 7 and are communicated, the liquid guide hose 135 is arranged between the two sealing plugs 134 and communicated, the liquid guide hose 135 is matched with the fixed clamping jaw 133, three pressing jacks 136 are arranged at intervals on the left side of the inner top of the sealing cover plate 3, a rotary circular ring 1312 is arranged at the upper part of the cross guide rail block 132 in a rotary mode, four synchronous positioning rods 137 are arranged at intervals on the rotary circular ring 1312, the synchronous positioning rods 137 are fixedly connected with the fixed clamping jaws 133, a pressure sensor 138 is arranged inside the cross guide rail block 132, a high-speed motor 139 is arranged in the middle of the top of the sealing cover plate 3, a steering vertical shaft 1310 is fixedly connected with an output shaft of the high-speed motor 139, a reversing gear assembly 1311 is arranged between the circumference of the lower part of the steering vertical shaft 1310 and the inside of the rotary circular ring 1312, a telescopic electromagnetic valve 1314 is arranged inside the fixed clamping jaws 133, a pushing sliding block 1315 is arranged inside the fixed clamping jaws 133 in a sliding mode, the pushing sliding block 1315 is fixedly connected with the telescopic electromagnetic valve 1314, two buffer springs 1316 are arranged between the outer side faces of the pushing sliding block 1315 and the pushing rod 1317 in a winding mode, movable clamping jaws 1318 are arranged outside the fixed clamping jaws 133 in a hinged mode, the movable clamping jaw 1318 is matched with the force application push rod 1317, a communication button 1319 is arranged on the upper portion of the outer front side face of the anti-falling outer cylinder 1, and a reset button 1321 is arranged on the upper portion of the outer front side face of the anti-falling outer cylinder 1.

When the recovery storage device is electrified, the start button 108 is pressed once, the start button 108 sends out a signal, the control module receives the signal and then controls the servo motor 101 to work, the driving shaft 102 rotates to drive the driving belt assembly 121 to rotate, the driving belt assembly 121 rotates to drive the worm and gear assembly 122 to rotate, the worm and gear assembly 122 rotates to drive the vertical rotating shaft 123 to rotate, the vertical rotating shaft 123 rotates to drive the driving gear 124 to rotate, the driving gear 124 rotates to drive the transmission transfer gear 125 to rotate, the transmission transfer gear 125 rotates to drive the upright post 126 with the gear, the upright post 126 rotates to drive the stirring screw plate 127 to rotate, the stirring screw plate 127 rotates to stir the storage cylinder 7, after all liquid medicine is recovered, the stop button 109 is pressed once, the stop button 109 sends out a signal, the control module controls the servo motor 101 to be closed after receiving the signal, the driving shaft 102 stops to drive the worm and gear assembly 122 to rotate through the driving belt assembly 121, the stirring screw plate 127 stops rotating, and thus, precipitation of the liquid medicine can be avoided.

When the recovery storage device is electrified, people can press the communication button 1319, the communication button 1319 sends out a signal, the control module receives the signal and then controls the extension of the telescopic electromagnetic valve 1314, the telescopic electromagnetic valve 1314 drives the pushing slide block 1315 to move outwards, the pushing slide block 1315 moves outwards and drives the force pushing push rod 1317 to move outwards, the buffer spring 1316 plays a role in buffering, the force pushing push rod 1317 moves outwards and drives the movable clamping jaw 1318 to swing inwards, the movable clamping jaw 1318 swings inwards to clamp the inner sealing plug 134, meanwhile, the control module receives the signal and then controls the electric push rod 131 to extend, the electric push rod 131 drives the cross guide block 132 to move upwards, the cross guide block 132 moves upwards and drives the fixed clamping jaw 133 to move upwards, the fixed clamping jaw 133 moves upwards so that the inner sealing plug 134 is pulled out, the lower pressing top 136 limits the outer sealing plug 134, the cross guide block 132 moves upwards to be in contact with the pressure sensor 138, the pressure sensor 138 sends out signals, the control module receives the signals and then controls the high-speed motor 139 to work for 2 seconds, the high-speed motor 139 works for 2 seconds and drives the steering vertical shaft 1310 to rotate in ninety degrees, the steering vertical shaft 1310 rotates in a reverse direction, the rotating circular ring 1312 rotates in a reverse direction through the reversing gear assembly 1311, the rotating circular ring 1312 rotates in a reverse direction and drives the synchronous positioning rod 137 to rotate in a reverse direction, the synchronous positioning rod 137 rotates in a reverse direction and drives the fixed clamping jaw 133 to rotate in a reverse direction, the control module controls the high-speed motor 139 to close after 2 seconds, the movable clamping jaw 1318 drives the inner sealing plug 134 to move to the side storage cylinder 7 correspondingly, the communicating button 1319 is loosened, the communicating button 1319 sends out signals, the control module receives the signals and then controls the electric push rod 131 to retract, the electric push rod 131 drives the fixed clamping jaw 133 to move downwards through the cross guide rail block 132 to reset, the movable clamping jaw 1318 drives the inner sealing plug 134 to be inserted into the storage cylinder 7, the control module receives the signal and then controls the telescopic electromagnetic valve 1314 to shrink, the telescopic electromagnetic valve 1314 drives the force application push rod 1317 to move inwards to reset by pushing the slide block 1315, the movable clamping jaw 1318 swings outwards to reset and separate from the inner sealing plug 134, when all the liquid medicine is recovered, the reset button 1321 is pressed down, the reset button 1321 sends out a signal, the control module receives the signal and then enables the inner sealing plug 134 to be pulled out, the cross guide rail block 132 moves upwards again to be in contact with the pressure sensor 138, the pressure sensor 138 sends out a signal, the control module controls the high-speed motor 139 to work for 2 seconds after receiving the signal, the high-speed motor 139 works for 2 seconds to drive the steering vertical shaft 1310 to rotate ninety degrees positively, the movable clamping jaw 1318 also drives the inner sealing plug 134 to rotate positively to reset, after 2 seconds, the control module controls the high-speed motor 139 to be closed, the reset button 1321 is released, the reset button 1321 sends out a signal, the control module receives the signal and then inserts the inner sealing plug 134 into the storage cylinder 7, further the movable clamping jaw 1318 separates from the inner sealing plug 134, and then takes out the storage cylinder 7 for subsequent treatment, and then places the liquid medicine on the storage cylinder 7 to be placed on the bottom cylinder 6, and the storage cylinder can store more liquid medicine.

Example 3

On the basis of the embodiment 1 and the embodiment 2, as shown in fig. 13 and 14, the device further comprises a clamping mechanism 14, wherein the clamping mechanism 14 comprises a pressing bottom plate 141, a clamping upright rod 142 and a return spring 143, the pressing bottom plate 141 is slidably arranged at the lower part in the installation bottom cylinder 6, the clamping upright rod 142 is hinged at intervals at the lower part in the installation bottom cylinder 6, the clamping upright rod 142 is matched with the pressing bottom plate 141, the return spring 143 is arranged between the inner bottom part of the installation bottom cylinder 6 and the inner top part of the pressing bottom plate 141, and the return spring 143 is wound on the pressing bottom plate 141.

The anti-falling outer cylinder is characterized by further comprising a hose placing mechanism 15, wherein the hose placing mechanism 15 comprises a vertical straight rod 151, a lifting straight rod 152, placing clamping claws 153 and a screw 154, the front side of the outer top of the anti-falling outer cylinder 1 is provided with the vertical straight rod 151, the lifting straight rod 152 is arranged on the vertical straight rod 151 in a sliding mode, the placing clamping claws 153 are arranged on the upper portion of the lifting straight rod 152 in a hinged mode, the screw 154 is connected to the upper portion of the vertical straight rod 151 in a threaded mode, and the screw 154 is in threaded connection with the vertical straight rod 151.

When the storage cylinder 7 is put back onto the installation bottom cylinder 6, the storage cylinder 7 is in contact with the pressing-down bottom plate 141, the storage cylinder 7 drives the pressing-down bottom plate 141 to move downwards due to the action of gravity, the reset spring 143 plays a role in buffering, the pressing-down bottom plate 141 moves downwards to drive the clamping upright rod 142 to swing inwards, and the clamping upright rod 142 swings inwards to limit the storage cylinder 7, so that the storage cylinder 7 can be prevented from moving.

When the recycling and storing device is not needed, the lifting straight rod 152 is adjusted to move to a proper position according to the self requirement, the screw rod 154 is twisted to fix the lifting straight rod 152, and the absorption hose 8 is fixed through the placing clamping jaw 153, so that people can conveniently place the absorption hose 8.

As shown in fig. 1, 15 and 16, the anti-falling outer barrel comprises an electric cabinet 9, wherein the electric cabinet 9 is arranged on the left side of the lower part of the anti-falling outer barrel 1, the electric cabinet 9 comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole equipment, the power supply module is connected with a main power supply switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the unlock button 118, the start button 108, the stop button 109, the communication button 1319, the reset button 1321, and the pressure sensor 138 are all electrically connected to the control module; the electric push rod 131, the servo motor 101, the high-speed motor 139, the electromagnetic lock 117 and the telescopic electromagnetic valve 1314 are all connected with the control module through peripheral circuits.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims (4)

1. The utility model provides a gynaecology's operation liquid recovery storage device, its characterized in that includes:

the anti-falling outer cylinder (1), the anti-falling outer cylinder (1) is provided with buffer struts (2) at intervals;

the cross positioning block (5), the cross positioning block (5) is installed on the anti-falling outer cylinder (1);

the positioning plate (4), the positioning plate (4) is installed on the cross positioning block (5);

the installation bottom cylinder (6), the installation bottom cylinder (6) is installed between the positioning plate (4) and the anti-falling outer cylinder (1) at intervals;

a storage cylinder (7), wherein the storage cylinder (7) is arranged on the installation bottom cylinder (6);

the negative pressure mechanism (10) is arranged on the anti-falling outer cylinder (1) and is used for extracting liquid medicine;

the sealing mechanism (11) is arranged on the anti-falling outer cylinder (1) and is used for sealing;

the sealing cover plate (3), the sealing cover plate (3) is installed on the sealing mechanism (11);

the absorption hose (8), the absorption hose (8) is installed on the sealing cover plate (3), and the absorption hose (8) passes through the sealing cover plate (3) to be communicated with the storage cylinder (7);

the negative pressure mechanism (10) comprises:

the servo motor (101), the servo motor (101) is installed on the anti-falling outer cylinder (1);

a drive shaft (102), the drive shaft (102) being mounted on an output shaft of the servo motor (101);

the negative pressure fan (104), the negative pressure fan (104) is rotatably installed on the anti-falling outer cylinder (1);

a reversing bevel gear assembly (103), the reversing bevel gear assembly (103) being mounted between the negative pressure fan (104) and the drive shaft (102);

a supporting center column (105), wherein the supporting center column (105) is arranged on the anti-falling outer cylinder (1), a negative pressure fan (104) is positioned in the supporting center column (105), and the supporting center column (105) is communicated with the storage cylinder (7);

a negative pressure cylinder wall (106), the negative pressure cylinder wall (106) is arranged on the supporting center column (105);

the unidirectional air duct (107), the unidirectional air duct (107) is installed on the anti-falling outer cylinder (1), the unidirectional air duct (107) is fixedly connected and communicated with the supporting center column (105);

a start button (108), wherein the start button (108) is arranged on the anti-falling outer cylinder (1);

a stop button (109), wherein the stop button (109) is arranged on the anti-falling outer cylinder (1);

the sealing mechanism (11) comprises:

the positioning guide ring (112), the positioning guide ring (112) is installed on the anti-falling outer cylinder (1);

the threaded sealing ring (111), the threaded sealing ring (111) is rotatably arranged on the positioning guide ring (112), and the threaded sealing ring (111) is matched with the sealing cover plate (3);

a fixed bottom block (116), wherein the fixed bottom block (116) is arranged on the anti-falling outer cylinder (1);

the rotating block (113), the rotating block (113) is installed on the fixed bottom block (116) in a hinged manner;

the positioning column (114), the positioning column (114) is installed on the rotating block (113) in a sliding mode, and the positioning column (114) is fixedly connected with the sealing cover plate (3);

a support spring (115), wherein the support spring (115) is arranged between the rotating block (113) and the positioning column (114);

the electromagnetic lock (117) is arranged on the fixed bottom block (116), and the electromagnetic lock (117) is matched with the positioning column (114);

the unlocking button (118), the unlocking button (118) is installed on the anti-falling outer cylinder (1);

still including rabbling mechanism (12), rabbling mechanism (12) are including:

the vertical rotating shaft (123), the vertical rotating shaft (123) is rotatably installed on the anti-falling outer cylinder (1);

the worm and gear assembly (122), the worm and gear assembly (122) is installed between the vertical rotating shaft (123) and the anti-falling outer cylinder (1);

the transmission belt assembly (121), the transmission belt assembly (121) is installed between worm gear assembly (122) and drive shaft (102);

a drive gear (124), the drive gear (124) being mounted on the vertical rotating shaft (123);

a transmission transfer gear (125), wherein the transmission transfer gear (125) is rotatably arranged on the support center post (105), and the transmission transfer gear (125) is meshed with the driving gear (124);

the upright post (126) with the gear is rotatably arranged on the storage cylinder (7), and the upright post (126) with the gear is meshed with the transmission transfer gear (125);

a stirring screw plate (127), wherein the stirring screw plate (127) is arranged on the upright post (126) with the gear;

the device also comprises a circulating liquid suction mechanism (13), wherein the circulating liquid suction mechanism (13) comprises:

the electric push rod (131), the electric push rod (131) is installed on the supporting center column (105);

the cross guide rail block (132), the cross guide rail block (132) is installed on the electric push rod (131);

the fixed clamping jaws (133), the fixed clamping jaws (133) are arranged on the cross guide rail block (132) in a sliding mode at intervals;

sealing plugs (134), wherein each two sealing plugs (134) are arranged on the storage cylinder (7) in a group;

the liquid guide hose (135) is arranged between the two sealing plugs (134) and communicated with each other, and the liquid guide hose (135) is matched with the fixing clamping jaw (133);

the lower pressing top pieces (136), the lower pressing top pieces (136) are arranged on the sealing cover plate (3) at intervals;

a rotary ring (1312), the rotary ring (1312) being rotatably mounted on the cross guide rail block (132);

the synchronous positioning rods (137), the synchronous positioning rods (137) are arranged on the rotary circular ring (1312) at intervals, and the synchronous positioning rods (137) are fixedly connected with the fixed clamping jaws (133);

a pressure sensor (138), the pressure sensor (138) being mounted on the cross rail block (132);

a high-speed motor (139), the high-speed motor (139) is arranged on the sealing cover plate (3);

a steering vertical shaft (1310), the steering vertical shaft (1310) being mounted on the output shaft of the high-speed motor (139);

a reversing gear assembly (1311), the reversing gear assembly (1311) being mounted between the steering vertical shaft (1310) and the rotating ring (1312);

a telescopic electromagnetic valve (1314), wherein the telescopic electromagnetic valve (1314) is arranged on the fixed clamping jaw (133);

the pushing slide block (1315), the pushing slide block (1315) is slidably arranged on the fixed clamping jaw (133), and the pushing slide block (1315) is fixedly connected with the telescopic electromagnetic valve (1314);

a force application push rod (1317), the force application push rod (1317) being mounted on the pushing slide block (1315);

the buffer springs (1316), the buffer springs (1316) are symmetrically arranged between the pushing slide block (1315) and the force application push rod (1317);

a movable clamping jaw (1318), wherein the movable clamping jaw (1318) is hinged on the fixed clamping jaw (133), and the movable clamping jaw (1318) is matched with the force application push rod (1317);

a communication button (1319), wherein the communication button (1319) is arranged on the anti-falling outer cylinder (1);

and a reset button (1321), wherein the reset button (1321) is arranged on the anti-falling outer cylinder (1).

2. The gynecological surgical medicinal liquid recycling and storing device according to claim 1, further comprising a clamping mechanism (14), wherein the clamping mechanism (14) comprises:

a pressing-down bottom plate (141), wherein the pressing-down bottom plate (141) is slidably arranged on the installation bottom cylinder (6);

the clamping upright rods (142) are hinged to the mounting bottom cylinder (6) at intervals, and the clamping upright rods (142) are matched with the pressing bottom plate (141);

and the return spring (143) is arranged between the mounting bottom cylinder (6) and the pressing bottom plate (141), and the return spring (143) is wound on the pressing bottom plate (141).

3. A medical fluid recovery and storage device for gynecological surgery as claimed in claim 2, further comprising a hose placement mechanism (15), wherein the hose placement mechanism (15) comprises:

the vertical straight rod (151), the vertical straight rod (151) is installed on the anti-falling outer cylinder (1);

a lifting straight rod (152), wherein the lifting straight rod (152) is slidably arranged on the vertical straight rod (151);

the placing clamping jaw (153), the placing clamping jaw (153) is hinged on the lifting straight rod (152);

the screw rod (154), screw rod (154) threaded connection is on vertical straight-bar (151), and screw rod (154) threaded connection with vertical straight-bar (151).

4. The gynecological surgical medicinal liquid recycling and storing device according to claim 3, further comprising an electric cabinet (9), wherein the electric cabinet (9) is arranged on one side of the anti-falling outer barrel (1), the electric cabinet (9) comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole device, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the unlocking button (118), the starting button (108), the stopping button (109), the communicating button (1319), the resetting button (1321) and the pressure sensor (138) are electrically connected with the control module; the electric push rod (131), the servo motor (101), the high-speed motor (139), the electromagnetic lock (117) and the telescopic electromagnetic valve (1314) are all connected with the control module through peripheral circuits.