CN114620356A

CN114620356A - Poultry animal doctor uses low temperature bacterin storage device convenient to wash

Info

Publication number: CN114620356A
Application number: CN202210356695.1A
Authority: CN
Inventors: 王峰; 张登科; 吴鑫; 訾慧龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-06
Filing date: 2022-04-06
Publication date: 2022-06-14

Abstract

The invention relates to the technical field of vaccine storage, in particular to a low-temperature vaccine storage device convenient for cleaning and used for livestock and poultry. Poultry animal doctor uses low temperature bacterin storage device convenient to wash, including the under casing, the top surface fixed mounting organism of under casing, the inside difference fixed mounting of under casing has refrigeration module and servo motor, and the surface mounting of organism has the chamber door, and the inner wall difference fixed mounting of organism has first quiet ring gear and the quiet ring gear of second, and the inner wall rotation of organism is connected with revolves the frame, and the fixed intercommunication in bottom surface of revolving the frame has the gas distribution central siphon. The beneficial effects of the invention are: during normal storage operation, the servo motor drives the rotary frame to rotate, when the rotary frame rotates, the refrigeration module sends cold air for refrigeration into the machine body at a set speed, the rotary frame rotates and then drives the storage plate to perform revolution motion, and in the process of revolution motion of the storage plate, due to the meshing connection design of the first driven gear and the first static gear ring, the first driven gear rotates.

Description

Poultry animal doctor uses low temperature bacterin storage device convenient to wash

Technical Field

The invention relates to the technical field of vaccine storage, in particular to a low-temperature vaccine storage device convenient for cleaning and used for livestock and poultry.

Background

In recent years, the safety of vaccines has attracted great attention in all levels of society, and the sources, the using process, the single tracing and other problems of vaccines have attracted much attention. The whole process of cold chain of the refrigerated medical supplies is an inevitable requirement, vaccines play an increasingly important role in the prevention and control of epidemic diseases of human and livestock since the production of medical vaccinia, and with the rapid development of modern biotechnology, the development of veterinary vaccines is also revolutionarily improved, and the vaccines for animal husbandry and veterinary use need to be stored by using a low-temperature storage device. The invention provides a low-temperature vaccine storage device for animal husbandry and veterinary use, which is convenient to clean and solves the problems in the background art.

Disclosure of Invention

The invention provides a livestock and poultry low-temperature vaccine storage device convenient to clean, aiming at the technical problems in the prior art, and solves the problems that the existing vaccine low-temperature storage device lacks a positioning and pressing structure for a vaccine tank during storage and the vaccine tank is poor in cold uniformity during storage.

The technical scheme for solving the technical problems is as follows: low temperature bacterin storage device is used to poultry animal doctor convenient to wash, including the bottom case, the top surface fixed mounting organism of bottom case, the inside difference fixed mounting of bottom case has refrigeration module and servo motor, the surface mounting of organism has the chamber door, the inner wall difference fixed mounting of organism has first quiet ring gear and the quiet ring gear of second, the inner wall rotation of organism is connected with the spiral shell, the fixed intercommunication in bottom surface of spiral shell has the gas distribution central siphon, the air outlet end and the gas distribution central siphon of refrigeration module rotate the intercommunication, servo motor's output shaft end is connected with the transmission of gas distribution central siphon, the top surface difference fixed mounting of organism has temperature sensor and air pump, the inner wall fixed mounting of spiral shell has the seat of inflating, the one end and the seat of inflating of air pump gas outlet rotate the intercommunication, the inside fixed mounting of the seat of inflating has baroceptor, the inside fixed mounting of spiral shell has a set of being storage mechanism that circumference array distributes, the top ends of the storage mechanisms are fixedly communicated with the pressurizing seat, and the peripheral side faces of the storage mechanisms are meshed with the first static gear ring and the second static gear ring.

The invention has the beneficial effects that:

1) when the vaccine can is required to be placed, the vaccine can is clamped between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module, after the vaccine can is placed, the air pump supplies air to the pressurizing seat, after the pressurizing seat is supplied with air, the air flow finally enters each pneumatic push rod, after the pneumatic push rods are pressurized, the pressurizing plate is driven to move downwards, after the pressing plate moves downwards, the vaccine tank is effectively clamped between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module.

2) When the quick-release platform is used for normal operation, the quick-release platform is clamped on the clamping platform, after the quick-release platform is installed, effective placement and limiting operation is carried out on a vaccine tank, when a certain movable clamping module or a fixed clamping module needs to be cleaned and maintained, the quick-release platform can be quickly detached from the interior of a machine body through the clamping type design of the quick-release platform and the clamping platform, and after the quick-release platform is detached, a user can conveniently carry out quick cleaning and maintenance operation on structural elements in the device.

3) When storing up the board and taking place the revolution motion under servo motor's effect, the transmission tooth post can take place the rotation in the revolution, because the setting is connected with the meshing of transmission tooth post to the second driven gear, the rotation takes place for driven rotation axis, behind the driven rotation axis rotation, the bacterin jar that drives then and settle takes place the rotation motion, bacterin jar rotation motion takes place the back, thereby the circulation changes the cold receiving angle and the cold receiving intensity of bacterin jar, through the realization of above-mentioned technological effect, thereby the temperature homogeneity when effectively improving bacterin jar storage.

On the basis of the technical scheme, the invention can be improved as follows.

Further, the storage mechanism comprises a storage plate, the circumferential side surface of the storage plate is fixedly connected with a rotary frame, the inner wall of the storage plate is fixedly provided with a slide hole, two guide rods which are symmetrically arranged are fixedly installed between the inner surfaces of the storage plate, a transmission toothed column is rotatably connected between the inner surfaces of the storage plate, a first driven gear is fixedly installed on the circumferential side surface of the transmission toothed column and corresponds to the position of a first static gear ring, the circumferential side surface of the first driven gear is meshed with a first static gear ring, the inner wall of the storage plate is slidably connected with a plurality of movable clamping modules, a fixed clamping module is fixedly installed on the bottom surface of the storage plate, compression-resistant springs are sleeved on the circumferential side surface of the guide rod and correspond to the positions between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module, a pressing plate is slidably connected with the inner wall of the slide hole, and a pneumatic push rod is fixedly installed on the top surface of the pressing plate, the tail end and the fixed intercommunication of seat that pressurize of pneumatic push rod, the inner wall of pressure application board with the top move clamping module fixed connection, a set of move clamping module and a set of decide the week side of clamping module all with the meshing of transmission tooth post, the back fixed mounting who stores up the board has the cold subassembly of sending, send the quiet tooth circle transmission of the week side of cold subassembly and second and be connected.

The rotary rack has the advantages that during normal storage operation, the servo motor drives the rotary rack to rotate, when the rotary rack rotates, the refrigeration module sends cold air for refrigeration into the machine body at a set speed, the rotary rack rotates and then drives the storage plate to perform revolution motion, and in the process of revolution motion of the storage plate, due to the meshing connection design of the first driven gear and the first static gear ring, the first driven gear rotates and then drives the transmission gear column to rotate;

when the operation of placing of bacterin jar is carried out to needs, bacterin jar is blocked and is connect between two liang of movable clamping module and decide clamping module and adjacent movable clamping module between, the bacterin jar is placed the back that finishes, the air pump supplies air in to pressurizing the seat, pressurize the seat by the air feed back, the air current finally gets into in each pneumatic push rod, pneumatic push rod is exerted pressure the back, then the drive is executed the clamp plate downstream, execute the clamp plate downstream back, then make the effectual centre gripping of bacterin jar between two liang of movable clamping module and decide clamping module and adjacent movable clamping module between.

Further, decide the centre gripping module and move the centre gripping module and all include the double-layered platform, decide inner wall and two guide bar fixed connection that centre gripping module department pressed from both sides the platform, move the inner wall and two guide bar fixed connection that centre gripping module department pressed from both sides the platform, the inner wall and the top of applying the clamp plate move the double-layered platform fixed connection among the centre gripping module, the inner wall joint that presss from both sides the platform has the quick-detach platform, the inner wall of quick-detach platform rotates and is connected with driven spiral shaft, the equal fixed mounting holding chuck in both ends of driven spiral shaft, the week side fixed mounting of driven spiral shaft has the second driven gear, the week side of second driven gear is connected with the transmission tooth post transmission.

The technical scheme has the advantages that when the device is used normally, the quick-release platform is clamped on the clamping platform, after the quick-release platform is installed, effective placement and limiting operation can be carried out on the vaccine tank, when a certain movable clamping module or fixed clamping module needs to be cleaned and maintained, the quick-release platform can be quickly detached from the interior of the device body through the clamping type design of the quick-release platform and the clamping platform, and after the quick-release platform is detached, a user can conveniently and quickly clean and maintain structural elements in the device;

and when storing up the board and taking place revolution motion under servo motor's effect, the transmission tooth post takes place the rotation, because the meshing of second driven gear and transmission tooth post is connected the setting, the rotation takes place for the driven staff, and after the driven staff rotation, the bacterin jar that then drives the arrangement takes place the rotation motion, and the bacterin jar rotation motion takes place the back to the circulation changes the cold receiving angle and the cold receiving intensity of bacterin jar.

Furthermore, the surface of the clamping table and the position corresponding to the transmission toothed column are fixedly provided with through holes, the aperture of each through hole is 1.1-1.2 times of the radius of the transmission toothed column, and a group of racks distributed in a circumferential array are arranged on the circumferential side surface of the transmission toothed column.

Adopt above-mentioned further scheme's beneficial effect to be, the structure through the thru hole sets up to make the clamp stand can follow the guide bar direction and freely slide.

Further, a set of location shrinkage pool that is linear array and distributes is seted up to the inside of pressing from both sides the platform, the equal fixed mounting in position that the surface of quick detach platform just corresponds each location shrinkage pool has the location projection, each the week side of location projection all with the location shrinkage pool joint that corresponds the position, the week side parcel of location projection has the damping rubber ring.

The beneficial effect who adopts above-mentioned further scheme is, through the joint formula cooperation design of location shrinkage pool with the location projection to make quick detach platform can be by firm joint in pressing from both sides the bench, through the setting of damping rubber ring, thereby effectively improve the resistance to plucking of quick detach platform and remove the degree of difficulty, remove the improvement of the degree of difficulty through resistance to plucking, thereby effectively improve the stability and the structural strength of quick detach platform and clamp platform junction.

Furthermore, a groove is fixedly formed in the material bearing chuck, a rubber pad bag is fixedly mounted at the inner bottom of the groove, and air is fixedly filled in the rubber pad bag.

The beneficial effect who adopts above-mentioned further scheme is that, during the use, treat the bacterin jar of storage by firm joint between two liang of material holding (holding) chucks, during the centre gripping, through the setting of rubber packing bag to when bacterin jar centre gripping operation, effectively cushion the protection and realize certain elasticity centre gripping effect to the surface of bacterin jar, through the design of recess, thereby effectively improve the spacing intensity and the spacing effect of material holding (holding) chuck to the bacterin jar.

Further, send cold subassembly includes the air supply case, the surface and the storage plate fixed connection of air supply case, a plurality of groups exhaust vent have been seted up on the surface of air supply case, the back fixed mounting of air supply case has a set of three-jaw support that is linear array and distributes, every the inner wall of three-jaw support all rotates and is connected with the pivot, the all side fixed mounting of pivot has a set of blade that is circumference array and distributes, the inner wall of air supply case rotates and is connected with the spinning shaft, every the all side of pivot all is connected with the spinning shaft transmission, the all side of spinning shaft rotates with the revolving rack and is connected, the all side of spinning shaft just corresponds the position fixed mounting of the quiet ring gear of second and has third driven gear, the all sides of third driven gear are connected with the quiet ring gear transmission of second.

Adopt above-mentioned further scheme's beneficial effect is, when the revolution motion takes place for the storage plate under servo motor's effect, because the meshing of third driven gear and the quiet ring gear of second is connected the design, the synchronous rotation takes place for third driven gear in the revolution simultaneously, after the rotation of third driven gear, drive the rotation of rotation shaft then, after the rotation of rotation shaft, drive the pivot rotation then, after the pivot rotation, drive the blade then and send cold work in to the air supply box, the air conditioning that the blade sent out is via the exhaust vent equipartition on the surface of bacterin jar.

Furthermore, driven bevel gears are fixedly mounted on the peripheral side surfaces of the rotating shafts, driving bevel gears are fixedly mounted on the peripheral side surfaces of the self-rotating shafts and correspond to the positions of the driven bevel gears, the peripheral side surfaces of the driving bevel gears are meshed with the driven bevel gears at the corresponding positions, and the axes of the rotating shafts are perpendicular to the axes of the self-rotating shafts.

The beneficial effect who adopts above-mentioned further scheme is that, through driven bevel gear and the meshing of initiative bevel gear be connected the setting to guarantee that the autogyration axle can carry out effective drive to the countershaft.

Furthermore, the surface of the bottom box is also provided with two cleaning panels which are symmetrically arranged, and the inner edges of the two cleaning panels are provided with sealing gaskets.

The beneficial effect who adopts above-mentioned further scheme is through the setting of two washing panels to be convenient for this device inner structure component expose fast, this device inner structure component exposes the back, conveniently washs fast then, changes and maintains the operation to this device inner structure component.

Further, the gas distribution shaft tube is of a hollow tubular structure with two open ends, and a servo motor matched driven bevel gear ring is fixedly mounted on the circumferential side face of the gas distribution shaft tube.

The beneficial effect who adopts above-mentioned further scheme is that, during the use, through the setting of cloth cold-axle tube to effectively guarantee that the produced equipartition effect that obtains air conditioning in the organism of refrigeration module.

Drawings

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

FIG. 2 is a schematic cross-sectional view of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B according to the present invention;

FIG. 5 is a schematic structural view of a second stationary ring gear and a rotating frame of the present invention;

FIG. 6 is a schematic diagram of the spin axes and storage plates of the present invention;

FIG. 7 is an enlarged view of a portion of the present invention at C of FIG. 6;

FIG. 8 is a schematic view of the construction of the pressing plate and the material holding chuck of the present invention;

FIG. 9 is an enlarged, fragmentary, schematic view of FIG. 8 of the present invention at D;

FIG. 10 is a schematic view of an exploded structure of the quick release station and the clamping station of the present invention;

FIG. 11 is a schematic view of the structure of the clamping table of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the device comprises a bottom box, 2, a machine body, 3, a refrigeration module, 4, a servo motor, 5, a box door, 6, a first static gear ring, 7, a second static gear ring, 8, a rotary frame, 9, an air distribution shaft tube, 10, a temperature sensor, 11, an air pump, 12, a pressurizing seat, 13, an air pressure sensor, 14, a storage plate, 15, a sliding hole, 16, a guide rod, 17, a transmission gear column, 18, a first driven gear, 19, a compression spring, 20, a pressing plate, 21, a pneumatic push rod, 22, a clamping table, 23, a quick-release table, 24, a driven rotary shaft, 25, a material bearing chuck, 26, a second driven gear, 27, a positioning concave hole, 28, a positioning convex column, 29, an air supply box, 30, an air outlet hole, 31, a three-jaw support, 32, a rotary shaft, 33, a self-rotating shaft, 34, a third driven gear, 35 and a cleaning panel.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

In recent years, the safety of vaccines has attracted great attention in all levels of society, and the sources, the using process, the single tracing and other problems of vaccines have attracted much attention. The whole process of cold chain of the refrigerated medical supplies is an inevitable requirement, vaccines play an increasingly important role in the prevention and control of epidemic diseases of human and livestock since the production of medical vaccinia, and with the rapid development of modern biotechnology, the development of veterinary vaccines is also revolutionarily improved, and the vaccines for animal husbandry and veterinary use need to be stored by using a low-temperature storage device. Most veterinary vaccines have strict requirements on storage environments, so that the vaccines for livestock and veterinary use need to be stored by using a low-temperature storage device, and the existing vaccine low-temperature storage device lacks a positioning and pressing structure for a vaccine tank during storage and the vaccine tank is poor in cold uniformity during storage.

The present invention provides the following preferred embodiments

As shown in fig. 1-11, the livestock and veterinary low-temperature vaccine storage device convenient to clean comprises a bottom case 1, a body 2 is fixedly installed on the top surface of the bottom case 1, a refrigeration module 3 and a servo motor 4 are respectively and fixedly installed inside the bottom case 1, the refrigeration module 3 is used for supplying low-temperature cold air to the inside of the device, and the type of the refrigeration module 3 can be selected as XH-X266;

the refrigerator comprises a refrigerator body 2, a refrigerator door 5 arranged on the surface of the refrigerator body 2, the refrigerator door 5 and the refrigerator body 2 arranged in a hinged state, a first static gear ring 6 and a second static gear ring 7 fixedly arranged on the inner wall of the refrigerator body 2 respectively, a rotary frame 8 rotatably connected to the inner wall of the refrigerator body 2, a gas distribution shaft tube 9 fixedly communicated with the bottom surface of the rotary frame 8, a gas outlet end of a refrigeration module 3 rotatably communicated with the gas distribution shaft tube 9, an output shaft end of a servo motor 4 is connected with the gas distribution shaft tube 9 in a transmission manner, a temperature sensor 10 and an air pump 11 are fixedly arranged on the top surface of the refrigerator body 2 respectively, the temperature sensor 10 is used for monitoring temperature data inside the refrigerator body 2 in real time, and when the refrigerator is used, a controller is fixedly arranged inside the refrigerator body 2, the temperature sensor 10 feeds the monitored real-time temperature data back to the controller, and controls the working state of the refrigeration module 3 according to the data feedback of the temperature sensor 10, through the feedback type logic setting, the constant-temperature storage operation in the machine body 2 is realized;

the model of the temperature sensor 10 is DS18B20, and the model of the controller is FX1N-60 MR-001;

the inner wall of the rotating frame 8 is fixedly provided with a pressure charging seat 12, one end of the air outlet of the air pump 11 is rotatably communicated with the pressure charging seat 12, an air pressure sensor 13 is fixedly arranged in the pressure charging seat 12, the air pressure sensor 13 is used for monitoring air pressure data on the inner wall of the pressure charging seat 12 in real time, and the clamped strength of the vaccine can during storage is effectively controlled through the realization of the monitoring function, wherein the model of the air pressure sensor 13 is WG 9727710002;

a group of storage mechanisms distributed in a circumferential array are fixedly installed inside the rotary frame 8, the top ends of the group of storage mechanisms are fixedly communicated with the pressurizing seat 12, and the circumferential side surfaces of the group of storage mechanisms are meshed with the first static gear ring 6 and the second static gear ring 7.

In this embodiment, as shown in fig. 5-11, the storage mechanism includes a storage plate 14, a peripheral side surface of the storage plate 14 is fixedly connected with a rotating frame 8, a sliding hole 15 is fixedly formed in an inner wall of the storage plate 14, two symmetrically arranged guide rods 16 are fixedly installed between inner surfaces of the storage plate 14, a transmission toothed column 17 is rotatably connected between the inner surfaces of the storage plate 14, a first driven gear 18 is fixedly installed on a peripheral side surface of the transmission toothed column 17 and corresponds to a position of the first stationary gear ring 6, a peripheral side surface of the first driven gear 18 is engaged with the first stationary gear ring 6, a plurality of movable clamping modules are slidably connected to an inner wall of the storage plate 14, a fixed clamping module is fixedly installed on a bottom surface of the storage plate 14, a compression spring 19 is sleeved on the peripheral side surface of the guide rod 16 and corresponds to a position between every two movable clamping modules and a position between the fixed clamping module and an adjacent movable clamping module, a compression spring 20 is slidably connected to an inner wall of the sliding hole 15, the top surface of the pressure applying plate 20 is fixedly provided with a pneumatic push rod 21, the tail end of the pneumatic push rod 21 is fixedly communicated with the pressure charging seat 12, the inner wall of the pressure applying plate 20 is fixedly connected with the movable clamping module at the top, the circumferential side surfaces of the movable clamping module and the fixed clamping module are both meshed with the transmission gear post 17, the back surface of the storage plate 14 is fixedly provided with a cold conveying assembly, and the circumferential side surface of the cold conveying assembly is in transmission connection with the second static gear ring 7.

During normal storage operation, the servo motor 4 drives the rotary frame 8 to rotate, when the rotary frame 8 rotates, the refrigeration module 3 sends cold air for refrigeration into the machine body 2 at a set speed, the rotary frame 8 rotates and then drives the storage plate 14 to perform revolution motion, and in the process of revolution motion of the storage plate 14, due to the meshing connection design of the first driven gear 18 and the first static gear ring 6, the first driven gear 18 rotates, and after the first driven gear 18 rotates, the transmission gear column 17 is driven to rotate;

when the operation of placing of bacterin jar is carried out to needs, bacterin jar is blocked and is connect between two liang of movable clamping module and decide between clamping module and the adjacent movable clamping module, the bacterin jar is placed the back that finishes, air pump 11 supplies air in to pressurizing seat 12, pressurizing seat 12 is by the air feed back, the air current finally gets into in each pneumatic push rod 21, pneumatic push rod 21 is exerted pressure the back, then the drive is executed the clamp plate 20 downstream, execute the clamp plate 20 downstream back, then make the effectual centre gripping of bacterin jar between two liang of movable clamping module and decide between clamping module and the adjacent movable clamping module.

In this embodiment, as shown in fig. 5 to 11, each of the fixed clamping module and the movable clamping module includes a clamping table 22, an inner wall of the clamping table 22 at the fixed clamping module is fixedly connected to the two guide rods 16, an inner wall of the clamping table 22 at the movable clamping module is fixedly connected to the two guide rods 16, an inner wall of the pressing plate 20 is fixedly connected to the clamping table 22 in the uppermost movable clamping module, a quick release table 23 is clamped to the inner wall of the clamping table 22, the inner wall of the quick release table 23 is rotatably connected to a driven rotating shaft 24, material holding chucks 25 are fixedly mounted at both ends of the driven rotating shaft 24, a second driven gear 26 is fixedly mounted on a peripheral side surface of the driven rotating shaft 24, and a peripheral side surface of the second driven gear 26 is in transmission connection with the transmission toothed column 17.

When the vaccine tank cleaning device is normally used and operated, the quick-dismantling platform 23 is clamped on the clamping platform 22, after the quick-dismantling platform 23 is installed, effective placement and limiting operation is carried out on the vaccine tank, when a certain movable clamping module or a fixed clamping module needs to be cleaned and maintained, the quick-dismantling platform 23 can be quickly dismantled from the interior of the machine body 2 through the clamping type design of the quick-dismantling platform 23 and the clamping platform 22, and after the quick-dismantling platform 23 is dismantled, a user can conveniently and quickly clean and maintain structural elements in the vaccine tank cleaning device;

and when the storage plate 14 revolves under the effect of the servo motor 4, the transmission tooth post 17 rotates automatically, and the second driven gear 26 is meshed with the transmission tooth post 17 and is connected with the transmission tooth post, the driven rotating shaft 24 rotates, and the driven rotating shaft 24 rotates to drive the arranged vaccine tank to rotate, so that the vaccine tank rotates after rotation, and the cooling angle and the cooling strength of the vaccine tank are changed circularly.

In this embodiment, as shown in fig. 9-10, through holes are fixedly formed on the surface of the clamping table 22 and corresponding to the positions of the transmission toothed columns 17, the aperture of each through hole is 1.1-1.2 times of the radius of the transmission toothed column 17, and a group of racks distributed in a circumferential array is mounted on the circumferential side surface of the transmission toothed column 17.

The arrangement of the through holes allows the clamping table 22 to slide freely along the guide rod 16.

In this embodiment, as shown in fig. 10-11, a set of positioning concave holes 27 distributed in a linear array is formed inside the clamping table 22, positioning convex pillars 28 are fixedly installed on the surface of the quick-release table 23 and corresponding to the positions of each positioning concave hole 27, the peripheral side surface of each positioning convex pillar 28 is clamped with the corresponding positioning concave hole 27, and damping rubber rings are wrapped on the peripheral side surfaces of the positioning convex pillars 28.

Through the joint formula cooperation design of location shrinkage pool 27 with location projection 28 to make quick detach platform 23 can be by the joint firmly on pressing from both sides platform 22, through the setting of damping rubber ring, thereby effectively improve quick detach platform 23's resistance to plucking and remove the degree of difficulty, remove the improvement of the degree of difficulty through resistance to plucking, thereby effectively improve quick detach platform 23 and press from both sides the stability and the structural strength of platform 22 junction.

In this embodiment, as shown in fig. 10, a groove is fixedly formed in the material holding chuck 25, a rubber pad is fixedly mounted at the inner bottom of the groove, and air is fixedly filled in the rubber pad.

During the use, treat the bacterin jar of storage by firm joint between two liang of material holding (holding) chucks 25, during the centre gripping, through the setting of rubber packing bag to when bacterin jar centre gripping operation, carry out effective buffer protection and realize certain elasticity centre gripping effect to the surface of bacterin jar, through the design of recess, thereby effectively improve the spacing intensity and the spacing effect of material holding (holding) chuck 25 to the bacterin jar.

In this embodiment, as shown in fig. 5 to 7, the cooling module includes an air supply box 29, a surface of the air supply box 29 is fixedly connected to the storage plate 14, a plurality of sets of air outlet holes 30 are formed in the surface of the air supply box 29, a set of three-jaw supports 31 distributed in a linear array is fixedly mounted on a back surface of the air supply box 29, an inner wall of each three-jaw support 31 is rotatably connected to a rotating shaft 32, a set of blades distributed in a circumferential array is fixedly mounted on a circumferential side surface of the rotating shaft 32, an inner wall of the air supply box 29 is rotatably connected to a spin shaft 33, a circumferential side surface of each rotating shaft 32 is rotatably connected to the spin frame 33, a third driven gear 34 is fixedly mounted on a circumferential side surface of the spin shaft 33 and corresponds to a position of the second stationary gear ring 7, and a circumferential side surface of the third driven gear 34 is rotatably connected to the second stationary gear ring 7.

When the storage plate 14 revolves under the action of the servo motor 4, due to the meshing connection design of the third driven gear 34 and the second stationary gear ring 7, the third driven gear 34 synchronously rotates while revolving, the third driven gear 34 drives the spin shaft 33 to rotate after rotating, the spin shaft 33 drives the rotating shaft 32 to rotate after rotating, the rotating shaft 32 drives the blades to perform cooling operation in the air supply box 29 after rotating, and the cold air sent by the blades is uniformly distributed on the surface of the vaccine tank through the air outlet holes 30.

In this embodiment, as shown in fig. 7, a driven bevel gear is fixedly mounted on a circumferential side surface of each rotating shaft 32, a driving bevel gear is fixedly mounted on a circumferential side surface of the spin shaft 33 and at a position corresponding to each driven bevel gear, the circumferential side surface of each driving bevel gear is meshed with the driven bevel gear at the corresponding position, and an axis of the rotating shaft 32 is perpendicular to an axis of the spin shaft 33.

The driven bevel gear is meshed with the driving bevel gear, so that the spin shaft 33 can effectively drive the rotating shaft 32.

In this embodiment, as shown in fig. 1, two symmetrically arranged cleaning panels 35 are further installed on the surface of the bottom case 1, and sealing gaskets are respectively disposed on the inner edges of the two cleaning panels 35.

Through the setting of two cleaning panels 35 to be convenient for this device inner structure element's quick exposure, this device inner structure element exposes the back, conveniently washs fast then, changes and maintains the operation to this device inner structure element.

In this embodiment, as shown in fig. 2, the gas distribution shaft tube 9 is a hollow tubular structure with openings at two ends, and a driven bevel gear ring matched with the servo motor 4 is fixedly installed on the circumferential side surface of the gas distribution shaft tube 9.

During the use, through the setting of cloth cold-axle tube to effectively guarantee that the produced equipartition effect that obtains air conditioning in organism 2 of refrigeration module 3.

The specific using method comprises the following steps:

when the vaccine can is required to be placed, the vaccine can is clamped between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module, after the vaccine can is placed, the air pump 11 supplies air into the pressurizing seat 12, after the pressurizing seat 12 is supplied with air, the air flow finally enters each pneumatic push rod 21, after the pneumatic push rods 21 are pressurized, the pressurizing plate 20 is driven to move downwards, after the pressurizing plate 20 moves downwards, the vaccine can is effectively clamped between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module, during normal storage operation, the servo motor 4 drives the rotary frame 8 to rotate, when the rotary frame 8 rotates, the refrigeration module 3 sends cold air for refrigeration into the machine body 2 at a set speed, after the rotary frame 8 rotates, the rotary frame 14 is driven to perform revolution motion, during the motion of the storage plate 14, due to the meshing connection design of the first driven gear 18 and the first fixed gear ring 6, the first driven gear 18 rotates, the first driven gear 18 then drives the transmission toothed column 17 to rotate after rotating, the second driven gear 26 is meshed with the transmission toothed column 17 and is connected with the transmission toothed column, the driven rotary shaft 24 rotates and then drives the arranged vaccine tank to rotate, after the vaccine tank rotates, the cold receiving angle and the cold receiving intensity of the vaccine tank are circularly changed, when the storage plate 14 rotates in a revolution way under the action of the servo motor 4, due to the meshing connection design of the third driven gear 34 and the second static gear ring 7, the third driven gear 34 rotates synchronously while revolving, after the third driven gear 34 rotates, the self-rotating shaft 33 is then driven to rotate, after the self-rotating shaft 33 rotates, the rotating shaft 32 is then driven to rotate, after the rotating shaft 32 rotates, the blades are then driven to the air supply box 29 for cooling operation, the cold air sent by the blades is uniformly distributed on the surface of the vaccine tank through the air outlet 30.

To sum up: the invention has the advantages that

During normal storage operation, the servo motor drives the rotary frame to rotate, when the rotary frame rotates, the refrigeration module sends cold air for refrigeration into the machine body at a set speed, the rotary frame rotates and then drives the storage plate to do revolution motion, during the revolution motion of the storage plate, due to the meshing connection design of the first driven gear and the first static gear ring, the first driven gear rotates and then drives the transmission gear column to rotate while revolving, when the placement operation of the vaccine tank is needed, the vaccine tank is clamped between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module, after the vaccine tank is placed, the air pump supplies air to the pressurizing seat, after the pressurizing seat is supplied with air, the air flow finally enters each pneumatic push rod, after the pneumatic push rods are pressurized, the pressurizing plate is driven to move downwards, after the pressing plate moves downwards, the vaccine tank is effectively clamped between every two movable clamping modules and between the fixed clamping module and the adjacent movable clamping module.

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, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The low-temperature vaccine storage device convenient to clean for livestock and veterinary comprises a bottom case (1), an organism (2) is fixedly arranged on the top surface of the bottom box (1), a refrigeration module (3) and a servo motor (4) are respectively and fixedly arranged in the bottom box (1), a box door (5) is arranged on the surface of the organism (2), it is characterized in that the inner wall of the machine body (2) is respectively and fixedly provided with a first static gear ring (6) and a second static gear ring (7), the inner wall of the machine body (2) is rotatably connected with a rotating frame (8), the bottom surface of the rotating frame (8) is fixedly communicated with a gas distribution shaft tube (9), the air outlet end of the refrigeration module (3) is rotationally communicated with the air distribution shaft tube (9), the output shaft end of the servo motor (4) is in transmission connection with the gas distribution shaft tube (9), the top surface of the machine body (2) is respectively and fixedly provided with a temperature sensor (10) and an air pump (11).

2. The poultry animal doctor uses low temperature vaccine storage device convenient to wash of claim 1, characterized in that, the inner wall fixed mounting who revolves frame (8) has the seat (12) of pressurizing, the one end and the seat (12) of pressurizing of air pump (11) gas outlet rotate the intercommunication, the inside fixed mounting who pressurizes seat (12) has baroceptor (13), the inside fixed mounting who revolves frame (8) has a set of storage mechanism that is circumference array distribution, and is a set of storage mechanism's top all with pressurize seat (12) fixed intercommunication, a set of storage mechanism's week side all meshes with first quiet ring gear (6) and the quiet ring gear of second (7).

3. A veterinary medical cold vaccine storage device for ease of cleaning as claimed in claim 2 wherein,

the storage mechanism comprises a storage plate (14), the peripheral side surface of the storage plate (14) is fixedly connected with a rotary frame (8), a sliding hole (15) is fixedly formed in the inner wall of the storage plate (14), two guide rods (16) symmetrically arranged are fixedly arranged between the inner surfaces of the storage plate (14), a transmission toothed column (17) is rotatably connected between the inner surfaces of the storage plate (14), a first driven gear (18) is fixedly arranged on the peripheral side surface of the transmission toothed column (17) corresponding to the position of a first static gear ring (6), the peripheral side surface of the first driven gear (18) is meshed with the first static gear ring (6), a plurality of movable clamping modules are slidably connected to the inner wall of the storage plate (14), a fixed clamping module is fixedly arranged on the bottom surface of the storage plate (14), the peripheral side surface of each guide rod (16) corresponds to the position between the two movable clamping modules and the position between the fixed clamping modules and the adjacent movable clamping modules is sleeved with a compression spring (19), the inner wall of the sliding hole (15) is connected with a pressing plate (20) in a sliding mode, a pneumatic push rod (21) is fixedly installed on the top surface of the pressing plate (20), the tail end of the pneumatic push rod (21) is fixedly communicated with a pressurizing seat (12), the inner wall of the pressing plate (20) is fixedly connected with the movable clamping module at the top, the peripheral sides of a group of the movable clamping modules and a group of the fixed clamping modules are meshed with a transmission toothed column (17), and a cold conveying assembly is fixedly installed on the back surface of the storage plate (14);

the peripheral side surface of the cold conveying component is in transmission connection with a second static gear ring (7), the fixed clamping module and the movable clamping module both comprise clamping tables (22), the inner wall of the clamping table (22) at the fixed clamping module is fixedly connected with the two guide rods (16), the inner wall of the clamping table (22) at the movable clamping module is fixedly connected with the two guide rods (16), the inner wall of the pressure applying plate (20) is fixedly connected with a clamping table (22) in the movable clamping module at the top, the inner wall of the clamping table (22) is clamped with a quick-dismantling table (23), the inner wall of the quick-dismantling table (23) is rotationally connected with a driven rotating shaft (24), two ends of the driven rotary shaft (24) are fixedly provided with material-bearing chucks (25), a second driven gear (26) is fixedly arranged on the peripheral side surface of the driven rotary shaft (24), the peripheral side surface of the second driven gear (26) is in transmission connection with the transmission toothed column (17).

4. The veterinary vaccine storage device convenient for cleaning in animal husbandry and veterinary use as claimed in claim 3, wherein the surface of the clamp table (22) is fixedly provided with a through hole corresponding to the position of the transmission toothed column (17), the aperture of the through hole is 1.1-1.2 times of the radius of the transmission toothed column (17), and a group of racks distributed in a circumferential array is installed on the circumferential side surface of the transmission toothed column (17).

5. The livestock veterinarian low-temperature vaccine storage device convenient to clean as claimed in claim 3, wherein a set of positioning concave holes (27) distributed in a linear array is formed in the interior of the clamping table (22), positioning convex columns (28) are fixedly mounted on the surface of the quick-dismantling table (23) and corresponding to the positions of the positioning concave holes (27), the circumferential side of each positioning convex column (28) is clamped with the corresponding positioning concave hole (27), and damping rubber rings are wrapped on the circumferential side of each positioning convex column (28).

6. The easy-to-clean low-temperature vaccine storage device for the animal husbandry and veterinary use as claimed in claim 3, wherein the interior of the material holding chuck (25) is fixedly provided with a groove, the inner bottom of the groove is fixedly provided with a rubber cushion bag, and the interior of the rubber cushion bag is fixedly filled with air.

7. The livestock veterinarian cryovaccine storage device convenient for cleaning as claimed in claim 2, wherein said cooling component comprises an air supply box (29), the surface of said air supply box (29) is fixedly connected with the storage plate (14), several groups of air outlet holes (30) are opened on the surface of said air supply box (29), a group of three-jaw supports (31) distributed in a linear array is fixedly installed on the back of said air supply box (29), the inner wall of each said three-jaw support (31) is rotatably connected with a rotating shaft (32), a group of blades distributed in a circumferential array is fixedly installed on the peripheral side of said rotating shaft (32), the inner wall of said air supply box (29) is rotatably connected with a spinning shaft (33), the peripheral side of each said rotating shaft (32) is drivingly connected with a spinning shaft (33), the peripheral side of said spinning shaft (33) is rotatably connected with a spinning frame (8), and a third driven gear (34) is fixedly mounted on the peripheral side surface of the spinning shaft (33) and corresponds to the position of the second stationary gear ring (7), and the peripheral side surface of the third driven gear (34) is in transmission connection with the second stationary gear ring (7).

8. The veterinary-use low-temperature vaccine storage device convenient for cleaning according to claim 7, wherein a driven bevel gear is fixedly mounted on the peripheral side surface of each rotating shaft (32), a drive bevel gear is fixedly mounted on the peripheral side surface of the self-rotating shaft (33) and corresponding to the position of each driven bevel gear, the peripheral side surface of each drive bevel gear is meshed with the corresponding driven bevel gear, and the axis of the rotating shaft (32) is perpendicular to the axis of the self-rotating shaft (33).

9. A veterinary medical cryogenic vaccine storage device for easy cleaning according to claim 2, characterized in that the surface of the bottom box (1) is further mounted with two symmetrically arranged cleaning panels (35), the inner edges of both cleaning panels (35) being provided with sealing gaskets.

10. The livestock veterinarian low-temperature vaccine storage device convenient to clean as claimed in claim 2, wherein the gas distribution shaft tube (9) is a hollow tubular structure with two open ends, and a driven bevel gear ring matched with the servo motor (4) is fixedly mounted on the peripheral side surface of the gas distribution shaft tube (9).