CN116294466A - Electric heating air blast drying box for sample solidification for vaccine research - Google Patents

Abstract

The invention relates to the technical field of forced air drying boxes, in particular to an electrothermal forced air drying box for curing samples for vaccine research, which comprises a spliced drying box body, wherein a plurality of groups of spliced storage racks are arranged in the spliced drying box body, a front opening box door is further arranged on the spliced drying box body, the spliced drying box body is formed by combining a left drying shell, an additional drying shell and a right drying shell, and adjacent drying shells are quickly spliced and fixed through a first positioning component; the spliced storage rack is formed by combining a left storage rack, an additional storage rack and a right storage rack, and the adjacent storage racks are quickly spliced and fixed through a second positioning component; the front opening box door is formed by combining a rotary box door, an additional box door and a positioning box door, and adjacent box doors are spliced and fixed through a third positioning component. The invention can adjust the capacity of the drying box according to the scale of the research project and the change of the sample number, and provide flexible sample management and operation.

Description

Electric heating air blast drying box for sample solidification for vaccine research

Technical Field

The invention relates to the technical field of forced air drying boxes, in particular to an electrothermal forced air drying box for solidifying a sample for vaccine research.

Background

In current vaccine research, solidification of the sample is a critical step to ensure quality and stability of the vaccine. Electrothermal forced air drying ovens are widely used to solidify vaccine samples under controlled temperature and humidity conditions. However, the existing electrothermal blowing drying boxes have some use defects.

1. Conventional electrothermal blowing dry boxes generally have a fixed capacity and external structure, and cannot be adjusted according to research requirements. This limits the flexible management of sample size and number by researchers.

2. The traditional electrothermal blowing drying box often has the problem of poor sealing performance, so that the external environment is interfered with sample drying.

3. Conventional drying equipment often has problems of complex operation, unstable fixation and the like in the aspect of shell assembly.

Disclosure of Invention

The invention aims to provide an electrothermal blowing drying oven for solidifying a sample for vaccine research, which solves the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an electric heat blast drying cabinet that sample solidification was used for vaccine research, includes concatenation formula drying cabinet body, the inside multiunit that is linear array distribution's concatenation formula supporter that is provided with of concatenation formula drying cabinet, and still install preceding division of door on the concatenation formula drying cabinet body, concatenation formula drying cabinet body is formed by left dry casing, installs dry casing and right dry casing combination additional, carries out quick concatenation fixedly through first locating component between the adjacent dry casing.

The spliced commodity shelf is formed by combining a left commodity shelf, an additional commodity shelf and a right commodity shelf, the left commodity shelf is inserted in a left drying shell, the additional commodity shelf is inserted in the additional drying shell, the right commodity shelf is inserted in a right drying shell, and adjacent commodity shelves are quickly spliced and fixed through a second positioning component.

The front opening box door is formed by combining a rotating box door, an additional box door and a positioning box door, wherein the rotating box door is installed on a right drying shell in a limiting rotating mode through a rotating assembly, the additional box door is installed on the front side of the additional drying shell, the positioning box door is installed on a left drying shell through a lock, and adjacent box doors are spliced and fixed through a third positioning assembly.

Preferably, the left half part of the left drying shell is provided with an electric heating component, a plurality of reserved holes are formed in the side wall of the left drying shell, a fan is arranged in each reserved hole, air outlets are formed in the upper end faces of the left drying shell, the additionally-arranged drying shell and the right drying shell, and an air inlet is formed in the left side of the left drying shell.

Preferably, the left drying shell and one side of the additional drying shell, which is close to the right drying shell, are fixedly provided with sealing strips, the sealing strips are of a door-type structure, and the side walls of the additional drying shell and the right drying shell are provided with accommodating grooves for accommodating the sealing strips.

Preferably, -shaped cavities are formed in one sides, close to the left drying shell, of the additionally-installed drying shell and the right drying shell, of the additionally-installed drying shell, a first positioning assembly is arranged in each -shaped cavity, each first positioning assembly comprises a positioning hook, a central shaft, a spur gear, a pushing rack, a straight moving pushing bar, a second spring and a door-shaped main pushing frame, two groups of straight moving pushing bars are symmetrically arranged in each -shaped cavity, 5-6 groups of pushing racks are fixedly arranged on each group of straight moving pushing bars, each group of pushing racks is in meshed connection with the spur gear, the upper end of each spur gear is coaxially and fixedly connected with the central shaft, and the top of each central shaft is coaxially and fixedly connected with the positioning hooks.

Preferably, the positioning hooks are installed in the -shaped cavity in a limiting and rotating mode through the central shaft, a plurality of semi-annular clamping grooves distributed in a linear array are formed in the upper side and the lower side of one end, close to the right drying shell, of the left drying shell, the number of the semi-annular clamping grooves is identical to that of the positioning hooks, and the positioning hooks are rotationally inserted in the semi-annular clamping grooves.

Preferably, the spacing slidable mounting of door-type owner pushes away frame is in shape intracavity, door-type owner pushes away frame one end fixedly connected with 3-5 second springs, the upper and lower both sides of second spring all are provided with a set of translation push rod, translation push rod fixed connection door-type owner pushes away the frame, the inside symmetry of door-type owner pushes away the frame is provided with two sets of recesses of placing, spacing slidable mounting has the buckle in the recess of placing, and fixedly on the lateral wall of recess of placing is provided with magnet No. one, the back of buckle sets up magnet No. two, all set up the screens groove that holds the buckle on every dry casing, the buckle is through the magnetic force effect stable joint between magnet No. one and magnet No. two in the screens groove.

Preferably, a third positioning assembly is arranged on one side, close to the left drying shell, of the rotating box door and the loading box door, and comprises a positioning clamping strip, and a limiting groove for accommodating the positioning clamping strip is formed on one side, close to the right drying shell, of the positioning box door and the loading box door.

Preferably, the movable cavity for accommodating the second positioning component is formed in one side, close to the right, of the left storage rack and the right storage rack, the rectangular slot is formed in one side, close to the left, of the right storage rack and the right storage rack, the second positioning component comprises a movable vertical plate, a transverse inserting plate, a first spring, a stirring column, a driven pushing rod, a driving pushing rod and a nut sleeve, and the movable vertical plate is arranged in the movable cavity in a limiting sliding mode and is fixedly connected with 4-6 groups of first springs and two groups of transverse inserting plates.

Preferably, one ends of the two groups of transverse plugboards far away from the movable cavity and are inserted in the rectangular slot, a group of driven pushing strips are arranged on the side walls of the left storage rack and the additional storage rack in a limiting sliding manner, the driven pushing strips are arranged between the two groups of transverse plugboards, 5-6 stirring columns which are in linear distribution are fixedly arranged on the driven pushing strips, and a chute for accommodating the stirring columns is formed in the transverse plugboards.

Preferably, a group of nut sleeves are fixedly arranged on the front side wall of each group of left storage racks and the front side wall of each additional storage rack, a driving push rod is inserted in the nut sleeves, one end of the driving push rod is fixedly connected with a rotating wheel, the other end of the driving push rod extends into the rectangular slot and is inserted on the driven push rod, and a circular clamping hole for accommodating the driving push rod is formed in the side wall of the driven push rod.

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

1. according to the invention, the drying box shell, the storage rack and the box door are all in a modularized design, so that the drying box can be assembled and disassembled according to the needs, the capacity of the drying box can be adjusted according to the scale of a research project and the change of the number of samples, flexible sample management and operation are provided, and the experimental requirements can be better met.

2. The sealing strip is matched with the first positioning component for use, so that tight connection and stability between adjacent drying shells can be ensured. The stability is favorable for maintaining the stability of the operation environment, preventing the interference of the external environment on the drying of the sample, and improving the accuracy and the repeatability of the experiment.

3. The invention adopts a series of ingenious positioning and fixing technologies, and comprises a positioning hook, a central shaft, a spur gear, a pushing rack, a translational pushing bar, a second spring and a door-shaped main pushing frame, thereby realizing synchronous limiting and fixing of three surfaces of the upper end, the lower end and the rear end of the adjacent drying shell. The design with strong mechanical linkage can realize the tight connection between the adjacent drying shells quickly by one-key operation, and greatly improves the operation assembly efficiency.

4. According to the invention, the movable vertical plate, the transverse plugboard, the first spring, the poking column, the driven pushing bar, the driving pushing bar and the nut sleeve are arranged to be matched for use, so that rapid splicing and adjustment of the commodity shelf can be realized, the sample placement and management are more convenient, the operation process is more convenient, and the experimental efficiency and accuracy are improved.

Drawings

Fig. 1 is a perspective view showing an opened state of a front opening door of the present invention.

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

Fig. 3 is an exploded view of the structure of the present invention.

Fig. 4 is a schematic diagram of the connection of the left drying shell and the additional drying shell according to the present invention.

Fig. 5 is an enlarged schematic view of the area a in fig. 4.

Fig. 6 is a schematic diagram illustrating connection between the left drying shell and the left rack according to the present invention.

Fig. 7 is a schematic connection diagram of a splice rack according to the present invention.

FIG. 8 is a schematic diagram of the connection of the rack with the right rack according to the present invention.

Fig. 9 is an enlarged schematic view of region B in fig. 8.

FIG. 10 is an exploded view of the second positioning assembly of the present invention.

Fig. 11 is a schematic perspective view of a first positioning assembly according to the present invention.

FIG. 12 is an exploded view of the first positioning assembly of the present invention.

In the figure: the drying device comprises a left drying shell 1, a drying shell 2 additionally arranged, a right drying shell 3, a rotating box door 4, a box door additionally arranged 5, a box door 6, a positioning clamping strip 7, a limiting groove 8, a left storage rack 9, a storage rack additionally arranged 10, a right storage rack 11, a moving vertical plate 12, a transverse inserting plate 13, a chute 14, a first spring 15, a stirring column 16, a driven pushing strip 17, a circular clamping hole 18, a driving pushing rod 19, a nut sleeve 20, a positioning hook 21, a central shaft 22, a spur gear 23, a pushing rack 24, a straight moving pushing strip 25, a second spring 26, a door type main pushing rack 27, a buckle 28, a first magnet 29, a second magnet 30, a sealing strip 31 and a fan 32.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 12, the present invention provides the following technical solutions: the utility model provides an electric heat blast drying cabinet that sample solidification was used for vaccine research, includes concatenation formula drying cabinet, and concatenation formula drying cabinet is inside to be provided with the multiunit and is linear array distribution's concatenation formula supporter, and still installs preceding division of door on the concatenation formula drying cabinet, and concatenation formula drying cabinet is formed by left dry casing 1, installs dry casing 2 additional and right dry casing 3 combination, carries out quick concatenation fixedly through first locating component between the adjacent dry casing.

Further, through multiunit locating component, including first locating component, second locating component and third locating component, realized the accurate positioning and the quick concatenation of drying cabinet casing, supporter and chamber door are fixed, ensure equipment stability and operation safety.

The concatenation supporter is formed by left supporter 9, installs supporter 10 and right supporter 11 combination additional, and left supporter 9 inserts and puts in left dry casing 1, installs supporter 10 additional and inserts and put in install dry casing 2 additional, and right supporter 11 inserts and put in right dry casing 3, and carries out quick concatenation fixed through the second locating component between the adjacent supporter.

Further, by adopting the spliced type commodity shelf distributed by the linear array, samples can be uniformly distributed in the whole drying oven, and the curing efficiency is effectively improved.

The front opening box door is formed by combining a rotating box door 4, an additional box door 5 and a positioning box door 6, wherein the rotating box door 4 is installed on the right drying shell 3 in a limiting rotating way through a rotating component, the additional box door 5 is installed on the front side of the additional drying shell 2, the positioning box door 6 is installed on the left drying shell 1 through a lock, and adjacent box doors are spliced and fixed through a third positioning component.

Furthermore, the drying box shell, the storage rack and the box door are all in a modularized design, so that the drying box can be assembled and disassembled according to the needs, the capacity of the drying box can be adjusted according to the scale of a research project and the change of the number of samples, flexible sample management and operation are provided, and the experimental requirements can be better met.

The left half portion of the left drying shell 1 is provided with an electric heating component, a plurality of reserved holes are formed in the side wall of the left drying shell 1, a fan 32 is arranged in each reserved hole, air outlets are formed in the upper end faces of the left drying shell 1, the additionally-arranged drying shell 2 and the right drying shell 3, and an air inlet is formed in the left side of the left drying shell 1.

Further, by providing an electric heating assembly and a plurality of fans 32 in the left drying housing 1 of the drying oven, the design of the preformed holes and the air outlet enables uniform heating and air flow circulation, ensuring that the sample obtains uniform temperature and air velocity distribution during drying.

The left drying shell 1 and one side of the additional drying shell 2, which is close to the right drying shell 3, are fixedly provided with sealing strips 31, the sealing strips 31 are of a door-type structure, and the side walls of the additional drying shell 2 and the right drying shell 3 are provided with accommodating grooves for accommodating the sealing strips 31.

Further, by providing the sealing strip to be used in cooperation with the first positioning member, tight connection and stability between the adjacent drying casings can be ensured. The stability is favorable for maintaining the stability of the operation environment, preventing the interference of the external environment on the drying of the sample, and improving the accuracy and the repeatability of the experiment.

-shaped cavities are formed in one sides, close to the left drying shell 1, of the additional drying shell 2 and the right drying shell 3, -shaped cavities are provided with first positioning components, each first positioning component comprises a positioning hook 21, a central shaft 22, a spur gear 23, pushing racks 24, a translational pushing strip 25, a second spring 26 and a door-shaped main pushing frame 27, the translational pushing strips 25 are provided with two groups and are symmetrically arranged in the -shaped cavities, 5-6 groups of pushing racks 24 are fixedly arranged on each group of translational pushing strips 25, each group of pushing racks 24 are in meshed connection with the spur gear 23, the upper end of the spur gear 23 is coaxially and fixedly connected with the central shaft 22, and the top of the central shaft 22 is coaxially and fixedly connected with the positioning hooks 21.

Further, through setting up locating hook 21, center pin 22, spur gear 23, promote rack 24, translation push bar 25, second spring 26 and door-type main push frame 27 cooperation use, can carry out synchronous spacing to the upper end of adjacent dry casing, lower extreme and three faces of rear end fixedly, mechanical linkage nature is strong, and the tight connection between the adjacent dry casing has been realized fast in the operation of a key operation, has improved operation assembly efficiency greatly.

The positioning hooks 21 are installed in the -shaped cavity in a limiting and rotating mode through the central shaft 22, a plurality of semi-annular clamping grooves distributed in a linear array are formed in the upper side and the lower side of one end, close to the right drying shell 3, of the left drying shell 1 and the upper drying shell 2, and the number of the semi-annular clamping grooves is identical to that of the positioning hooks 21, and the positioning hooks 21 are rotationally inserted into the semi-annular clamping grooves.

Specifically, the door-shaped main pushing frame 27 is pushed towards the drying box, the door-shaped main pushing frame 27 is quickly fixed on the drying shell through the buckle 28, so that the rear sides of the adjacent drying shells are limited and fixed, meanwhile, the translational pushing bar 25 moves towards the cavity under the pushing of the door-shaped main pushing frame 27, the pushing rack 24 on the translational pushing bar 25 acts on the spur gear 23 again, the central shaft 22 is forced to drive the positioning hooks 21 to rotate anticlockwise, at the moment, the multiple groups of positioning hooks 21 are just inserted into the semi-annular clamping grooves, the upper sides and the lower sides of the adjacent drying shells are limited and fixed, and the multi-surface fixing structure can enable the adjacent drying shells to be connected more tightly.

The door-shaped main pushing frame 27 is arranged in the -shaped cavity in a limiting sliding mode, one end of the door-shaped main pushing frame 27 is fixedly connected with 3-5 second springs 26, a group of straight moving pushing bars 25 are arranged on the upper side and the lower side of each second spring 26, the straight moving pushing bars 25 are fixedly connected with the door-shaped main pushing frame 27, two groups of placing grooves are symmetrically arranged in the door-shaped main pushing frame 27, a buckle 28 is arranged in each placing groove in a limiting sliding mode, a first magnet 29 is fixedly arranged on the side wall of each placing groove, a second magnet 30 is arranged on the back face of each buckle 28, a clamping groove for accommodating the corresponding buckle 28 is formed in each drying shell, and the buckle 28 is stably clamped in the corresponding clamping groove through magnetic force between the first magnet 29 and the second magnet 30.

Further, by arranging the second spring 26, the door-shaped main pushing frame 27 is just kept on the outer wall of the shell under the condition of no external force, so that the later pressing operation is facilitated; by providing the door-shaped main pushing frame 27, the rear side of the adjacent drying case can be limited and fixed.

The side of the rotary box door 4 and the loading box door 5, which is close to the left drying shell 1, is provided with a third positioning component, the third positioning component comprises a positioning clamping strip 7, and one side of the positioning box door 6 and the loading box door 5, which is close to the right drying shell 3, is provided with a limiting groove 8 for accommodating the positioning clamping strip 7.

Further, through setting up the cooperation of location card strip 7 and spacing groove 8 and using, can realize rotating chamber door 4, install chamber door 5 additional and the quick concatenation between the location chamber door 6 is fixed.

The movable cavity for accommodating the second positioning component is formed in one side, close to the right storage rack 11, of the left storage rack 9 and the right storage rack 10, and the rectangular slot is formed in one side, close to the left storage rack 9, of the right storage rack 11, the second positioning component comprises a movable vertical plate 12, a transverse insertion plate 13, a first spring 15, a stirring column 16, a driven pushing bar 17, a driving pushing bar 19 and a nut sleeve 20, and the movable vertical plate 12 is arranged in the movable cavity in a limiting sliding mode and fixedly connected with 4-6 groups of first springs 15 and two groups of transverse insertion plates 13.

Further, through setting up and removing riser 12, horizontal picture peg 13, first spring 15, stirring post 16, driven push rod 17, initiative push rod 19 and nut cover 20 cooperation and use, can realize the quick concatenation and the adjustment of supporter for the sample is placed and is managed more conveniently, and the operation process is more convenient, has improved experimental efficiency and accuracy.

One ends of the two groups of transverse plugboards 13 far away from the movable cavity and inserted into the rectangular slot, the left commodity shelf 9 and the side wall of the additionally installed commodity shelf 10 are provided with a group of driven pushing bars 17 in a limiting sliding manner, the driven pushing bars 17 are arranged between the two groups of transverse plugboards 13, 5-6 linearly distributed poking columns 16 are fixedly arranged on the driven pushing bars 17, and the transverse plugboards 13 are provided with inclined slots 14 for accommodating the poking columns 16.

A group of nut sleeves 20 are fixedly arranged on the front side wall of each group of left storage rack 9 and the front side wall of the additionally installed storage rack 10, a driving push rod 19 is inserted into the nut sleeves 20, one end of the driving push rod 19 is fixedly connected with a rotating wheel, the other end of the driving push rod 19 extends into the rectangular slot and is inserted onto the driven push rod 17, and a circular clamping hole 18 for accommodating the driving push rod 19 is formed in the side wall of the driven push rod 17. The driving push rod 19 is provided with external threads which are matched with the nut sleeve 20.

Specifically, the driving push rod 19 is driven to rotate by the handheld rotating wheel, under the action of the rotation of the internal thread and the external thread, the driving push rod 19 continuously rotates towards the direction of the transverse inserting plate 13 and pushes the driven push rod 17, and the stirring column 16 on the driven push rod 17 acts on the chute 14, so that the transverse inserting plate 13 can be completely inserted into the rectangular slot under the stress, and the tight connection between the adjacent storage racks is realized.

The invention is used when in use: firstly, through the actual experiment demand, select the corresponding quantity to install dry casing 2 additional, regard left dry casing 1 as the benchmark seat next, will install dry casing 2 additional, right dry casing 3 in proper order assemble for adjacent dry casing laminating each other, this in-process is through setting up sealing strip 31 and first location subassembly cooperation use, can ensure close connection and stability between the adjacent dry casing. The stability is favorable for maintaining the stability of the operation environment, preventing the interference of the external environment on the drying of the sample, and improving the accuracy and the repeatability of the experiment.

Specifically, the door-shaped main pushing frame 27 is pushed towards the drying box, the door-shaped main pushing frame 27 is quickly fixed on the drying shell through the buckle 28, so that the rear sides of adjacent drying shells are limited and fixed, meanwhile, the translational pushing bar 25 moves towards the cavity under the pushing of the door-shaped main pushing frame 27, the pushing rack 24 on the translational pushing bar 25 acts on the spur gear 23 again, so that the central shaft 23 is forced to drive the positioning hooks 21 to rotate anticlockwise, at the moment, the multiple groups of positioning hooks 21 are just inserted into the semi-annular clamping grooves, the upper sides and the lower sides of the adjacent drying shells are limited and fixed, and the multi-surface fixing structure can enable the connection between the adjacent drying shells to be more compact.

After the drying shell is assembled, the positioning clamping strips 7 are in plug-in fit with the limiting grooves 8, so that the rapid splicing and fixing among the rotary box door 4, the additionally installed box door 5 and the positioning box door 6 can be realized, and the front opening box door assembly can be completed; then the front opening box door of the spliced type is opened, a plurality of rotating wheels are sequentially twisted, the driving push rod 19 is driven to rotate by the handheld rotating wheels, under the screwing action of internal and external threads, the driving push rod 19 continuously rotates towards the direction of the transverse inserting plate 13 and pushes the driven push rod 17, and the stirring column 16 on the driven push rod 17 acts on the chute 14, so that the transverse inserting plate 13 can be completely inserted into the rectangular slot under the stress, and the tight connection between adjacent storage racks is realized.

According to the invention, the drying box shell, the storage rack and the box door are all in a modularized design, so that the drying box can be assembled and disassembled according to the needs, the capacity of the drying box can be adjusted according to the scale of a research project and the change of the number of samples, flexible sample management and operation are provided, and the experimental requirements can be better met.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an electric heat blast drying cabinet that sample solidification was used for vaccine research, includes concatenation formula drying cabinet body, its characterized in that: the spliced drying box body is internally provided with a plurality of groups of spliced storage racks distributed in a linear array, a front opening box door is further arranged on the spliced drying box body, the spliced drying box body is formed by combining a left drying shell (1), an additional drying shell (2) and a right drying shell (3), and adjacent drying shells are quickly spliced and fixed through a first positioning component;

the spliced storage rack is formed by combining a left storage rack (9), an additional storage rack (10) and a right storage rack (11), wherein the left storage rack (9) is inserted into a left drying shell (1), the additional storage rack (10) is inserted into an additional drying shell (2), the right storage rack (11) is inserted into a right drying shell (3), and adjacent storage racks are quickly spliced and fixed through a second positioning component;

the front opening box door is formed by combining a rotating box door (4), an additional box door (5) and a positioning box door (6), wherein the rotating box door (4) is installed on a right drying shell (3) through limiting rotation of a rotating assembly, the additional box door (5) is installed on the front side of the additional drying shell (2), the positioning box door (6) is installed on a left drying shell (1) through a lock, and adjacent box doors are spliced and fixed through a third positioning assembly.

2. An electrothermal blowing dry box for solidifying a sample for vaccine research according to claim 1, wherein: the left half part of the left drying shell (1) is provided with an electric heating component, a plurality of reserved holes are formed in the side wall of the left drying shell (1), a fan (32) is arranged in each reserved hole, air outlets are formed in the upper end faces of the left drying shell (1), the additionally-arranged drying shell (2) and the right drying shell (3), and an air inlet is formed in the left side of the left drying shell (1).

3. An electrothermal blowing dry box for solidifying a sample for vaccine research according to claim 1, wherein: the novel drying device is characterized in that a sealing strip (31) is fixedly arranged on one side, close to the right drying shell (3), of the left drying shell (1) and the additionally-installed drying shell (2), the sealing strip (31) is of a door-shaped structure, and a containing groove for containing the sealing strip (31) is formed in the side wall of the additionally-installed drying shell (2) and the side wall of the right drying shell (3).

4. An electrothermal blowing dry box for solidifying a sample for vaccine research according to claim 1, wherein: -shaped cavities are formed in one sides, close to the left drying shell (1), of the right drying shell (3), of the additional drying shell (2) and the right drying shell (3), first positioning components are arranged in -shaped cavities, each first positioning component comprises a positioning hook (21), a central shaft (22), a spur gear (23), pushing racks (24), straight moving pushing strips (25), a second spring (26) and a door-shaped main pushing frame (27), the straight moving pushing strips (25) are provided with two groups and are symmetrically arranged in the -shaped cavities, 5-6 groups of pushing racks (24) are fixedly arranged on each group of straight moving pushing strips (25), each group of pushing racks (24) is connected with a spur gear (23) in a meshed mode, the upper ends of the spur gears (23) are coaxially and fixedly connected with a central shaft (22), and the tops of the central shafts (22) are coaxially and fixedly connected with the positioning hooks (21).

5. An electrothermal blowing dry box for sample curing for vaccine research according to claim 4, wherein: the positioning hooks (21) are installed in the -shaped cavity in a limiting rotation mode through the central shaft (22), a plurality of semi-annular clamping grooves distributed in a linear array are formed in the upper side and the lower side of one end, close to the right drying shell (3), of the left drying shell (1) and the upper drying shell (2), and the number of the semi-annular clamping grooves is consistent with that of the positioning hooks (21), and the positioning hooks (21) are rotationally inserted into the semi-annular clamping grooves.

6. An electrothermal blowing dry box for sample curing for vaccine research according to claim 5, wherein: the door-type main pushing frame (27) is arranged in the -shaped cavity in a limiting sliding mode, 3-5 second springs (26) are fixedly connected to one end of the door-type main pushing frame (27), a group of straight moving pushing strips (25) are arranged on the upper side and the lower side of each second spring (26), the straight moving pushing strips (25) are fixedly connected with the door-type main pushing frame (27), two groups of placing grooves are symmetrically arranged in the door-type main pushing frame (27), a buckle (28) is arranged in each placing groove in a limiting sliding mode, a first magnet (29) is fixedly arranged on the side wall of each placing groove, a second magnet (30) is arranged on the back face of each buckle (28), clamping grooves for accommodating the corresponding buckle (28) are formed in each drying shell, and the buckles (28) are stably clamped in the clamping grooves through magnetic force between the first magnet (29) and the second magnet (30).

7. An electrothermal blowing dry box for solidifying a sample for vaccine research according to claim 1, wherein: the rotary box door (4) and the additional box door (5) are provided with a third positioning assembly on one side close to the left drying shell (1), the third positioning assembly comprises a positioning clamping strip (7), and a limiting groove (8) for accommodating the positioning clamping strip (7) is formed in one side of the rotary box door (6) and the additional box door (5) close to the right drying shell (3).

8. An electrothermal blowing dry box for solidifying a sample for vaccine research according to claim 1, wherein: the movable cavity containing the second positioning component is formed in one side, close to the right storage rack (11), of the left storage rack (9) and the right storage rack (10), rectangular slots are formed in one side, close to the left storage rack (9), of the right storage rack (11), the second positioning component comprises a movable vertical plate (12), a transverse insertion plate (13), a first spring (15), a toggle column (16), a driven push rod (17), a driving push rod (19) and a nut sleeve (20), and the movable vertical plate (12) is mounted in the movable cavity in a limiting sliding mode and is fixedly connected with 4-6 groups of first springs (15) and two groups of transverse insertion plates (13).

9. An electrothermal blowing dry box for sample curing for vaccine research according to claim 8, wherein: two sets of horizontal picture peg (13) are kept away from the one end of removing riser (12) and are stretched out the activity chamber and insert and establish in the rectangle slot, and all spacing slidable mounting has a set of driven push rod (17) on left supporter (9) and the supporter (10) lateral wall that installs additional, and driven push rod (17) set up between two sets of horizontal picture peg (13), and fixed being provided with 5-6 on the driven push rod (17) are linear distribution stir post (16), have seted up on horizontal picture peg (13) and hold chute (14) of stirring post (16).

10. An electrothermal blowing dry box for sample curing for vaccine research according to claim 9, wherein: a group of nut sleeves (20) are fixedly arranged on the front side wall of each group of left storage racks (9) and the front side wall of each additional storage rack (10), driving push rods (19) are inserted into the nut sleeves (20), rotating wheels are fixedly connected to one ends of the driving push rods (19), the other ends of the driving push rods (19) extend into rectangular slots and are inserted onto driven push rods (17), and round clamping holes (18) for accommodating the driving push rods (19) are formed in the side walls of the driven push rods (17).

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