CN114087785A

CN114087785A - Quick thawing device of bacterin cryopreserved bag

Info

Publication number: CN114087785A
Application number: CN202111530017.4A
Authority: CN
Inventors: 芦亚辉; 邱维达; 宋大川
Original assignee: Shanghai Taishan Technology Co ltd
Current assignee: Shanghai Taishan Technology Co ltd
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2022-02-25

Abstract

The utility model relates to a bacterin freezes deposits quick melting device of bag relates to the technical field that bacterin was handled, including organism, the thawing apparatus of setting on the organism, thawing apparatus includes: the water tank is arranged on the machine body and filled with warm water; a vacuum bag for containing the vaccine bag and being capable of being placed in warm water; and the control mechanism is arranged on the machine body, is connected with the vacuum bag and is used for controlling the inflation or deflation of the vacuum bag. This application has through putting into the vacuum bag with the bacterin bag in, then control mechanism starts to bleed to the vacuum bag, puts into the basin with the vacuum bag after that, and warm water melts the bacterin bag in the basin to this pollution that the pollutant produced the bacterin in having reduced the warm water.

Description

Quick thawing device of bacterin cryopreserved bag

Technical Field

The application relates to the technical field of vaccine treatment, in particular to a quick thawing device for a vaccine cryopreservation bag.

Background

At present, vaccines are biological agents which are prepared from bacteria, viruses, tumor cells and the like and can enable organisms to generate specific immunity, the vaccines need to be refrigerated when being delivered, and the vaccines are generally filled into vaccine bags for refrigerated transportation so as to achieve the effect of storing the vaccines.

And the bacterin bag needs to unfreeze the bacterin bag and dissolve before the transportation is accomplished to use, and the mode of dissolving generally adopts to put into the bacterin bag warm water and dissolves, consequently warm water can remain in bacterin bag body and sack department when taking out the bacterin bag, and pollutants such as bacterium can be remained easily to the warm water to when taking out the bacterin, warm water and bacterin contact, thereby the pollutant produces the pollution to the bacterin easily.

Disclosure of Invention

In order to reduce the pollution of pollutant to the production of bacterin, this application provides a quick thawing apparatus of bacterin cryopreserving bag.

The application provides a pair of vaccine freezes deposits quick melting device of bag adopts following technical scheme:

the utility model provides a quick thawing apparatus of bacterin cryopreserving bag, includes the organism, sets up the thawing apparatus on the organism, thawing apparatus includes:

the water tank is arranged on the machine body and filled with warm water;

the vacuum bag is used for containing the vaccine bag and can be placed in warm water;

and the control mechanism is arranged on the machine body, is connected with the vacuum bag and is used for controlling the inflation or deflation of the vacuum bag.

By adopting the technical scheme, the vaccine bag is sealed after being placed into the vacuum bag by opening the vacuum bag, the control mechanism starts to exhaust the vacuum bag, then the vacuum bag is placed into the water tank, warm water in the water tank is used for melting the vaccine bag, after the melting is finished, the vacuum bag is taken out of the warm water, the warm water on the vacuum bag is removed, then the control mechanism starts to inflate the vacuum bag, then the vacuum bag is opened to take out the vaccine bag, and then a new vaccine bag is placed into the vacuum bag for melting, so that the pollution of pollutants in the warm water to the vaccine is reduced; meanwhile, the vacuum bag is tightly attached to the wall of the vaccine bag, so that the heat transfer efficiency during the warm water melting is improved, and the melting efficiency in the vaccine bag melting process is improved.

Optionally, the control mechanism includes:

the vacuum pump is arranged on the machine body;

the conveying pipe is arranged on the vacuum pump;

the fixed pipe is arranged on the conveying pipe;

the inserting pipe is arranged on the vacuum bag and is matched with the fixing pipe in an inserting mode.

Through adopting above-mentioned technical scheme, when bleeding the vacuum bag, the vacuum pump starts for air is through pegging graft pipe, solid fixed pipe and conveyer pipe output in the vacuum bag, then melts the bacterin bag, and when melting the completion and need aerify the vacuum bag, the vacuum pump starts, and gas gets into in the vacuum bag through pegging graft pipe, with this realization bleed or aerify the vacuum bag.

In the process of melting the vaccine bag by warm water, the vaccine bag to be melted is placed into the vacuum bag, then the fixing pipe and the inserting pipe are pulled to be separated from the vacuum bag used for taking down the completed melting vacuum bag, the inserting pipe on the new vacuum bag is inserted and matched with the fixing pipe, the vacuum pump is started to pump the vacuum bag, then the vacuum bag after pumping is placed into the warm water to be melted, the warm water on the vacuum bag after completion of melting is removed, the vaccine bag to be melted is placed into the vaccine bag after the vaccine bag is taken out, therefore, the vaccine bag is melted and the vaccine bag is replaced at the same time, and the vacuum bag is required to be opened and is firstly inflated, so that the convenience in opening the vacuum bag is improved, the time spent on melting the vaccine bag is saved, and the melting efficiency of the vaccine bag in the melting process is improved.

Optionally, a lifting device for placing a lifting vacuum bag is arranged on the water tank, and the lifting device includes:

the lifting frame is arranged on the inner side wall of the water tank in a sliding manner;

the placing plate is rotatably arranged on the lifting frame through a rotating shaft, is used for placing a vacuum bag and is provided with a plurality of through holes for warm water to pass through;

the lifting cylinder is arranged on the water tank and is connected with the lifting frame;

the rotating assembly is arranged on the lifting frame and is used for driving the rotating shaft to rotate in a reciprocating manner;

and the clamping assembly is arranged on the placing plate and is used for clamping the vacuum bag.

Through adopting above-mentioned technical scheme, the lifting cylinder starts to drive the lifting frame and shifts up, the lifting frame moves upward and drives the vacuum bag and shifts up, make the vacuum bag shift out from the warm water, unblock centre gripping subassembly then, then take off the vacuum bag, the vacuum bag that will wait to melt is placed and is placed on the board, the centre gripping subassembly carries out the centre gripping to the vacuum bag, then the lifting cylinder starts to drive the vacuum bag and immerses in the warm water and melt, the warm water passes through-hole and vacuum bag surface contact, consequently, the area of contact of warm water with the vacuum bag has been increased, the efficiency of melting of bacterin bag has been accelerated, and then the rotating assembly starts to drive the reciprocal rotation of pivot, the pivot is rotated and is driven and is placed board and bacterin bag reciprocal swing, thereby the efficiency of melting of bacterin bag melting in-process has been improved.

And need not to extend when taking out the vacuum bag and can take out the vacuum bag in the warm water, the pollution to the warm water has been reduced, and the vacuum bag shifts out the warm water when outer, rotating assembly continues to drive and places board and vacuum bag swing for warm water on the vacuum bag flows through the through-hole, the quantity of warm water on the vacuum bag has been reduced, and the waste of warm water has also been reduced, the probability that the bacterin bag is polluted by the pollutant in the warm water has further been reduced, with this pollution that the reduction pollutant produced the bacterin.

Optionally, the rotating assembly includes:

the first belt wheel is arranged on the rotating shaft;

the second belt wheel is rotatably arranged on the lifting frame through a rotating shaft and is connected with the first belt wheel through a belt;

a rotating gear provided on the rotating shaft;

the rotating rack is arranged on the lifting frame in a sliding manner and is meshed with the rotating gear;

the rotating motor is arranged on the lifting frame and is positioned above the liquid level of the warm water;

the rotating disc is arranged on an output shaft of the rotating motor and is eccentrically provided with a driving rod;

and the two ends of the connecting rod are respectively and rotationally connected with the rotating rack and the driving rod.

Through adopting above-mentioned technical scheme, rotate the motor start and drive the rolling disc and rotate, the rolling disc rotates and drives the actuating lever and revolutes the rotation of rolling disc axis and rotate, and the actuating lever passes through the connecting rod and drives rotation rack reciprocating motion, rotates rack reciprocating motion and drives rotating gear and second band pulley reciprocating motion, and second band pulley reciprocating motion drives first band pulley and pivot reciprocating motion through the belt to this realizes rotating the motor start and drives the pivot reciprocating motion.

Optionally, the clamping assembly comprises:

the two positioning plates are arranged on the placing plate and abut against the two ends of the vacuum bag;

the rotating block is rotatably arranged on the placing plate through a first rotating shaft, and a second rotating shaft with the axis vertical to that of the first rotating shaft is arranged on the rotating block;

the clamping blocks are arranged on the placing plate and are respectively positioned on two sides of the vacuum bag together with the rotating blocks, and clamping grooves are formed in the side walls of the clamping blocks;

the arc-shaped elastic sheet is rotatably arranged on the second rotating shaft, and when the arc-shaped elastic sheet is clamped and installed on the clamping block groove, the arc-shaped elastic sheet is abutted against the vacuum bag under the action of elastic force to be pressed for positioning.

Through adopting above-mentioned technical scheme, place the vacuum bag and place on the board for the vacuum bag both ends are contradicted and are fixed a position on two locating plates, then stir arc-shaped elastic piece and be close to the vacuum bag, then rotate arc-shaped elastic piece joint and install on the joint groove, arc-shaped elastic piece supports and presses and fix a position on the vacuum bag, realize fixing a position the vacuum bag with this, thereby reduced the probability that the vacuum bag dropped from placing the board, improved the stability in melting the bacterin bag.

When the vacuum bag needs to be taken down, the arc-shaped elastic piece is rotated to break away from the clamping groove, then the arc-shaped elastic piece is rotated to be far away from the vacuum bag, and then the vacuum bag can be taken down, so that the convenience in the process of replacing the vacuum bag is improved, the time spent in installing or taking down the vacuum bag is saved, and the melting efficiency of the vaccine bag in the melting process is improved.

Optionally, a protective door for blocking the opening of the water tank is rotatably arranged on the water tank and is connected with the lifting frame through a linkage assembly; when the lifting frame drives the vacuum bag to be immersed in warm water, the lifting frame drives the protection door through the linkage assembly to block the water tank opening, and when the lifting frame drives the vacuum bag to move up and move out of the warm water, the lifting frame drives the protection door through the linkage assembly to be opened.

By adopting the technical scheme, the lifting frame moves to drive the vacuum bag to be immersed in warm water, and the lifting frame moves to drive the protective door to close the opening of the water tank, so that the probability that warm water splashes out of the water tank in the melting process of the vaccine bag is reduced, the waste of the warm water is reduced, meanwhile, the heat loss in the warm water is also reduced, and the energy is saved; and when the lifting frame shifts up and drives the vacuum bag to shift out the warm water, the lifting frame drives the protection door to open, consequently can change the vacuum bag to need not the manual work and open or close the protection door, also reduced the manual work moreover and forgot to close the protection door and cause the probability of energy loss, saved the energy.

Optionally, the linkage assembly includes:

the fixed rod is arranged on the lifting frame;

and two ends of the linkage rod are respectively and rotatably connected with the fixed rod and the protective door.

Through adopting above-mentioned technical scheme, the lifting frame removes and drives the dead lever and remove, and the dead lever removes and drives the gangbar removal, and the gangbar removal drives the guard gate and rotates to this lifting frame removes and drives the guard gate and rotate.

Optionally, a stirring plate is arranged on the placing plate, and the lifting frame moves to drive the vacuum bag and the stirring plate to be immersed in or moved out of the warm water at the same time.

By adopting the technical scheme, the lifting frame moves to drive the vacuum bag and the stirring plate to be immersed in warm water at the same time, and the placing plate swings to drive the stirring plate to swing to stir the warm water, so that the flow of the warm water is accelerated, the melting effect of the warm water on the vaccine bag is improved, the time spent on melting the vaccine bag is shortened, and the melting efficiency in the melting process of the vaccine bag is improved; vacuum bag and stirring board shift out the warm water simultaneously, place the board and can continue to swing and be used for making the warm water on the vacuum bag drop, and the vacuum bag need not to stir the warm water when shifting out the warm water to it drives the stirring board and continues to stir the probability that makes warm water calorific loss to place the board when having reduced and need not to stir the warm water.

Optionally, a sealing ring which is abutted against the outer side wall of the insertion pipe is arranged on the inner side wall of the fixed pipe.

Through adopting above-mentioned technical scheme, the sealing washer seals fixed pipe and plug tube to reduce the probability in the warm water gets into the vacuum bag, reduced the probability that the bacterin bag is polluted by the pollutant in the warm water, so that reduce the pollution that the pollutant produced the bacterin.

In summary, the present application includes at least one of the following beneficial technical effects:

1. put into the vacuum bag through with the bacterin bag in, then control mechanism starts to bleed air to the vacuum bag, puts into the basin with the vacuum bag after that, and warm water melts the bacterin bag in the basin, melts and accomplishes the back, takes out the vacuum bag from the warm water, gets rid of the warm water on the vacuum bag, and control mechanism starts to inflate the vacuum bag after that, then opens the vacuum bag and takes out the bacterin bag, puts into new bacterin bag after that and melts, consequently has reduced the pollution that the pollutant produced the bacterin in the warm water.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a partial structural schematic view of the present application, primarily showing the structure within the sink;

FIG. 3 is a schematic view of the construction of the rotating assembly of the present application;

FIG. 4 is a partial schematic structural view of the present application, showing primarily the rotating assembly;

FIG. 5 is a schematic view of the structure of the clamping assembly of the present application;

fig. 6 is an enlarged schematic view of a portion a in fig. 5.

Reference numerals: 1. a body; 11. mounting a plate; 12. a mounting seat; 2. a thawing device; 21. a water tank; 22. vacuum bag; 23. a protective door; 3. a control mechanism; 31. a vacuum pump; 32. a delivery pipe; 33. a fixed tube; 34. inserting a pipe; 4. a lifting device; 41. a lifting frame; 42. placing the plate; 43. a lifting cylinder; 44. a rotating shaft; 45. a through hole; 46. a stirring rod; 47. a stirring plate; 5. a rotating assembly; 51. a first pulley; 52. a second pulley; 521. a rotating shaft; 522. a belt; 53. a rotating gear; 54. rotating the rack; 55. rotating the motor; 56. rotating the disc; 561. a drive rod; 57. a connecting rod; 6. a clamping assembly; 61. positioning a plate; 62. rotating the block; 63. a clamping block; 64. an arc-shaped elastic sheet; 65. a first rotating lever; 66. a clamping groove; 67. a second rotating rod; 7. a linkage assembly; 71. fixing the rod; 72. a linkage rod; 73. and fixing the shaft.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses quick thawing apparatus of vaccine cryopreservation bag.

Referring to fig. 1, the vaccine cryopreservation bag fast thawing device comprises a machine body 1 and a thawing device 2 arranged on the machine body 1.

Referring to fig. 1 and 2, the thawing apparatus 2 includes a water tank 21 and a vacuum bag 22, the water tank 21 is fixedly installed on the upper surface of the machine body 1, the top end of the water tank 21 is open, a protective door 23 for blocking the opening of the water tank 21 is horizontally and rotatably installed on the top end of the water tank 21, warm water for thawing is contained in the water tank 21, and a heating pipe for heating the warm water is fixedly installed on the inner bottom wall of the water tank 21; the vacuum bag 22 is used for containing vaccine bags, the opening of the vacuum bag 22 adopts a self-sealing structure which is the same as that of a self-sealing bag, the opening of the vacuum bag 22 can be opened by pulling the vacuum bag 22, and the opening of the vacuum bag 22 can be sealed by squeezing the opening of the vacuum bag 22.

Referring to fig. 1 and 2, a lifting device 4 for placing and lifting the vacuum bag 22 is arranged on the water tank 21, the lifting device 4 includes a lifting frame 41, a placing plate 42 and a lifting cylinder 43, the lifting frame 41 is vertically slidably installed on two opposite inner side walls of the water tank 21, two vertical installation bases 12 are arranged on the upper surface of the lifting frame 41 along the length direction of the lifting frame 41 at intervals, horizontal rotating shafts 44 are rotatably installed on the side walls of the two opposite sides of the installation bases 12, the axes of the rotating shafts 44 are parallel to the axis of the rotation direction of the protective door 23, and the two opposite ends of the two rotating shafts 44 horizontally penetrate through the two opposite side walls of the two installation bases 12.

Referring to fig. 2 and 3, the two opposite side walls of the placing plate 42 are fixedly mounted on the opposite ends of the two rotating shafts 44, the rotating shafts 44 are located at the middle position of the placing plate 42, the projection of the placing plate 42 along the axial direction of the rotating shafts 44 is arc-shaped, and the two arc-shaped ends of the placing plate 42 are located above the rotating shafts 44; meanwhile, the upper surface of the placing plate 42 is uniformly provided with a plurality of through holes 45 for warm water to pass through.

Referring to fig. 2 and 3, obliquely downward stirring rods 46 are fixedly mounted on the lower surface of the placing plate 42 and on both sides of the rotating shaft 44, a horizontal stirring plate 47 is fixedly mounted on the bottom end of the stirring rod 46, and the length direction of the stirring plate 47 is parallel to the axis of the rotating shaft 44; simultaneously immersing or removing the stirring plate 47 and the vacuum bag 22 in or from the warm water; the lifting cylinder 43 is fixedly installed on the inner side wall of the water tank 21, a piston rod of the lifting cylinder 43 vertically faces downwards and is fixedly connected with the upper surface of the lifting frame 41, and meanwhile, a cylinder body of the lifting cylinder 43 is located above the liquid level of the warm water.

Referring to fig. 1 and 2, the vacuum bag 22 is placed on the upper surface of the placing plate 42, the thawing device 2 further comprises a control mechanism 3, the control mechanism 3 is disposed on the machine body 1, and the control mechanism 3 is connected with the vacuum bag 22 and is used for controlling the vacuum bag 22 to be evacuated or inflated; the control mechanism 3 comprises a vacuum pump 31, a delivery pipe 32, a fixed pipe 33 and an inserting pipe 34, wherein the vacuum pump 31 is fixedly arranged on the upper surface of the machine body 1, the delivery pipe 32 is fixedly arranged on the vacuum pump 31, one end of the delivery pipe 32, which is far away from the vacuum pump 31, penetrates through the water tank 21 above the liquid level of the warm water and extends into the water tank 21, and meanwhile, the delivery pipe 32 is a hose made of soft materials; and a control switch electrically connected with the vacuum pump 31 is fixedly installed on the upper surface of the machine body 1.

Referring to fig. 1 and 2, a fixed pipe 33 is integrally arranged at one end of the delivery pipe 32 in the water tank 21, the outer diameter of the fixed pipe 33 is larger than the outer diameter of the delivery pipe 32, the inner diameter of the fixed pipe 33 is larger than the inner diameter of the delivery pipe 32 and smaller than the outer diameter of the delivery pipe 32, a sealing groove is formed in the inner side wall of the fixed pipe 33, and a sealing ring is clamped and mounted on the sealing groove; the plug pipe 34 is fixedly installed on the upper surface of the vacuum bag 22, and the plug pipe 34 is plug-installed on the fixing pipe 33, and meanwhile, the sealing ring is pressed against the outer side wall of the plug pipe 34 for sealing.

Referring to fig. 1 and 2, the protection door 23 is connected to the lifting frame 41 through the linkage assembly 7, when the lifting frame 41 drives the vacuum bag 22 to be immersed in warm water, the lifting frame 41 drives the protection door 23 to block the opening of the water tank 21 through the linkage assembly 7, and when the lifting frame 41 drives the vacuum bag 22 to move up and out of the warm water, the lifting frame 41 drives the protection door 23 to be opened through the linkage assembly 7.

Referring to fig. 1 and 2, two linkage assemblies 7 are arranged and are arranged in one-to-one correspondence with the two mounting seats 12, each linkage assembly 7 comprises a fixing rod 71 and a linkage rod 72, the fixing rods 71 are fixedly arranged on the side walls of the mounting seats 12, the fixing rods 71 are obliquely and upwards arranged, horizontal fixing shafts 73 are fixedly arranged at the top ends of the fixing rods 71 and the lower surface of the protective door 23, and the axes of the fixing shafts 73 are parallel to the axis of the rotating shaft 44; two ends of the linkage rod 72 are respectively connected with two fixed shafts 73 in a rotating way.

Referring to fig. 2 and 3, the lifting device 4 further includes a rotating assembly 5 and a clamping assembly 6, wherein the rotating assembly 5 is disposed on the lifting frame 41 and is used for driving the rotating shaft 44 and the placing plate 42 to rotate back and forth.

Referring to fig. 3 and 4, the rotating assembly 5 includes a first pulley 51, a second pulley 52, a rotating gear 53, a rotating rack 54, a rotating motor 55, a rotating disc 56 and a connecting rod 57, the first pulley 51 is fixedly mounted on the rotating shaft 44, a vertical mounting plate 11 is fixedly mounted on the upper surface of the lifting frame 41 and located on one side of the mounting seat 12, a horizontal rotating shaft 521 is rotatably mounted on the side wall of the mounting seat 12 and located above the placing plate 42, and the axis 521 of the rotating shaft is parallel to the axis of the rotating shaft 44.

Referring to fig. 3 and 4, the second pulley 52 is fixedly mounted on the rotating shaft 521, and the second pulley 52 is connected to the first pulley 51 by a belt 522; the rotating gear 53 is in key connection with the rotating shaft 521, the rotating rack 54 is horizontally installed on the side wall of the installation base 12 in a sliding mode, and the rotating rack 54 is located above the rotating gear 53 and meshed with the rotating gear 53; the rotating motor 55 is fixedly installed on the side wall of the installation plate 11, the rotating motor 55 is always located above the liquid level of the warm water, and meanwhile, the output shaft of the rotating motor 55 is in a horizontal state.

Referring to fig. 3 and 4, the rotating disc 56 is fixedly mounted on the output shaft of the rotating motor 55, and a horizontal driving rod 561 is eccentrically and fixedly mounted on the side wall of the rotating disc 56; both ends of the connecting rod 57 are rotatably connected to the driving rod 561 and the rotating rack 54, respectively. The rotating motor 55 is started to drive the rotating disc 56 and the driving rod 561 to rotate, the driving rod 561 rotates to drive the rotating rack 54 to reciprocate through the connecting rod 57, the rotating rack 54 moves to drive the rotating gear 53 and the second belt wheel 52 to rotate, the second belt wheel 52 rotates to drive the first belt wheel 51 and the rotating shaft 44 to rotate through the belt 522, and the rotating shaft 44 rotates to drive the placing plate 42 to reciprocate.

Referring to fig. 5 and 6, the clamping assembly 6 is disposed on the placing plate 42 and is used for clamping the vacuum bag 22, the clamping assembly 6 includes two positioning plates 61, a rotating block 62, a clamping block 63 and an arc-shaped elastic sheet 64, the two positioning plates 61 are fixedly mounted on the upper surface of the placing plate 42, the two positioning plates 61 are spaced along the axial direction of the rotating shaft 44, and meanwhile, two ends of the vacuum bag 22 abut against the side walls of the opposite sides of the two positioning plates 61, so as to position the vacuum bag 22.

Referring to fig. 5 and 6, a horizontal first rotating rod 65 is fixedly installed on the upper surface of the placing plate 42, and a clamping block 63 is fixedly installed on the upper surface of the placing plate 42, wherein the first rotating rod 65, the clamping block 63 and the two positioning plates 61 are respectively located on four sides of the vacuum bag 22, and a clamping groove 66 is formed on the sidewall of the clamping block 63.

Referring to fig. 5 and 6, the rotating block 62 is rotatably mounted on the first rotating rod 65, and the vertical second rotating rod 67 is fixedly mounted on the upper surface of the clamping block 63; arc-shaped elastic sheet 64 one end is rotated and is installed on second bull stick 67, and arc-shaped elastic sheet 64 is arc and has elasticity, and the one end joint that second bull stick 67 was kept away from to arc-shaped elastic sheet 64 is installed on joint groove 66 simultaneously, and arc-shaped elastic sheet 64 extends outside joint groove 66, and arc-shaped elastic sheet 64 laminates with vacuum bag 22 and supports to press and fix a position on vacuum bag 22.

The working principle of the embodiment of the application is as follows:

the lifting cylinder 43 is started to drive the placing plate 42 and the vacuum bag 22 to move upwards to remove warm water, the placing plate 42 is moved to drive the protection door 23 to open the water tank 21, then the arc-shaped elastic sheet 64 is shifted to be separated from the clamping groove 66, then the arc-shaped elastic sheet 64 is rotated to be far away from the vacuum bag 22, then the vacuum bag 22 is taken down, then the vacuum pump 31 is started to inflate the vacuum bag 22, the fixing tube 33 is pulled to be separated from the inserting tube 34, and finally the melted vacuum bag 22 is placed on the machine body 1.

Then peg graft pipe 34 and fixed pipe 33 cooperation on the vacuum bag 22 that will be equipped with the vaccine bag in advance, then vacuum pump 31 starts to bleed vacuum bag 22, place vacuum bag 22 on placing board 42 upper surface, make vacuum bag 22 contradict with two locating plates 61, it rotates ARC elastic sheet 64 towards vacuum bag 22, it installs on joint groove 66 to rotate ARC elastic sheet 64 joint, consequently ARC elastic sheet 64 supports to press and fixes a position on vacuum bag 22, realize changing vacuum bag 22 with this, when treating the vaccine bag that melts simultaneously, the warm water on the vacuum bag 22 after will melting is got rid of, open vacuum bag 22 and take out the vaccine bag, it seals to change the vaccine bag that treats melting.

The lifting cylinder 43 is started to drive the vacuum bag 22 to move downwards to be immersed in warm water, then the motor 55 is rotated to start to drive the placing plate 42, the vacuum bag 22 and the vaccine bag to swing in a reciprocating mode, meanwhile, the placing plate 42 drives the stirring plate 47 to stir the warm water, and the placing plate 42 moves downwards to drive the protective door 23 to block the water tank 21, so that the dissolving speed of the vaccine bag is increased, and the dissolving efficiency of the vaccine bag in the dissolving process is improved.

After the melting is completed, the lifting cylinder 43 is started to drive the vacuum bag 22 to move upwards and move out of the warm water, the placing plate 42 continues to drive the vacuum bag 22 to swing, so that the warm water on the vacuum bag 22 falls, the amount of the warm water on the vacuum bag 22 is reduced, the probability that the vaccine bag is polluted by pollutants in the warm water is reduced, and the pollution of the pollutants to the vaccine is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A device for rapidly thawing a vaccine freezing bag, characterized in that it comprises a body (1) and a thawing device (2) arranged on the body (1), the thawing device (2) comprising:

a water tank (21), the water tank (21) is arranged on the body (1) and is filled with warm water;

a vacuum bag (22), the vacuum bag (22) is used for containing the vaccine bag and can be put into warm water;

A control mechanism (3) is provided on the body (1) and connected to the vacuum bag (22) and used to control the inflation or deflation of the vacuum bag (22).

2 . The device for rapidly thawing vaccine cryopreservation bags according to claim 1 , wherein the control mechanism ( 3 ) comprises:

a vacuum pump (31), the vacuum pump (31) is arranged on the body (1);

a conveying pipe (32), the conveying pipe (32) is arranged on the vacuum pump (31);

a fixing pipe (33), the fixing pipe (33) is arranged on the conveying pipe (32);

An insertion tube (34) is provided on the vacuum bag (22) and is inserted and matched with the fixing tube (33).

3. The device for rapidly thawing vaccine freezing bags according to claim 2, characterized in that: the water tank (21) is provided with a lifting device (4) for placing and lifting the vacuum bag (22), and the lifting device (4) is provided on the water tank (21). The device (4) includes:

a lifting frame (41), the lifting frame (41) is slidably arranged on the inner side wall of the water tank (21);

A placing plate (42), the placing plate (42) is rotatably arranged on the lifting frame (41) through the rotating shaft (44) and is used for placing the vacuum bag (22) and is provided with a plurality of through holes ( 45);

a lifting cylinder (43), the lifting cylinder (43) is arranged on the water tank (21) and is connected with the lifting frame (41);

a rotating assembly (5), the rotating assembly (5) is arranged on the lifting frame (41) and is used to drive the rotating shaft (44) to reciprocate;

A clamping assembly (6) is provided on the placing plate (42) and used for clamping the vacuum bag (22).

4. The device for rapidly thawing vaccine freezing bags according to claim 3, wherein the rotating assembly (5) comprises:

a first pulley (51), the first pulley (51) is provided on the rotating shaft (44);

a second pulley (52), the second pulley (52) is rotatably arranged on the lifting frame (41) through a rotating shaft (521) and is connected to the first pulley (51) through a belt (522);

a rotating gear (53), the rotating gear (53) is arranged on the rotating shaft (521);

a rotating rack (54), the rotating rack (54) is slidably arranged on the lifting frame (41) and meshes with the rotating gear (53);

a rotating motor (55), the rotating motor (55) is arranged on the lifting frame (41) and is located above the warm water level;

a rotating disk (56), the rotating disk (56) is arranged on the output shaft of the rotating motor (55) and is eccentrically arranged with a drive rod (561);

A connecting rod (57), two ends of the connecting rod (57) are respectively rotatably connected with the rotating rack (54) and the driving rod (561).

5 . The device for rapidly thawing vaccine freezing bags according to claim 3 , wherein the clamping assembly ( 6 ) comprises: 5 .

Two positioning plates (61), the two positioning plates (61) are arranged on the placing plate (42) and abut against both ends of the vacuum bag (22);

A rotating block (62), the rotating block (62) is rotatably arranged on the placing plate (42) through the first rotating shaft (44), and the rotating block (62) is provided with an axis perpendicular to the axis of the first rotating shaft (44) the second shaft (44);

A snap block (63), the snap block (63) is arranged on the placement plate (42) and is located on both sides of the vacuum bag (22) with the rotating block (62), the snap block (63) has side walls A clamping slot (66) is opened on the upper part;

The arc-shaped elastic piece (64) is rotatably arranged on the second rotating shaft (44), and when the arc-shaped elastic piece (64) is clamped and installed on the slot of the clamping block (63), the The arc-shaped shrapnel (64) is pressed against the vacuum bag (22) for positioning under the action of elastic force.

6 . The device for rapidly thawing vaccine freezer bags according to claim 3 , wherein a protective door ( 23 ) for blocking the opening of the water trough ( 21 ) is rotatably provided on the water tank ( 21 ). (23) is connected with the lifting frame (41) through the linkage assembly (7); when the lifting frame (41) drives the vacuum bag (22) to be immersed in warm water, the lifting frame (41) is driven by the linkage assembly (7) The protective door (23) blocks the opening of the water tank (21), and when the lifting frame (41) drives the vacuum bag (22) to move up and out of the warm water, the lifting frame (41) drives the protective door (41) through the linkage assembly (7). 23) Open.

7 . The device for rapidly thawing vaccine cryopreservation bags according to claim 6 , wherein the linkage assembly ( 7 ) comprises:

a fixing rod (71), the fixing rod (71) is arranged on the lifting frame (41);

A linkage rod (72), two ends of the linkage rod (72) are respectively rotatably connected with the fixed rod (71) and the protective door (23).

8 . The device for rapidly thawing vaccine freezing bags according to claim 3 , wherein the placing plate ( 42 ) is arc-shaped and provided with a stirring plate ( 47 ), and the lifting frame ( 41 ) The movement drives the vacuum bag (22) and the stirring plate (47) to immerse or remove the warm water at the same time.

9 . The device for rapidly thawing a vaccine freezing bag according to claim 2 , wherein the inner side wall of the fixed tube ( 33 ) is provided with a sealing ring that interferes with the outer side wall of the insertion tube ( 34 ). 10 .