CN115930513A - High-efficient refrigerating system of fridge for bacterin preparation - Google Patents

Abstract

The invention relates to the technical field of efficient refrigeration, in particular to an efficient refrigeration system of a refrigerator for vaccine preparation, wherein a refrigeration assembly comprises a placing box body, an inner bearing plate, a lower limiting plate, a first refrigeration pipe, a movable end cover, a temporary storage cavity, a solar panel, a hand-held part, a second refrigeration pipe and an upper and lower communicating groove, an outer push rod can push a contact block to enable the isolation block to leave the interior of the communicating groove, at the moment, the inner part and the outer part of an external cylinder are communicated, then, cold air can enter the interior of the external cylinder to refrigerate vaccines, once the internal cylinder is drawn out and the vaccines are taken out, the outer push rod leaves the contact block, the isolation block can enter the interior of the communicating groove to realize the sealing of the communicating groove, at the moment, the external cylinder for taking the vaccines is not communicated with the interior of the refrigerator, namely, an independent space is formed by the external cylinder for taking the vaccines, and the loss of the cold air in the refrigerator is avoided, so that vaccines in other external cylinders can not be influenced.

Description

High-efficient refrigerating system of fridge for bacterin preparation

Technical Field

The invention relates to the technical field of high-efficiency refrigeration, in particular to a high-efficiency refrigeration system of a refrigeration box for vaccine preparation.

Background

The natural cooling is a heat transfer process, the artificial cooling is a unit operation belonging to a thermodynamic process, which utilizes refrigeration equipment to add energy to transfer heat from a low-temperature object to a high-temperature object, and the vaccine needs to be stored by means of a refrigerating box in the process of vaccine preparation at present.

Present fridge includes two parts, place the box of bacterin, and to the refrigerated refrigeration structure of fridge inside refrigeration, refrigeration structure is direct to the inside of fridge refrigerates, the bacterin is also stacked in the inside of fridge simultaneously, consequently opening the fridge and taking when bacterin, all bacterins all can expose in the air, at the in-process that the fridge was opened, the inside air conditioning of fridge can appear scattering and disappearing the condition, the refrigerated environment that the bacterin that leads to not being used locates changes, the bacterin is when cold-stored, meet the condition of repeated freeze thawing, can receive the influence to the normal use of bacterin, reduce the best efficiency of bacterin.

Disclosure of Invention

The invention aims to provide a high-efficiency refrigerating system of a refrigerating box for vaccine preparation, which solves the problems in the process.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-efficient refrigerating system of fridge for bacterin preparation, cold-stored refrigeration subassembly is including placing box, inside loading board, lower part limiting plate, first refrigeration pipe, activity end cover, the chamber of keeping in, solar panel, portable portion, second refrigeration pipe and upper and lower intercommunication groove, and wherein inside loading board sets up at the inside upside of placing the box, lower part limiting plate symmetry sets up the downside at inside loading board, and wherein first refrigeration pipe is installed in the inside of placing the box, activity end cover swing joint is on placing the box, and wherein keep in the inside of chamber at the activity end cover, the even symmetry embedding of solar panel is on the activity end cover, and wherein portable portion installs the upside intermediate position at the activity end cover, second refrigeration pipe symmetry is placed in the inside of keeping in the chamber, and wherein upper and lower intercommunication groove is evenly seted up on the activity end cover, the subassembly is placed to the inside of placing the box evenly having placed the single chamber.

Preferably, the inner bearing plate is arranged right above the first refrigeration pipe, the lower limiting plate is fixed on the storage box body, the solar panel is arranged on the upper side of the temporary storage cavity, the second refrigeration pipe is fixedly connected with the movable end cover, and the upper and lower communicating grooves are communicated with the temporary storage cavity.

Preferably, the inside intermediate position of the temporary storage cavity is provided with a linkage main rod, wherein the linkage main rod is uniformly sleeved with fixedly connected sealing blocks, the sealing blocks are spherical, the positions of the sealing blocks and the upper and lower intercommunicating grooves are correspondingly arranged up and down, two of the sealing blocks are provided with fixedly connected extension penetrating rods, the extension penetrating rods penetrate through the upper and lower intercommunicating grooves, the linkage main rod is symmetrically provided with guide inserting rods in a penetrating manner, the guide inserting rods are fixedly connected with the movable end covers, the guide inserting rods are sleeved with pressing springs, the guide inserting rods are sleeved with fixedly connected attaching blocks, the attaching blocks are fixedly connected with the linkage main rod, and the attaching blocks are positioned on the lower sides of the pressing springs.

Preferably, solar panel's upside has been placed and has been locked the pressure frame, wherein locks to be located and press and carry out the buckle between frame and the activity end cover and be connected, the middle part that the frame was pressed to the lock position is provided with the buffering center, and wherein the middle part pole has been placed to the intermediate position of buffering center, middle part pole and lock position are pressed and are carried out fixed connection between the frame, and wherein the bilateral symmetry of middle part pole is provided with fixed connection's flexure strip, the flexure strip is kept away from one side of middle part pole and is fixed on the buffering center.

Preferably, the high-efficiency refrigeration system for the refrigeration container for vaccine preparation is characterized in that: the single-cavity placing assembly comprises an external cylinder, a butt joint groove, a tilting prevention column, a first ejection spring, a second ejection spring, a first sliding groove and a second expansion groove, wherein the butt joint groove is uniformly and symmetrically arranged on the external cylinder, the tilting prevention column is fixed inside the external cylinder, the first ejection spring is sleeved on the tilting prevention column, the second ejection spring is arranged on the upper side of the external cylinder along the butt joint groove, and the second ejection spring is symmetrically arranged on the external cylinder.

Preferably, the external cylinder is uniformly arranged on the internal bearing plate in a penetrating manner, the external cylinder is fixedly connected with the internal bearing plate, the expansion grooves and the edge-direction sliding grooves are communicated and opened, the internal cylinder is arranged in the external cylinder and is positioned on the upper side of the first ejection spring, the fixedly connected distance-increasing outer ring is sleeved on the internal cylinder, the internal cylinder is symmetrically provided with adjusting sliding grooves, sliding blocks are placed in the adjusting sliding grooves, and bearing top plates are fixedly connected to the sliding blocks.

Preferably, the built-in cylinder is uniformly provided with through holes in a penetrating manner, a second ejection spring is placed inside the built-in cylinder, the second ejection spring is placed on the lower side of the bearing top plate, the upper side of the built-in cylinder is provided with a fixedly connected elongated cylinder, the two sides of the elongated cylinder are symmetrically provided with fixedly connected clamping blocks, the inside of the elongated cylinder is provided with a movable covering plate, the movable covering plate is provided with fixedly connected protruding blocks, and the two sides of the built-in cylinder are symmetrically provided with fixedly connected outer push rods.

Preferably, interior spacer ring has been placed to the inside in butt joint groove, wherein carries out fixed connection between interior spacer ring and the external drum, the middle part of interior spacer ring runs through and is provided with the dislocation pole, and wherein the dislocation pole is in the outside one side of external drum and sets up fixed connection's isolated block, the dislocation pole is in the inside one side of external drum and sets up fixed connection's contact piece, and wherein the cover has the internal push spring on the dislocation pole.

Compared with the prior art, the invention has the beneficial effects that:

the external cylinder is placed in the external cylinder, and after the internal cylinder is rotated, the external push rod can push the contact block, so that the isolation block leaves the interior of the butt joint groove, the inside and the outside of the external cylinder are communicated, then, cold air can enter the interior of the external cylinder to refrigerate vaccines, once the internal cylinder is drawn out and the vaccines are taken out, the isolation block can enter the interior of the butt joint groove due to the fact that the external push rod leaves the contact block, the sealing of the butt joint groove is achieved, the external cylinder of the vaccines which are taken out at the moment is not communicated with the interior of the refrigerator, namely, the external cylinder of the vaccines which are taken out forms an independent space, the loss of the cold air in the refrigerator is avoided, and the vaccines in other external cylinders are not influenced;

in addition, when the movable end cover is closed, the cold air stored in the temporary storage cavity can be sprayed out from the upper communicating groove and the lower communicating groove instantly, the space in the inner bearing plate of the box body is placed, quick refrigeration is carried out, and the refrigeration environment of the box body is efficiently guaranteed to be placed.

Drawings

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

FIG. 2 is a schematic right-view half-section view of the placement case of the present invention.

FIG. 3 is a schematic front view in half section of a removable end cap according to the present invention.

Fig. 4 is a schematic perspective view of a buffering middle frame according to the present invention.

FIG. 5 is a perspective view of the external cylinder of the present invention.

FIG. 6 is a schematic right-side view of the external cylinder in half-section according to the present invention.

Fig. 7 is a perspective view of the push rod of the present invention.

FIG. 8 is an enlarged view of the point A in FIG. 3 according to the present invention.

Fig. 9 is an enlarged view of the invention at B in fig. 5.

Fig. 10 is an enlarged view of the invention at C in fig. 6.

Fig. 11 is a schematic semi-sectional perspective view of the built-in cylinder of the present invention.

In the figure: 1. placing the box body; 11. an inner carrier plate; 12. a lower limiting plate; 13. a first refrigerant pipe; 14. a movable end cap; 15. a temporary storage cavity; 1501. a linkage main rod; 1502. sealing the plugging block; 1503. extending the through rod; 1504. a guide insertion rod; 1505. pressing down the spring; 1506. a fitting block; 16. a solar panel; 1601. locking and pressing the frame; 1602. buffering the middle frame; 1603. a middle part rod; 1604. an elastic sheet; 17. a hand-held portion; 18. a second refrigerant pipe; 19. an upper and a lower communicating grooves; 2. an external cylinder; 201. a cylinder is arranged inside; 202. distance increasing outer rings; 203. adjusting the sliding chute; 204. a slider; 205. a load bearing top plate; 206. a through hole; 207. a second ejection spring; 208. elongating the cylinder; 209. clamping the block; 2010. a movable covering plate; 2011. a protruding block; 2012. an outer push rod; 21. a butt joint groove; 2101. an inner spacer ring and an outer spacer ring; 2102. an offset lever; 2103. an isolation block; 2104. a contact block; 2105. an inner push spring; 22. an anti-falling column; 23. a first ejection spring; 24. an edge-direction chute; 25. the slot is enlarged.

Detailed Description

Features of various aspects and exemplary embodiments of the present invention will be described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the present invention by illustrating examples of the present invention. The present invention is in no way limited to any specific configuration and algorithm set forth below, but rather covers any modification, replacement or improvement of elements, components or algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques are not shown in order to avoid unnecessarily obscuring the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: including cold-stored refrigeration subassembly, cold-stored refrigeration subassembly is including placing box 1, inside loading board 11, lower part limiting plate 12, first refrigeration pipe 13, activity end cover 14, keep in chamber 15, solar panel 16, portable portion 17, second refrigeration pipe 18 and upper and lower intercommunication groove 19, wherein inside loading board 11 sets up the inside upside of placing box 1, lower part limiting plate 12 symmetry sets up the downside at inside loading board 11, lower part limiting plate 12 adopts the rectangle pole, wherein first refrigeration pipe 13 is installed in the inside of placing box 1, the shape that first refrigeration pipe 13 set up is the U-shaped, first refrigeration pipe 13 carries out the refrigeration operation to the inside of placing box 1, make the inside of placing box 1 be in the low temperature environment, activity end cover 14 swing joint is on placing box 1, activity end cover 14 is connected on placing box 1 through the torsional spring, activity end cover 14 keeps away from the one side of torsional spring and places the buckle connection between box 1 simultaneously, be convenient for closing the lid of activity end cover 14, in addition also conveniently open end cover 14, further, activity end cover 14 is located the top of inside temporary storage 11, wherein activity end cover 14 is established on the even portable portion of carrying out the symmetry and carrying out the operation of carrying in the intercommunication groove 17 of placing box 14, the inside of carrying out the refrigeration pipe 17 of the symmetry of placing box 14, wherein the symmetry of carrying out the symmetry of the middle part of carrying out the symmetry of placing box 14, the symmetry of carrying on the middle end cover 15, the internal portion of placing box 14, the internal portion of carrying out the symmetry of carrying on the internal portion of placing box 17.

The internal bearing plate 11 is arranged right above the first refrigerating pipe 13, wherein the lower limiting plate 12 is fixed on the placing box body 1, the lower limiting plate 12 is installed on the placing box body 1 in a screw mode, the position of the internal bearing plate 11 can be limited by the lower limiting plate 12, the solar panel 16 is arranged on the upper side of the temporary storage cavity 15, the second refrigerating pipe 18 is fixedly connected with the movable end cover 14, and the upper and lower communicating grooves 19 are communicated with the temporary storage cavity 15.

The middle position in the temporary storage cavity 15 is provided with a linkage main rod 1501, wherein the linkage main rod 1501 is uniformly sleeved with fixedly connected seal blocking blocks 1502, the seal blocking blocks 1502 are spherical, the positions of the seal blocking blocks 1502 and an upper communicating groove and a lower communicating groove 19 are arranged in a vertically corresponding manner, wherein two seal blocking blocks 1502 are provided with fixedly connected extension penetrating rods 1503, the extension penetrating rods 1503 penetrate the upper communicating groove and the lower communicating groove 19, the linkage main rod 1501 is symmetrically provided with guide inserting rods 1504 in a penetrating manner, the guide inserting rods 1504 are fixedly connected with the movable end cover 14, the guide inserting rods 1504 are sleeved with lower pressing springs 1505, the guide inserting rods 1504 are sleeved with fixedly connected attaching blocks 1506, the attaching blocks 1506 and the linkage main rod 1501 are fixedly connected, and the attaching blocks 1506 are located on the lower sides of the lower pressing springs 1505. The guide pins 1504 are provided in a T shape, and the guide pins 1504 can guide the movement of the link assembly 1501 up and down.

When the movable end cap 14 is in the open condition, the pressing spring 1505 presses the link assembly 1501 down by means of the engaging block 1506, so that the link assembly 1501 moves down along the guide inserting bar 1504, and then the sealing block 1502 seals the upper and lower communicating grooves 19, and the air cooled by the second cooling pipe 18 in the temporary storage chamber 15 is collected in the temporary storage chamber 15 and does not leak out.

In case after movable end cover 14 closes, extend and wear pole 1503 to be contradicted, total pole 1501 rebound, push down spring 1505 and take place to hold up power deformation, sealed stifled piece 1502 keeps away from upper and lower intercommunication groove 19, stores this moment and can spout from upper and lower intercommunication groove 19 in the inside air conditioning of chamber 15 of keeping in the twinkling of an eye, to placing the inside space that is in inside loading board 11 of box 1, refrigerates fast, and the high-efficient refrigeration environment of placing box 1 of guaranteeing.

The upside of solar panel 16 has been placed and has been locked and has been pressed frame 1601, wherein lock is locked and is pressed and carry out the buckle between frame 1601 and the activity end cover 14 and be connected, the middle part that the frame 1601 was pressed in the lock is provided with buffering center 1602, buffering center 1602 is in between solar panel 16, wherein middle part pole 1603 has been placed to the intermediate position of buffering center 1602, middle part pole 1603 and lock are pressed and carry out fixed connection between the frame 1601, wherein the bilateral symmetry of middle part pole 1603 is provided with fixed connection's flexure strip 1604, one side that middle part pole 1603 was kept away from to flexure strip 1604 is fixed on buffering center 1602.

The locking pressing frame 1601 is installed on the movable end cover 14, the locking pressing frame 1601 can lock the position of the solar panel 16, the buffering middle frame 1602 can support the side of the solar panel 16, and further, the elastic piece 1604 can be used for buffering the impact of the buffering middle frame 1602 on the solar panel 16.

The single-cavity placement component comprises an external cylinder 2, a butt joint groove 21, a tilting prevention column 22, a first ejection spring 23, a sliding groove 24 and an expansion groove 25, wherein the butt joint groove 21 is uniformly and symmetrically arranged on the external cylinder 2, the tilting prevention column 22 is fixed inside the external cylinder 2, the first ejection spring 23 is sleeved on the tilting prevention column 22, the tilting prevention column 22 prevents the first ejection spring 23 from tilting, the sliding groove 24 is arranged on the upper side of the external cylinder 2, and the expansion groove 25 is symmetrically arranged on the external cylinder 2.

The external cylinder 2 is uniformly arranged on the internal bearing plate 11 in a penetrating manner, wherein the external cylinder 2 is fixedly connected with the internal bearing plate 11, the expansion groove 25 is communicated with the edge of the sliding groove 24, the internal cylinder 201 is arranged inside the external cylinder 2, the internal cylinder 201 is positioned on the upper side of the first ejection spring 23, the distance-increasing outer ring 202 fixedly connected with the internal cylinder 201 is sleeved on the internal cylinder 201, the distance-increasing outer ring 202 is attached to the external cylinder 2, the adjusting sliding grooves 203 are symmetrically arranged inside the internal cylinder 201, sliding blocks 204 are placed inside the adjusting sliding grooves 203, and bearing top plates 205 fixedly connected with each other are arranged on the sliding blocks 204. When the internal cylinder 201 is not limited, the internal cylinder 201 is ejected out of the external cylinder 2 under the action of the first ejection spring 23, so that the internal cylinder 201 is convenient to take, meanwhile, the vaccine is placed in the internal cylinder 201, and the sliding block 204 can be connected with the bearing top plate 205 in a buckling manner.

Through holes 206 are uniformly formed in the built-in cylinder 201 in a penetrating mode, a second ejection spring 207 is placed inside the built-in cylinder 201, the second ejection spring 207 is placed on the lower side of the bearing top plate 205, a fixedly connected elongated cylinder 208 is arranged on the upper side of the built-in cylinder 201, fixedly connected clamping blocks 209 are symmetrically arranged on two sides of the elongated cylinder 208, a movable covering plate 2010 is placed inside the elongated cylinder 208, fixedly connected protruding blocks 2011 are arranged on the movable covering plate 2010, the movable covering plate 2010 is convenient to push through the protruding blocks 2011, and fixedly connected push-out rods 2012 are symmetrically arranged on two sides of the built-in cylinder 201.

Vaccine is placed in the built-in cylinder 201, the bearing top plate 205 moves downwards through the adjusting sliding groove 203 and the sliding block 204, then the movable covering plate 2010 rotates, the movable covering plate 2010 covers the vaccine to achieve limited placement of the vaccine, meanwhile, when the movable covering plate 2010 is opened, under the effect of the second ejection spring 207, the bearing top plate 205 moves upwards to facilitate taking of the vaccine by workers, in addition, the built-in cylinder 201 filled with the vaccine is placed in the external cylinder 2, meanwhile, the clamping block 209 penetrates through the expanding groove 25, then the expanding cylinder 208 rotates, the clamping block 209 and the expanding groove 25 are staggered, and therefore the purpose of locking the position of the built-in cylinder 201 is achieved.

Inner and outer spacer rings 2101 have been placed to the inside of butt joint groove 21, evenly run through on the inner and outer spacer rings 2101 and set up the poling, realize the intercommunication inside and outside of external cylinder 2, wherein carry out fixed connection between inner and outer spacer ring 2101 and the external cylinder 2, the middle part of inner and outer spacer ring 2101 is run through and is provided with dislocation pole 2102, wherein dislocation pole 2102 is in outside one side of external cylinder 2 and sets up fixed connection's insulating block 2103, dislocation pole 2102 is in inside one side of external cylinder 2 and sets up fixed connection's contact block 2104, contact block 2104 and outer push rod 2012 contact the setting, wherein the cover has interior spring 2105 that pushes away on the dislocation pole 2102.

When the built-in cylinder 201 is placed inside the external cylinder 2 and rotates, the push-out rod 2012 can push the contact block 2104, so that the isolation block 2103 leaves the inside of the butt joint groove 21, the inside and the outside of the external cylinder 2 are communicated with each other at the moment, then, cold air can enter the inside of the external cylinder 2 to refrigerate vaccines, once the built-in cylinder 201 is drawn out and the vaccines are taken out, the isolation block 2103 can enter the inside of the butt joint groove 21 due to the fact that the outer push rod 2012 leaves the contact block 2104, sealing of the butt joint groove 21 is achieved, the external cylinder 2 from which the vaccines are taken out at the moment can not be communicated with the inside of the refrigerator, namely, the external cylinder 2 from which the vaccines are taken out forms an independent space, loss of the cold air inside the refrigerator is avoided, and vaccines in other external cylinders 2 can not be influenced.

Different features which are present in different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed subject matter, from a study of the drawings, the disclosure, and the appended claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first" and "second" are used to denote a name and not to denote any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various parts appearing in the claims may be implemented by a single hardware or software module. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

Claims (8)

1. The utility model provides a high-efficient refrigerating system of fridge for bacterin preparation, includes cold-stored refrigeration subassembly, its characterized in that: the refrigeration and refrigeration assembly comprises a placing box body (1), an internal bearing plate (11), a lower limiting plate (12), a first refrigeration pipe (13), a movable end cover (14), a temporary storage cavity (15), a solar panel (16), a hand-held part (17), a second refrigeration pipe (18) and an upper and lower communicating groove (19), wherein the internal bearing plate (11) is arranged on the upper side of the placing box body (1), the lower limiting plate (12) is symmetrically arranged on the lower side of the internal bearing plate (11), the first refrigeration pipe (13) is arranged in the placing box body (1), the movable end cover (14) is movably connected to the placing box body (1), the temporary storage cavity (15) is arranged in the movable end cover (14), the solar panel (16) is uniformly and symmetrically embedded into the movable end cover (14), the hand-held part (17) is arranged in the middle position of the upper side of the movable end cover (14), the second refrigeration pipe (18) is symmetrically arranged in the temporary storage cavity (15), the upper and lower communicating groove (19) is uniformly arranged on the movable end cover (14), and the single refrigeration pipe (1) is uniformly placed in the placing box body.

2. The high efficiency refrigeration system for a vaccine preparation refrigerator according to claim 1, wherein: the inner bearing plate (11) is arranged right above the first refrigerating pipe (13), the lower limiting plate (12) is fixed on the placing box body (1), the solar panel (16) is arranged on the upper side of the temporary storage cavity (15), the second refrigerating pipe (18) is fixedly connected with the movable end cover (14), and the upper and lower communicating grooves (19) and the temporary storage cavity (15) are communicated.

3. The high efficiency refrigeration system of a cooler for vaccine preparation of claim 2, further comprising: the temporary storage cavity (15) is provided with a linkage main rod (1501) in the middle of the interior, wherein the linkage main rod (1501) is uniformly sleeved with fixedly connected sealing blocks (1502), the sealing blocks (1502) are spherical, the positions of the sealing blocks (1502) and upper and lower communicating grooves (19) are arranged up and down correspondingly, two of the sealing blocks (1502) are provided with fixedly connected extending penetrating rods (1503), the extending penetrating rods (1503) penetrate through the upper and lower communicating grooves (19), the linkage main rod (1501) is symmetrically provided with guide insertion rods (1504) in a penetrating manner, the guide insertion rods (1504) are fixedly connected with the movable end covers (14), the guide insertion rods (1504) are sleeved with downward pressing springs (1505), wherein fixedly connected attaching blocks (1506) are sleeved on the guide insertion rods (1504), the attaching blocks (1506) are fixedly connected with the linkage main rod (1501), and the attaching blocks (1506) are located on the lower sides of the downward pressing springs (1505).

4. The high efficiency refrigeration system for a vaccine preparation refrigerator according to claim 2, wherein: the upside of solar panel (16) has been placed and has been locked pressure frame (1601), wherein lock and carry out the buckle between pressure frame (1601) and activity end cover (14) and be connected, the middle part of locking pressure frame (1601) is provided with buffering center (1602), and middle part pole (1603) have been placed to the intermediate position of wherein buffering center (1602), carry out fixed connection between middle part pole (1603) and the pressure frame (1601) of locking, wherein the bilateral symmetry of middle part pole (1603) is provided with fixed connection's flexure strip (1604), one side that middle part pole (1603) was kept away from in flexure strip (1604) is fixed on buffering center (1602).

5. The high efficiency refrigeration system of a cooler for vaccine preparation of claim 1, further comprising: the single-cavity placement component comprises an external cylinder (2), a butt joint groove (21), a tilting prevention column (22), a first ejection spring (23), a sliding groove (24) and an expansion groove (25), wherein the butt joint groove (21) is uniformly and symmetrically arranged on the external cylinder (2), the tilting prevention column (22) is fixed inside the external cylinder (2), the first ejection spring (23) is sleeved on the tilting prevention column (22), the sliding groove (24) is arranged on the upper side of the external cylinder (2), and the expansion groove (25) is symmetrically arranged on the external cylinder (2).

6. The high efficiency refrigeration system of a cooler for vaccine preparation of claim 5, further comprising: the external cylinder (2) is uniformly arranged on the internal bearing plate (11) in a penetrating mode, wherein the external cylinder (2) is fixedly connected with the internal bearing plate (11), the expanding groove (25) and the edge sliding groove (24) are communicated with each other, the internal cylinder (201) is arranged inside the external cylinder (2), the internal cylinder (201) is located on the upper side of the first ejection spring (23), the distance increasing outer ring (202) fixedly connected with the internal cylinder (201) is sleeved on the internal cylinder (201), the adjusting sliding grooves (203) are symmetrically formed in the internal part of the internal cylinder (201), sliding blocks (204) are placed in the adjusting sliding grooves (203), and bearing top plates (205) fixedly connected with each other are arranged on the sliding blocks (204).

7. The high efficiency refrigeration system of a cooler for vaccine preparation of claim 6, further comprising: the device is characterized in that through holes (206) are uniformly formed in the built-in cylinder (201) in a penetrating mode, a second ejection spring (207) is placed inside the built-in cylinder (201), the second ejection spring (207) is placed on the lower side of the bearing top plate (205), an elongated cylinder (208) fixedly connected with the upper side of the built-in cylinder (201) is arranged, clamping blocks (209) fixedly connected with the two sides of the elongated cylinder (208) are symmetrically arranged, a movable covering plate (2010) is placed inside the elongated cylinder (208), a protruding block (2011) fixedly connected with the movable covering plate (2010) is arranged on the movable covering plate, and outer push rods (2012) fixedly connected with the two sides of the built-in cylinder (201) are symmetrically arranged.

8. The high efficiency refrigeration system of a cooler for vaccine preparation of claim 7, further comprising: inner and outer spacer rings (2101) have been placed to the inside of butt joint groove (21), wherein carry out fixed connection between inner and outer spacer ring (2101) and external cylinder (2), the middle part of inner and outer spacer ring (2101) is run through and is provided with dislocation pole (2102), and wherein dislocation pole (2102) are in external one side of external cylinder (2) and set up fixed connection's insulating block (2103), dislocation pole (2102) are in one side of external cylinder (2) inside and set up fixed connection's contact piece (2104), and wherein the cover has interior push spring (2105) on dislocation pole (2102).

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