CN117104714B

CN117104714B - Constant temperature type diagnosis reagent low-temperature refrigeration containing box

Info

Publication number: CN117104714B
Application number: CN202311391610.4A
Authority: CN
Inventors: 金巍; 杨标; 尚倩倩; 贾倩倩
Original assignee: Jiangsu Bioperfectus Technologies Co ltd
Current assignee: Jiangsu Bioperfectus Technologies Co ltd
Priority date: 2023-10-25
Filing date: 2023-10-25
Publication date: 2024-02-27
Anticipated expiration: 2043-10-25
Also published as: CN117104714A

Abstract

The invention discloses a constant-temperature diagnosis reagent low-temperature refrigeration containing box which relates to the technical field of medical reagent refrigeration and comprises a box body, wherein the box body is rotationally connected with a rotating shaft, the rotating shaft is slidably connected with a rotating frame of an annular array, the rotating frame is provided with a first shell, the first shell is provided with a first through hole of the annular array, the first shell is rotationally connected with a second shell, the second shell is used for containing diagnosis reagents, and the second shell is provided with a second through hole of the annular array. According to the invention, the first through hole of the first shell and the adjacent second through hole on the adjacent second shell are completely misplaced, so that the cavity in the right second shell is communicated with the outside and isolated from the cavity in the box body, thereby avoiding cold air leakage in the box body in the process of placing the diagnostic reagent, affecting the diagnostic reagent in the box body, further reducing the energy consumption of the accommodating box and enhancing the protection of the diagnostic reagent.

Description

Constant temperature type diagnosis reagent low-temperature refrigeration containing box

Technical Field

The invention relates to the technical field of medical reagent refrigeration, in particular to a constant-temperature type diagnostic reagent low-temperature refrigeration containing box.

Background

The cold-stored box that holds is the necessary equipment when transporting the diagnostic reagent that the storage condition is low temperature, the shape of current cold-stored box that holds is mostly similar "small-size refrigerator", wherein only single cavity, and the in-process of getting and putting diagnostic reagent is held to this kind of cold-stored box that holds, the cavity of holding the box can be communicated with external environment completely, the air conditioning in holding the box cavity can leak this moment, make the temperature in holding the box cavity rise, etc. with cold-stored box that holds close the back then need refrigerate its cavity in, thereby increase unnecessary energy consumption, and the diagnostic reagent that is located in cold-stored box can be influenced because of the variation of difference in temperature when contacting with external environment, can lead to diagnostic reagent to be invalid in serious cases.

Disclosure of Invention

In order to overcome the defect that cold air in a cavity of an existing refrigeration containing box can leak or even cause the failure of diagnostic reagents in the process of taking and placing the diagnostic reagents, the invention provides a constant-temperature type low-temperature refrigeration containing box for the diagnostic reagents.

The technical scheme is as follows: the utility model provides a cold-stored box that holds of constant temperature type diagnostic reagent low temperature, includes the box body, control panel is installed to the box body, the box body rotates and is connected with the pivot, install the refrigeration board in the box body, the refrigeration board with the control panel electricity is connected, pivot sliding connection has annular array's rotating turret, the rotating turret is provided with first shell, first shell is provided with annular array's first through-hole, first shell is provided with the spacing groove, the box body is provided with gets to put the mouth, the getting of box body is put mouthful department and is provided with the sealing plug, first shell rotation is connected with the second shell, the second shell is used for holding diagnostic reagent, the second shell is provided with annular array's second through-hole, the second shell is close to adjacent one side fixedly connected with spacing post of first shell, spacing post and adjacent the spacing groove cooperation of first shell, fixedly connected with spacing post with the spacing plate cooperation, first shell is close to one side of rotating turret is provided with the second support ring, the second support ring is provided with the second support ring is connected with the sealing plug between the first support ring, the second support ring is connected with the sealing plug.

Further, one side of the limiting plate, which is close to the adjacent limiting post, is an inclined surface, the limiting groove of the first shell is L-shaped, and the direction of the upper end of the limiting groove of the first shell is opposite to the direction of the inclined surface of the limiting plate, so that the relative positions of the first through hole of the first shell and the adjacent second through hole of the second shell are changed.

Further, the opening and closing mechanism comprises a limiting seat, the limiting seat is fixedly connected to one side, close to the sealing plug, of the box body, a third through hole is formed in the limiting seat, an opening and closing frame is connected in the third through hole in a sliding mode, the opening and closing frame is fixedly connected with the sealing plug, one side, close to the sealing plug, of the box body is fixedly connected with a supporting seat, the supporting seat is matched with the opening and closing frame, a connecting rod is connected to the box body in a sliding mode, the connecting rod is connected with the opening and closing frame in a rotating mode, and the connecting rod is matched with the adjacent rotating frame.

Further, the distance between one side of the first shell, which is close to the sealing plug, and the adjacent surface in the box body is equal to the length of the third through hole of the limiting seat.

Further, the diagnostic reagent testing device further comprises a buffer mechanism with an annular array, the buffer mechanism is used for protecting diagnostic reagents in the second shell, the buffer mechanism is arranged adjacent to the rotating frame, the buffer mechanism comprises second elastic elements with the annular array, the second elastic elements with the annular array are respectively and fixedly connected between the first shell and the rotating frame, the first shell is in sliding connection with the rotating frame, and a third elastic element is fixedly connected between the rotating frame and the supporting ring.

Further, the pivot fixedly connected with annular array the solid fixed ring, gu the fixed ring is located the box body, gu the fixed ring be close to the adjacency one side fixedly connected with gas storage shell of rotating turret, the gas storage shell is close to adjacency one side sliding connection of rotating turret has the piston rod, the piston rod with adjacency first shell cooperation, the piston rod is kept away from one end fixedly connected with piston plate of rotating turret, piston plate with adjacency gas storage shell sliding connection, just gas storage shell with adjacency fill there is compressed medium between the piston plate.

Further, the vertical length in the gas storage shell is greater than the length of the third through hole of the limiting seat, and a gap is reserved between the piston rod and the adjacent first shell.

Further, the box body is provided with an acceleration sensor, and the acceleration sensor and the fastening components are electrically connected with the control panel.

Further, the device also comprises an ejecting mechanism which enables the diagnostic reagent to be taken and placed conveniently, the ejecting mechanism is arranged in the box body, one side of the sealing plug, which is far away from the opening and closing frame, is provided with a cavity, the ejecting mechanism comprises a first rack, the first rack is fixedly connected with one side, which is close to the connecting rod, in the box body, the supporting ring is slidably connected with a moving plate, one side, which is far away from the second shell, of the moving plate is fixedly connected with a second rack, one end, which is close to the second rack, of the connecting rod is rotatably connected with a gear, the gear is meshed with the first rack, and the second rack is matched with the gear.

Furthermore, the sealing plug cavity is cylindrical, and the diameter of the sealing plug cavity is larger than that of the diagnostic reagent, so that the sealing plug is prevented from being contacted with the diagnostic reagent in the opening and closing process.

The invention has the following advantages: according to the invention, the first through hole of the first shell and the adjacent second through hole on the adjacent second shell are completely misplaced, so that the cavity in the second shell on the right side is communicated with the outside and isolated from the cavity in the box body, thereby avoiding cold air leakage in the box body in the process of placing the diagnostic reagent, affecting the diagnostic reagent in the box body, further reducing the energy consumption of the accommodating box and enhancing the protection of the diagnostic reagent; the first through holes of the annular arrays of the first shell are completely overlapped and communicated with the second through holes of the annular arrays of the adjacent second shells, so that the contact area between cold air in the box body and the diagnostic reagent is increased, the refrigeration rate of the diagnostic reagent is accelerated, and the refrigeration efficiency of the diagnostic reagent is further improved; the piston rod is used for extruding the adjacent first shell and the limiting groove on the first shell to limit the adjacent limiting column, so that the second shell and the box body are kept relatively static, the sealing state between the second shell and the box body is prevented from being damaged due to the relative movement of the second shell and the box body in the process of taking and placing the diagnostic reagent, the temperature of the cavity in the box body is influenced, the maintenance of the environment in the box body is improved, and the protection of the diagnostic reagent is enhanced; in the process of upward movement of the second rack, the movement distance of the second rack is greater than the upward movement distance of the connecting rod, so that after the sealing plug is opened, the diagnostic reagent protrudes out of the adjacent second shell, and the operation of taking and placing by a user is facilitated.

Drawings

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

FIG. 2 is a schematic perspective view of the box and its internal parts according to the present invention;

FIG. 3 is a schematic view of a three-dimensional structure of the opening and closing frame of the present invention when the opening and closing frame moves upward;

FIG. 4 is a schematic perspective view of the second housing of the present invention rotated;

FIG. 5 is an exploded view of the turret and its upper parts in a three-dimensional configuration according to the present invention;

FIG. 6 is a schematic perspective view of an opening and closing mechanism according to the present invention;

FIG. 7 is a schematic view showing a perspective structure of the connecting rod of the present invention when the connecting rod moves upward;

FIG. 8 is an enlarged view of the perspective structure of FIG. 3A in accordance with the present invention;

fig. 9 is a schematic perspective view of an ejector mechanism according to the present invention.

Meaning of reference numerals in the drawings: 1: box body, 2: control panel, 3: rotating shaft, 4: refrigeration plate, 5: rotating frame, 6: first shell, 7: sealing plug, 8: second shell, 9: limit post, 10: limiting plate, 11: support ring, 12: first elastic element, 13: opening and closing mechanism 1301: limit seat, 1302: opening and closing frame, 1303: support base, 1304: connecting rod, 14: buffer mechanism 1401: a retaining ring, 1402: gas storage shell, 1403: a piston rod, 1404: piston plate, 1405: second elastic element 1406: third elastic element, 15: fastening assembly, 16: acceleration sensor, 17: ejection mechanism, 1701: first rack, 1702: moving plate, 1703: second rack 1704: a gear.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, based on which all other embodiments, which a person having ordinary skill in the art may obtain without inventive effort, belong to the scope of protection of the present invention, although the 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 variations may be made to these embodiments without departing from the principle and spirit of the present invention, and the scope of the present invention is defined by the appended claims and their equivalents.

Example 1: the utility model provides a constant temperature type diagnostic reagent low temperature cold storage holds box, as shown in figure 1-figure 6, including box body 1, control panel 2 is installed in the left part of box body 1 upside, the middle part rotation of box body 1 is connected with pivot 3, the arrow of annular array is marked to the upside of pivot 3, the upper end of pivot 3 is located box body 1 and is provided with annular array's rectangular protruding, be used for increasing the area of contact with the user's hand, be convenient for personnel's operation, refrigeration board 4 with control panel 2 electricity is installed to the downside in the box body 1, refrigeration board 4 is current equipment (the theory of operation is not repeated here), the lower extreme sliding connection of pivot 3 has annular array's rotating turret 5, the upside of rotating turret 5 is provided with first shell 6, first shell 6 is provided with annular array's first through-hole, first through-hole is vertical rectangular through-hole, the upper part of the first shell 6 is provided with a limit groove, the limit groove of the first shell 6 is L-shaped, the limit groove of the first shell 6 consists of a transverse groove and a vertical groove, the upper end of the limit groove of the first shell 6 faces backwards (taking the limit groove of the right first shell 6 as an example), the taking and placing opening of the right part of the upper side of the box body 1 is provided with a sealing plug 7, the upper part of the sealing plug 7 is in an inverted conical shape, the contact area between the sealing plug 7 and the box body 1 is increased, the tightness is further improved, the lower part of the sealing plug 7 is a cylinder, the first shell 6 is rotationally connected with a second shell 8, the inner side surface of the first shell 6 is tightly attached to the outer side surface of an adjacent second shell 8, the second shell 8 is used for containing diagnostic reagents, the second shell 8 is provided with a second through hole in an annular array, the second through hole is a vertical strip hole, and the length of the second through hole is equal to the length of the first through hole, the upper portion fixedly connected with of box body 1 central axis one side is kept away from outside the second shell 8 is spacing complex spacing post 9 with the spacing groove of adjacent first shell 6, spacing to adjacent spacing post 9 through the spacing groove of first shell 6, make adjacent second shell 8 keep stable in getting the in-process of putting diagnostic reagent, fixedly connected with limiting plate 10 in the box body 1, the lower part of limiting plate 10 rear side leans forward, be used for changing the relative position of adjacent second through-hole on the first through-hole of first shell 6 and the adjacent second shell 8, spacing post 9 and limiting plate 10 spacing complex, spacing post 9 on the right side is spacing at the in-process limited position board 10 of upwards moving, thereby take place relative removal, the downside of first shell 6 is provided with supporting ring 11, fixedly connected with first elastic element 12 between supporting ring 11 and the adjacent second shell 8, first elastic element 12 is the torsional spring, the upside of box body 1 is provided with the mechanism 13 that is used for carrying out opening and shutting to sealing plug 7, through the first through-hole of first shell 6 and adjacent second through-hole on adjacent second shell 8, make right side and completely seal down the diagnostic reagent 1 and the diagnostic reagent of box 1 is held in the box body 1 and the internal side of the diagnosis of the box is completely isolated with the adjacent second shell 1, and the influence of the diagnosis reagent is reduced in the internal space 1 of the diagnosis and the diagnosis kit is avoided to the outside to the in-side of the box 1.

As shown in fig. 3, 6 and 7, the opening and closing mechanism 13 includes a limit seat 1301, the limit seat 1301 is fixedly connected to the right rear part of the upper side of the box body 1, a third through hole is arranged in the middle of the limit seat 1301, the third through hole is a vertically long strip hole, an opening and closing frame 1302 is slidably connected in the third through hole of the limit seat 1301, the opening and closing frame 1302 is composed of a frame body, a rotating rod and a stop lever, the rotating rod is located at the rear side of the opening and closing frame 1302, the stop lever is located at the upper side of the opening and closing frame 1302, the rotating rod of the opening and closing frame 1302 slides in the third through hole of the limit seat 1301, the distance between the upper side of the first shell 6 and the upper side of the box body 1 is equal to the length of the third through hole of the limit seat 1301, so that after the first shell 6 moves upwards to contact with the upper side of the box body 1, the bull stick of frame 1302 that opens and shuts moves to the upper end of spacing seat 1301 third through-hole just, frame 1302 and sealing plug 7 fixed connection open and shut, the right rear portion fixedly connected with supporting seat 1303 of box body 1 upside, supporting seat 1303 is located the rear of spacing seat 1301, supporting seat 1303 and the spacing cooperation of pin of frame 1302 that opens and shuts, be used for locking frame 1302 that opens and shuts, thereby the pin support of frame 1302 that opens and shuts through supporting seat 1303 prevents to get the in-process of putting diagnostic reagent, thereby sealing plug 7 unexpected skew influences normal getting and placing process, the right part sliding connection of box body 1 has connecting rod 1304, connecting rod 1304 rotates with frame 1302 that opens and shuts to be connected, connecting rod 1304 is spacing cooperation with adjacent rotating frame 5, when connecting rod 1304 upwards moves, connecting rod 1304 drives adjacent rotating frame 5 and upper part together upwards.

When the containing box is required to be used for transferring diagnostic reagents which need refrigeration, a user starts the refrigerating plate 4 through the control panel 2, the working power of the refrigerating plate 4 is adjusted to be matched with the required temperature of the target diagnostic reagent, then the user rotates the rotating shaft 3, the rotating shaft 3 drives parts on the rotating shaft to rotate together until one arrow of the rotating shaft 3 faces to the right, then the user stops rotating the rotating shaft 3 and lifts the opening and closing frame 1302 upwards, the opening and closing frame 1302 drives the sealing plug 7 to move upwards together, the lower part of the sealing plug 7 and the box body 1 slide relatively, in the process that the sealing plug 7 and the box body 1 slide relatively, the rotating rod of the opening and closing frame 1302 starts to slide upwards in the third through hole of the limiting seat 1301, the opening and closing frame 1302 drives the connecting rod 1304 to move upwards together, the connecting rod 1304 slides relatively with the box body 1, the connecting rod 1304 drives the rotating frame 5 on the right side to move upwards together, the rotating frame 5 drives the adjacent first shell 6 to move upwards together, the first shell 6 drives the adjacent second shell 8 to move upwards together, and the second shell 8 drives the adjacent limiting post 9 and the adjacent supporting ring 11 to move upwards together.

When the right second shell 8 and the upper parts thereof move upwards, the limiting plate 10 starts to press the adjacent limiting columns 9 backwards, then the right limiting columns 9 start to rotate anticlockwise (taking the top view direction as an example) under the limiting action of the limiting plate 10, the limiting columns 9 slide in the transverse grooves of the limiting grooves of the adjacent first shells 6, the limiting columns 9 drive the adjacent second shells 8 to rotate anticlockwise together, the first through holes on the second shells 8 start to be staggered with the adjacent second through holes on the adjacent first shells 6, the second shells 8 rotate relative to the adjacent supporting rings 11, and the adjacent first elastic elements 12 deform.

When the sealing plug 7 moves upwards to be separated from the box body 1, the rotating rod of the opening and closing frame 1302 moves upwards to the upper end of the third through hole of the limiting seat 1301, at this time, the first through hole on the second shell 8 is completely misplaced with the adjacent second through hole on the adjacent first shell 6, the first shell 6 on the right side moves upwards to the upper side surface of the first shell to be in contact with the upper side surface in the box body 1, at this time, a worker turns over the rotating rod of the opening and closing frame 1302 clockwise (taking the right view direction as an example) by taking the axis of the rotating rod of the opening and closing frame 1302 as a rotation center, the opening and closing frame 1302 drives the sealing plug 7 to turn over together until the stop lever of the opening and closing frame 1302 is in contact with the supporting seat 1303, then a user places a diagnostic reagent in the right side second shell 8, and when placing the diagnostic reagent in the second shell 8, the cavity in the right side second shell 8 is isolated from the outside and the cavity in the box body 1 is completely misplaced with the adjacent second through the first through hole on the second shell 6, so that the leakage in the box body 1 in the process of placing the diagnostic reagent is avoided, the unnecessary loss of cold air is reduced, and is further contained in the cold air.

After a user places the diagnostic reagent in the right second shell 8, the user reversely turns over the opening and closing frame 1302 again, the opening and closing frame 1302 drives the sealing plug 7 to move together, after the sealing plug 7 moves to be in contact with the box body 1, the user presses down the opening and closing frame 1302, the opening and closing frame 1302 drives the sealing plug 7 to move downwards together with the connecting rod 1304, then the rotating frame 5 and parts on the rotating frame start to move downwards under the action of self gravity, the limiting plate 10 gradually loses extrusion to the right limiting column 9, then the right second shell 8 starts to reset under the action of the torsion force of the adjacent first elastic element 12, the second shell 8 drives the adjacent limiting column 9 to move together, the staggered area between the first through hole of the right first shell 6 and the adjacent second through hole of the right second shell 8 is gradually increased, after the first elastic element 12 on the right is completely reset, the first through hole of the right first shell 6 and the adjacent second shell 8 are relatively static, the first through hole of the right first shell 6 and the adjacent second through hole of the right second shell 8 are completely coincident, the diagnostic reagent is completely cooled by the first through hole array and the adjacent through the first shell 6 and the annular array of adjacent through hole is completely coincident with the second through the first through hole array, and the diagnostic reagent is completely cooled by the diagnostic reagent is further increased, and the diagnostic reagent is further cooled by the diagnostic reagent is in an array.

When the placement of the single diagnostic reagent is completed, the user rotates the rotating shaft 3 by 90 degrees again, and then repeats the related operations until all diagnostic reagents are placed in the box body 1, when the diagnostic reagent in the box body 1 needs to be taken out by using the rotating shaft 3, one of the diagnostic reagents is moved below the sealing plug 7 by using the rotating shaft 3, then the user lifts the opening and closing frame 1302 upwards, the first through holes of the right first shell 6 and the adjacent second through holes on the adjacent second shell 8 are staggered in the process of upwards moving the opening and closing frame 1302, and when the sealing plug 7 is upwards moved to be separated from the box body 1, the upper side face of the right first shell 6 is attached to the upper side face in the box body 1 and kept sealed, and then the diagnostic reagent in the right second shell 8 is taken out by using the user, so that the influence of the outside on the temperature in the box body 1 in the process of taking the diagnostic reagent is prevented, and the protection of the diagnostic reagent is enhanced.

Example 2: based on embodiment 1, as shown in fig. 2, 4, 5 and 8, the device further comprises a buffer mechanism 14 with an annular array, the buffer mechanism 14 is used for protecting diagnostic reagents in the adjacent second shell 8, the buffer mechanism 14 is arranged on the rotating shaft 3, the first shell 6 is slidably connected with the adjacent rotating frame 5, the buffer mechanism 14 comprises a fixed ring 1401 with an annular array, the fixed rings 1401 with an annular array are fixedly connected to the middle part of the outer side of the rotating shaft 3, the fixed ring 1401 is positioned in the box body 1, the lower side of the fixed ring 1401 is fixedly connected with a gas storage shell 1402 with an annular array, the lower side of the gas storage shell 1402 is slidably connected with a piston rod 1403 in sealing fit with the gas storage shell, the upper end of the piston rod 1403 is fixedly connected with a piston plate 1404 in sliding connection with the adjacent gas storage shell 1402, a compression medium is filled between the gas storage shell 1402 and the adjacent piston plate 1404, the compression medium is nitrogen, the piston rod 1403 is used for extruding the adjacent first shell 6 and the limit grooves on the first shell 6 to limit the adjacent limit posts 9, so that the second shell 8 and the box body 1 are kept relatively static, the sealing state between the second shell 8 and the box body 1 is prevented from being damaged, the temperature in the box body 1 is influenced, a second elastic element 1405 is fixedly connected between the first shell 6 and the adjacent rotating frame 5, the second elastic element 1405 is an elastic rubber ring, a third elastic element 1406 which is uniformly arranged is fixedly connected between the rotating frame 5 and the adjacent supporting ring 11, the third elastic element 1406 is a spring, the axis of the first shell 6 coincides with the axis of the adjacent second shell 8, the axis of the adjacent second elastic element 1405 and the axis of the adjacent rotating frame 5, the vertical length in the air storage shell 1402 is longer than the length of the third through hole of the limit seat 1301, the piston rod 1403 is not contacted with the adjacent first shell 6, in this way, wear of the first shell 6 and the piston rod 1403 is reduced, and the diagnostic agent which jolts is buffered by the second elastic element 1405 and the third elastic element 1406, so that hard contact between the diagnostic agent and the adjacent second shell 8 is avoided, and the protection of the diagnostic agent is enhanced.

As shown in fig. 1 and 4, the device further comprises a fastening assembly 15 with a ring array, the fastening assembly 15 with a ring array is respectively installed on the upper portion of the adjacent first shell 6, the fastening assembly 15 is composed of an air bag, a gas generator, an igniter and the like, the igniter and an acceleration sensor 16 of the fastening assembly 15 are electrically connected with the control panel 2, the acceleration sensor 16 is installed on the front portion of the upper side of the box body 1, the acceleration sensor 16 is electrically connected with the control panel 2, and when the fastening assembly 15 is expanded, adjacent diagnostic reagents are wrapped, so that the diagnostic reagents are prevented from being damaged under severe collision, and the protection of the diagnostic reagents is enhanced.

After the diagnostic reagent is placed in the box body 1, when jolt occurs in the transferring process, the second shell 8 shakes, the second shell 8 drives the diagnostic reagent in the box body and the adjacent supporting ring 11 to move together, when the second shell 8 moves downwards, the limiting column 9 slides in the vertical groove of the limiting groove of the adjacent first shell 6, the supporting ring 11 extrudes the adjacent third elastic element 1406, when the second shell 8 moves horizontally, the first shell 6 extrudes the adjacent second elastic element 1405, the second elastic element 1405 deforms, and the jolt diagnostic reagent is buffered through the second elastic element 1405 and the third elastic element 1406, so that the diagnostic reagent is prevented from being in hard contact with the adjacent second shell 8, and the protection of the diagnostic reagent is enhanced.

In the process of taking and placing diagnostic reagent, when the rotating frame 5 and the upper part of the rotating frame move upwards, after the first shell 6 moves upwards to be in contact with the adjacent piston rod 1403, the first shell 6 drives the adjacent piston rod 1403 to move upwards together, the piston rod 1403 drives the adjacent piston plate 1404 to move upwards together, the piston plate 1404 slides in the adjacent gas storage shell 1402 and extrudes nitrogen in the adjacent gas storage shell 1402, nitrogen is compressed, the air pressure of the gas storage shell 1402 rises, the piston rod 1403 has a downward movement trend, the lower side of the piston rod 1403 is tightly attached to the upper side of the adjacent first shell 6 and has friction force, in the process of taking and placing diagnostic reagent, the first shell 6 can have a force in the horizontal direction due to the fact that a person is difficult to control the force, at that the piston rod 1403 is tightly attached to the first shell 6 and has friction force, at this moment, the first shell 6 does not move in the horizontal direction, meanwhile, the second shell 8 is influenced by the friction force of diagnostic reagent, the upward or downward movement trend can exist, the limit column 9 is located in the transverse groove area of the limit column 6, the lower side of the limit column 9 moves, the limit column 9 is tightly attached to the upper side of the adjacent first shell 6 and the lower side of the limit column 8, the limit column 8 is opposite to the second shell 1, the limit column 8 is kept in the first shell 1, the process is kept in the static state, the limit column 1 is opposite to the limit box 1, the condition is kept in the process of keeping the adjacent shell 1, and the limit box 1 is opposite to the limit box 1, and the condition is kept in the limit box 1, and the condition is opposite to the limit box is kept in the condition is opposite to the limit box 1, and the condition is kept in the condition is opposite to the limit box 1.

When the box body 1 accidentally drops, the acceleration sensor 16 is triggered at this time, the acceleration sensor 16 triggers the igniter of the fastening assembly 15 through the control panel 2, the igniter of the fastening assembly 15 controls the gas generator which triggers the fastening assembly 15, the gas generator blows generated gas into the air bag, the air bag of the fastening assembly 15 instantaneously expands and wraps the adjacent diagnostic reagent, and the diagnostic reagent is prevented from being damaged under severe collision, so that the protection of the diagnostic reagent is enhanced.

Example 3: on the basis of embodiment 2, as shown in fig. 9, the diagnostic reagent taking and placing device further comprises an ejecting mechanism 17 for facilitating the diagnostic reagent taking and placing, the ejecting mechanism 17 is arranged in the box body 1, a cavity is arranged at the middle lower part of the sealing plug 7, the cavity of the sealing plug 7 is cylindrical, the diameter of the cavity is larger than that of the diagnostic reagent, the sealing plug 7 is not contacted with the diagnostic reagent in the opening and closing process, so that the stability of the diagnostic reagent in the opening and closing process of the sealing plug 7 is ensured, the height of the upper side surface of the cavity of the sealing plug 7 is lower than that of the upper side surface of the box body 1, the ejecting mechanism 17 comprises a first rack 1701, the first rack 1701 is fixedly connected to the lower part of the right side in the box body 1, a second rack 1703 is fixedly connected to the lower side of the moving plate 1702, a gear 1704 meshed with the first rack 1701 is rotatably connected to the lower end of the connecting rod 1304, and the gear 1704 is matched with the adjacent second rack 1703, and the moving distance of the connecting rod 1304 is larger than that the diagnostic reagent in the upward moving process under the action of the gear 1704, so that after the sealing plug 7 is opened, the diagnostic reagent on the right side is detected out of the adjacent second rack 1708, and the diagnostic reagent taking and placing device is convenient for a user to take and place.

In the process of rotating the support ring 11, the support ring 11 drives the adjacent moving plate 1702 to rotate together, the moving plate 1702 drives the adjacent second racks 1703 to move together, when the rotating shaft 3 rotates until an upper arrow of the rotating shaft faces to the right, the right second racks 1703 and the gear 1704 are in a meshed state, in the process of upward movement of the connecting rod 1304, the connecting rod 1304 drives the gear 1704 to move together, the gear 1704 starts to roll upwards along the first racks 1701, the gear 1704 drives the adjacent second racks 1703 to move together, the second racks 1703 are under the action of the rotating gear 1704 in the upward movement process, the second racks 1703 further move upwards, the second racks 1703 drive the adjacent moving plate 1702 to move together, and the moving plate 1702 drives the diagnostic reagent in the adjacent second shells 8 to move together upwards, so that the diagnostic reagent and the adjacent second shells 8 move relatively, and when the upper side of the first shells 6 are in contact with the upper side of the box body 1, the diagnostic reagent protrudes out of the adjacent second shells 8, the diagnostic reagent taking efficiency of a user is improved, and the diagnostic reagent taking-out efficiency of the user is improved.

When the diagnostic reagent is placed in the right second shell 8, a user puts the diagnostic reagent into the right second shell 8, then turns over the opening and closing frame 1302, the sealing plug 7 and the box body 1 are in a sealing state after turning over, the upper side of the diagnostic reagent is located in the cavity of the sealing plug 7 when the user presses down the opening and closing frame 1302, the connecting rod 1304 starts to move downwards, the connecting rod 1304 drives the gear 1704 to move downwards together, the gear 1704 starts to roll downwards along the rack 1701, the right second rack 1703 starts to move downwards under the action of the gear 1704, the second rack 1703 drives the moving plate 1702 to move downwards, the right diagnostic reagent moves downwards together under the action of self gravity until the connecting rod 1304 is completely reset, and when the second rack 1703 moves upwards under the action of the gear 1704, the moving distance is greater than the distance of the connecting rod 1304, after the sealing plug 7 is opened, the diagnostic reagent on the right side stretches out of the adjacent second shell 8, and accordingly the user can conveniently take and put the diagnostic reagent on the right side, and the use efficiency is improved.

The present invention and its embodiments have been described above with no limitation, and the embodiments of the present invention are shown in the drawings, and the actual structure is not limited thereto, so that those skilled in the art who have the ordinary skill in the art who have the benefit of the present invention will not creatively design similar structures and examples to those of the present invention without departing from the gist of the present invention.

Claims

1. The utility model provides a cold-stored box that holds of constant temperature diagnostic reagent low temperature, characterized by, including box body (1), control panel (2) are installed to box body (1), box body (1) rotation is connected with pivot (3), install refrigeration board (4) in box body (1), refrigeration board (4) with control panel (2) electricity is connected, pivot (3) sliding connection has revolving rack (5) of annular array, revolving rack (5) are provided with first shell (6), first shell (6) are provided with annular array's first through-hole, first shell (6) are provided with the spacing groove, box body (1) are provided with and get and put the mouth, the mouth department of getting of box body (1) is provided with sealing plug (7), first shell (6) internal rotation is connected with second shell (8), second shell (8) are used for holding diagnostic reagent, second shell (8) are provided with annular array's second through-hole, second shell (8) are close to first shell (6) are provided with annular array's first through-hole, first shell (6) are provided with spacing groove (9) are provided with spacing post (10) and are connected with spacing post (9) in the spacing post (10), a supporting ring (11) is arranged on one side, close to the adjacent rotating frame (5), of the first shell (6), the second shell (8) is rotationally connected with the supporting ring (11), a first elastic element (12) is fixedly connected between the supporting ring (11) and the adjacent second shell (8), and an opening and closing mechanism (13) for opening and closing the sealing plug (7) is arranged on the box body (1);

the limiting plate (10) is provided with an inclined surface at one side close to the adjacent limiting column (9), the limiting groove of the first shell (6) is L-shaped, and the upper end of the limiting groove of the first shell (6) faces the direction opposite to the inclined surface of the limiting plate (10) and is used for changing the relative positions of the first through hole of the first shell (6) and the adjacent second through hole on the adjacent second shell (8);

the opening and closing mechanism (13) comprises a limiting seat (1301), the limiting seat (1301) is fixedly connected with the box body (1) and is close to one side of the sealing plug (7), the limiting seat (1301) is provided with a third through hole, an opening and closing frame (1302) is slidably connected in the third through hole of the limiting seat (1301), the opening and closing frame (1302) is fixedly connected with the sealing plug (7), the box body (1) is close to one side of the sealing plug (7) and is fixedly connected with a supporting seat (1303), the supporting seat (1303) is matched with the opening and closing frame (1302), a connecting rod (1304) is slidably connected with the box body (1), the connecting rod (1304) is rotatably connected with the opening and closing frame (1302), and the connecting rod (1304) is matched with the adjacent rotating frame (5).

2. A cold-storage container for a thermostatic diagnostic reagent according to claim 1, wherein the distance between the side of the first housing (6) adjacent to the sealing plug (7) and the adjacent surface of the container body (1) is equal to the length of the third through hole of the limiting seat (1301).

3. The cold-stored box of holding of claim 1, further comprising an annular array of buffer mechanisms (14), wherein said buffer mechanisms (14) are used for protecting the diagnostic reagent in said adjacent second shell (8), said buffer mechanisms (14) are disposed in said adjacent rotating frames (5), said buffer mechanisms (14) comprise an annular array of second elastic elements (1405), said annular array of second elastic elements (1405) are respectively fixedly connected between said adjacent first shell (6) and said adjacent rotating frames (5), said first shell (6) is slidably connected with said adjacent rotating frames (5), and said rotating frames (5) are fixedly connected with third elastic elements (1406) between said adjacent supporting rings (11).

4. A cold-stored box that holds of constant temperature diagnostic reagent according to claim 3, characterized in that, pivot (3) fixedly connected with ring array's solid fixed ring (1401), gu fixed ring (1401) are located in box body (1), gu fixed ring (1401) are close to adjacent one side fixedly connected with gas storage shell (1402) of rotating turret (5), gas storage shell (1402) are close to adjacent one side sliding connection of rotating turret (5) has piston rod (1403), piston rod (1403) cooperates with adjacent first shell (6), one end fixedly connected with piston plate (1404) of piston rod (1403) keeping away from rotating turret (5), piston plate (1404) are adjacent gas storage shell (1402) sliding connection, just gas storage shell (1402) are filled with compressed medium with between adjacent piston plate (1404).

5. The cold-storage container for a constant temperature diagnostic reagent according to claim 4, wherein the vertical length of the air storage case (1402) is longer than the third through hole of the limit seat (1301), and a gap is left between the piston rod (1403) and the adjacent first case (6).

6. A cold-storage container for a thermostatic diagnostic reagent according to claim 4, further comprising an annular array of fastening members (15), wherein the annular array of fastening members (15) are mounted to adjacent first shells (6), respectively, and wherein the container body (1) is provided with an acceleration sensor (16), and wherein the acceleration sensor (16) and the fastening members (15) are electrically connected to the control panel (2).

7. The cold-stored container of claim 6, further comprising an ejector mechanism (17) for facilitating the taking and placing of the diagnostic reagent, wherein the ejector mechanism (17) is disposed in the box body (1), a cavity is disposed on a side of the sealing plug (7) away from the opening and closing frame (1302), the ejector mechanism (17) comprises a first rack (1701), the first rack (1701) is fixedly connected to a side of the box body (1) near the connecting rod (1304), the support ring (11) is slidably connected with a moving plate (1702), a second rack (1703) is fixedly connected to a side of the moving plate (1702) away from the second shell (8), a gear (1704) is rotatably connected to an end of the connecting rod (1304) near the second rack (1703), the gear (1704) is meshed with the first rack (1701), and the second rack (1704) is matched with the gear (1703).

8. A cold-storage container for a thermostatic diagnostic reagent according to claim 7, wherein the cavity of the sealing plug (7) is cylindrical and the diameter of the cavity of the sealing plug (7) is larger than the diameter of the diagnostic reagent, so as to ensure that the sealing plug (7) is not contacted with the diagnostic reagent during opening and closing.