CN114604507A

CN114604507A - Long-distance transportation equipment for keeping stem cell activity

Info

Publication number: CN114604507A
Application number: CN202210072303.9A
Authority: CN
Inventors: 兰大华; 苏哿; 石丽鹃; 李雪雪; 邓欢; 熊静康; 高蕾; 高力; 张�诚; 张曦
Original assignee: Second Affiliated Hospital Army Medical University
Current assignee: Second Affiliated Hospital Army Medical University
Priority date: 2022-01-21
Filing date: 2022-01-21
Publication date: 2022-06-10
Anticipated expiration: 2042-01-21
Also published as: CN114604507B

Abstract

The invention discloses long-distance transportation equipment for keeping stem cell activity, which comprises an insulation box main body, wherein an inner sleeve box is sleeved in the insulation box main body, a swinging structure is arranged in the inner sleeve box and comprises a bottom plate and a swinging plate, a storage structure is arranged on the swinging structure and comprises an ice box and a storage box, a covering layer is arranged above the storage structure, a blood bag is arranged in the storage box, a cavity is arranged in the inner sleeve box, and a plurality of separation cavities for placing the ice bag are arranged in the peripheral inner walls of the cavity. According to the invention, the blood bag filled with the stem cells is placed in the storage box for storage, so that the blood bag can be isolated from the ice bag, the stem cells are prevented from being inactivated, and meanwhile, the blood bag can shake through the arranged swing structure, so that blood coagulation is prevented, and the activity of the stem cells is further maintained.

Description

Long-distance transportation equipment for keeping stem cell activity

Technical Field

The invention belongs to the technical field of cell transportation devices, and particularly relates to long-distance transportation equipment for maintaining stem cell activity.

Background

Stem cells are a class of cells with unlimited self-renewal capacity that can produce at least one type of highly differentiated progeny cells that can repair tissue by constantly dividing in adult organs or are in a quiescent state as in mammalian brain tissue, and hematopoietic stem cell transplantation is a relatively efficient and desirable method for treating blood tumors such as leukemia, lymphoma, and myeloma. At present, the source of stem cells is mainly obtained by human donation, and the stem cells are matched with histocompatibility antigen genes of patients, so that the hematopoietic stem cells which are not rejected are not easy to reject and are limited by regions, and the donation position of the stem cells and the operation position of the patients are not always together, so that people are required to transport the stem cells donated in different places by using vehicles.

When the stem cells are transported for a long distance, a specially assigned person is generally dispatched to use the incubator to transport the stem cells, an ice bag needs to be filled in the incubator to cool down, so that the incubator is kept at a low temperature, and the ice bag needs to be wrapped by a cloth or a towel to prevent the blood bag from directly contacting with the ice bag to lose activity. Because people use different cloth or towel parcel modes, make the ice bag still probably expose from the parcel of towel, lead to the blood bag and ice bag contact and lead to the condition emergence of stem cell inactivation, simultaneously, in order to prevent that the stem cell that gathers from appearing the coagulation phenomenon, often will add the anticoagulant of certain proportion in the blood, and when carrying the transportation to the stem cell, the blood bag is in quiescent condition, makes the anticoagulant difficult evenly to mix in the blood, does not lead to the blood coagulation, makes the stem cell appear the inactivation phenomenon.

Disclosure of Invention

The present invention aims to provide a long-distance transportation device for maintaining the activity of stem cells, so as to solve the above problems of the prior art.

In order to achieve the purpose, the long-distance transportation equipment for keeping the stem cell activity comprises a thermal insulation box main body, wherein an inner sleeve box is sleeved inside the thermal insulation box main body, a swinging structure is arranged at the bottom position inside the inner sleeve box and comprises a bottom plate and a swinging plate, the middle part of the swinging plate is hinged to the top surface of the bottom plate, a storage structure is placed on the swinging structure and placed inside the inner sleeve box, the storage structure comprises an ice box and a plurality of storage boxes stored in the ice box, a covering layer is arranged above the storage structure, and blood bags are placed in the storage boxes.

According to the technical scheme, a cavity is formed in the inner sleeve box, the top end and the bottom end of the cavity are both of an opening structure, a plurality of separation cavities for placing ice bags are formed in the inner wall of the periphery of the cavity, and side grooves are formed in the inner walls of the front side and the rear side of the inner sleeve box.

In the technical scheme of the invention, hinged supports are arranged at the front and rear edges of the middle part of the top end of the bottom plate, a convex support is integrally formed at the middle part of the bottom end of the swinging plate and can be clamped between the two hinged supports, a hinged shaft is inserted and fixed in the convex support, and the two hinged supports are respectively penetrated through and rotatably connected with the two hinged supports at the two ends of the hinged shaft.

In the technical scheme of the invention, the front end of the hinge shaft penetrates through the inner walls of the inner sleeve box and the insulation box main body in sequence and then extends to the outer side of the insulation box main body, and a shifting handle is fixed at the end part of the front end of the hinge shaft.

According to the technical scheme, two symmetrical concave holes are formed in the left side and the right side of the top surface of the bottom plate, abutting springs are sleeved in the two concave holes, the top ends of the abutting springs protrude out of the concave holes and abut against the bottom surface of the swinging plate, and the abutting springs are in a pre-tightening state.

According to the technical scheme, a plurality of grooves are formed in the top surface of the ice box, a through cavity is formed in the groove bottom of each groove, through holes are formed in four corners of each groove, the ice box is hollow, a water injection end head is arranged on the side end face of the ice box, and the water injection end head is communicated with the inside of the ice box.

In the technical scheme of the invention, the storage box comprises a bottom box, a bearing seat sleeved in the bottom box and a box cover covering the top end of the bottom box, the blood bag is placed in the bearing seat, and the bottom box is sleeved in the through cavity.

In the technical scheme of the invention, the top of the bottom box is provided with a placing cavity, the peripheral edge of the top end of the bottom box is provided with a convex edge, the convex edge can be lapped at the groove bottom of the groove, and the bearing seat is sleeved in the placing cavity.

According to the technical scheme, a concave cavity is formed in the top end of the bearing seat, the blood bag is placed in the concave cavity, and convex columns are arranged at four corners of the top end of the bearing seat.

In the technical scheme of the invention, the four corners of the box cover are respectively provided with an insertion hole, when the box cover is arranged at the top end of the bearing seat, the convex column is inserted into the insertion hole, and the peripheral edges of the top surface of the box cover are respectively embedded with a poking belt.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the blood bag filled with the stem cells is placed in the storage box for storage, so that the blood bag can be isolated from the ice box in a frozen state and the ice bag placed in the separate cavity, and the blood bag is not required to be wrapped by a cloth or a towel, so that the condition that the stem cells are inactivated due to direct contact of the blood bag and the low-temperature ice bag is prevented.

2. According to the invention, through the swing structure arranged in the incubator main body and the storage structure filled with the blood bag arranged on the swing structure, when a transport worker takes a vehicle to transport the incubator main body, the shifting handle is intermittently shifted, so that the shifting handle drives the swing plate to swing, the placed blood bag can swing, and the blood bag oscillates, so that the anticoagulant and the blood in the blood bag can be uniformly mixed, the anticoagulation effect is achieved, and the activity of stem cells is further kept.

Drawings

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

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is a diagram of an inner jacket case according to the present invention;

FIG. 4 is an exploded view of the rocking structure of the present invention;

FIG. 5 is a structural view of a swing plate in the present invention;

FIG. 6 is a structural diagram of a storage structure according to the present invention;

FIG. 7 is a structural view of an ice bin according to the present invention;

FIG. 8 is an exploded view of the storage case of the present invention;

fig. 9 is a structural view of the box cover of the present invention.

Description of reference numerals:

1-a main body of the incubator; 2-inner sleeve box; 21-a cavity; 22-a cell; 23-side groove; 3-a rocking structure; 31-a base plate; 311-free bearing; 312-a concave hole; 313-an abutment spring; 32-a swing plate; 321-boss; 322-a hinge shaft; 323-a dial handle; 4-a storage structure; 41-an ice box; 411-grooves; 412-through cavity; 413-a through hole; 414-water injection end; 42-a storage box; 421-bottom box; 4211-placing cavity; 4212-convex edge; 422-a bearing seat; 4221-a cavity; 4222-boss; 423-box cover; 4231-a socket; 4232-pulling belt; 5-a capping layer; 6-blood bag.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Referring to fig. 1-9, the long-distance transportation equipment for keeping stem cell activity of the invention comprises an incubator main body 1, an inner casing 2 is sleeved inside the incubator main body 1, a swing structure 3 is arranged at the bottom position inside the inner casing 2, a storage structure 4 is arranged on the swing structure 3, a cover layer 5 is arranged above the storage structure 4, and a blood bag 6 is arranged in an ice box 41.

In the invention, the inner sleeve 2 is internally provided with the cavity 21, both ends of the top and the bottom of the cavity 21 are in an open structure, the inner wall of the periphery of the cavity 21 is provided with a plurality of separating cavities 22 for placing ice bags, and the frozen ice bags are placed in the separating cavities 22, so that the ice bags are limited and blocked at the periphery of the inner sleeve 2, the effect of cooling the interior of the insulation can main body 1 is achieved, meanwhile, the ice bags can be prevented from directly entering the cavity 21, and the condition that the blood bags 6 are directly contacted with the ice bags to cause inactivation is prevented. Side groove 23 has all been seted up on the front and back both sides inner wall of inner jacket case 2, makes people available hand from side groove 23 to dialling and make things convenient for store structure 4 and cover layer 5 to place store structure 4 and cover layer 5 in cavity 21 or take out from cavity 21.

Specifically, swing structure 3 includes bottom plate 31 and swing board 32, swing board 32's middle part is articulated to be connected on bottom plate 31's top surface, bottom plate 31 top middle part both sides edge all is provided with free bearing 311 around, swing board 32's bottom middle part integrated into one piece has boss 321, boss 321 can press from both sides and establish between two free bearings 311, peg graft and be fixed with hinge 322 in the boss 321, the both ends of hinge 322 run through two free bearings 311 respectively and all rotate with two free bearings 311 and be connected, it is articulated with bottom plate 31 to make swing board 32 pass through hinge 322, thereby make swing board 32 can drive storage structure 4 and carry out the left and right rocking, avoid the stem cell solidification in the blood bag 6.

Further, the front end of the hinge shaft 322 penetrates through the inner walls of the inner jacket box 2 and the insulation box main body 1 in sequence and then extends to the outer side of the insulation box main body 1, and a shifting handle 323 is fixed at the end position of the front end of the hinge shaft 322. When transport personnel is taking vehicle, the accessible is dialled handle 323 intermittently, makes and dials handle 323 and drives swing board 32 through hinge 322 and swing for place the blood bag 6 in storing structure 4 and rock, reach the purpose of shaking blood, thereby make anticoagulant and blood in the blood bag 6 can mix uniformly, thereby reach the anticoagulation, so that the stem cell keeps active.

In addition, two symmetrical concave holes 312 are formed in the left side and the right side of the top surface of the bottom plate 31, abutting springs 313 are sleeved in the two concave holes 312, the top ends of the abutting springs 313 protrude out of the concave holes 312 and abut against the bottom surface of the swinging plate 32, and the abutting springs 313 are in a pre-tightening state.

Under the action of the elastic force of the left and right abutting springs 313, the swinging plate 32 can be kept in a horizontal state when no external force acts, when a person stirs the shifting handle 323 to swing the swinging plate 32, the abutting springs 313 on one side of the bottom plate 31 are compressed, and the abutting springs 313 on the other side extend, so that when the shifting handle 323 is released, the swinging plate 32 can be restored to the horizontal state under the action of the abutting springs 313, and the blood bag 6 placed in the storage structure 4 can swing.

In the above scheme, the storage structure 4 includes the ice box 41 and a plurality of storage boxes 42 stored in the ice box 41, a plurality of grooves 411 have been seted up on the top surface of the ice box 41, the through cavity 412 has all been seted up at the tank bottom of each groove 411, the through holes 413 have all been seted up at four corners of the grooves 411, the ice box 41 is interior to be hollow, the side end face position of the ice box 41 is provided with the water injection end 414, the water injection end 414 communicates with the inside of the ice box 41. By injecting water for freezing from the water injection port 414 into the ice bank 41 and closing the water injection port 414, the ice bank 41 is frozen to freeze the water in the ice bank 41, so that the ice in the ice bank 41 can absorb heat from the thermal insulation box body 1 during melting, thereby achieving the purpose of maintaining the low temperature in the thermal insulation box body 1.

Specifically, the storage box 42 includes a bottom box 421, a supporting seat 422 sleeved inside the bottom box 421, and a box cover 423 covering the top end of the bottom box 421, and the blood bag 6 is placed in the supporting seat 422. The bottom box 421 is sleeved in the through cavity 412, the top of the bottom box 421 is provided with a placing cavity 4211, the peripheral edge of the top end of the bottom box 421 is provided with a convex edge 4212, and the convex edge 4212 can be lapped at the groove bottom of the groove 411, so that the storage box 42 can be placed on the ice box 41. The four corners of the protruding edge 4212 correspond to the positions of the four through holes 413, respectively, so that one can easily take the storage box 42 out of the ice bin 41 by going through the through holes 413.

Further, bearing seat 422 inlays and establishes the chamber bottom department of placing chamber 4211, and cavity 4221 has been seted up on the top of bearing seat 422, and blood bag 6 is placed in the inside of cavity 4221, and four corners on bearing seat 422 top all are provided with projection 4222. The four corners of the box cover 423 are provided with insertion holes 4231, when the box cover 423 covers the top end of the bearing seat 422, the convex columns 4222 are inserted into the insertion holes 4231, so that the bearing seat 422 and the box cover 423 are connected together through the convex columns 4222, and the situation that the box cover 423 is accidentally separated from the bearing seat 422 can be prevented. The edge all around of lid 423 top surface all inlays and is equipped with group area 4232, can upwards lift lid 423 through pulling upwards group area 4232 for lid 423 keeps away from bearing seat 422, reaches the purpose of taking off lid 423 from bearing seat 422, so that place blood bag 6 in cavity 4221 or will place the blood bag 6 in cavity 4221 outwards take out.

In addition, the covering layer 5 can be a towel or a piece of cloth, after the storage structure 4 with the blood bag 6 is placed on the swing structure 3, the storage structure 4 can be wrapped by the covering layer 5 by covering the covering layer 5 above the storage structure 4, and the effect of filling space can be achieved in the insulation box main body 1.

The working principle of the long-distance transportation equipment for maintaining the activity of the stem cells is as follows:

when the blood bag with stem cells is transported for a long distance, the blood bag 6 is put into the supporting seat 422 and the box cover 423 is closed, the convex column 4222 is inserted into the insertion hole 4231, the supporting seat 422 and the box cover 423 are connected together through the convex column 4222, then the storage box 42 is placed on the frozen ice box 41, the storage box 42 is sleeved in the through cavity 412 and is overlapped on the groove 411, the storage box 42 is installed in the ice box 41, finally the ice box 41 with the storage box 42 is horizontally placed on the swing structure 3, the storage structure 4 is covered with the covering layer 5 above the storage structure 4 after being surrounded by the inner suitcase 2, at this time, the frozen ice bag is placed into the separation cavity 22, can make the ice bag by the restriction individual edge all around that blocks including pouring jacket 2, can prevent that the ice bag is direct to be contacted with blood bag 6 when playing the effect of cooling down in the insulation can main part 1, prevent that the condition of stem cell inactivation from taking place.

Simultaneously, when transport personnel can stir dialling handle 323 intermittently, dial handle 323 and drive swing board 32 through hinge 322 and swing for place the blood bag 6 in storage structure 4 and rock, reach the purpose of shaking blood, thereby make the anticoagulant in the blood bag 6 and blood can mix uniformly, thereby reach the anticoagulation effect, so that the stem cell keeps the activity.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. An over-the-road transport equipment for keeping stem cell activity, which comprises an incubator main body (1), and is characterized in that: the inside cover of heat preservation box main part (1) is equipped with inner box (2), the inside bottom position department of inner box (2) is provided with sways structure (3), sway structure (3) including bottom plate (31) and swing board (32), the articulated connection of middle part of swing board (32) is on the top surface of bottom plate (31), it stores structure (4) to have placed on swaying structure (3), stores the inside of inner box (2) is placed in structure (4), store structure (4) including ice box (41) and accomodate a plurality of storage box (42) in ice box (41), the top of storing structure (4) is provided with and covers layer (5), blood bag (6) have been placed in storage box (42).

2. A long-distance transport device for preserving stem cell viability according to claim 1, wherein: the ice bag storage box is characterized in that a cavity (21) is formed in the inner sleeve box (2), both ends of the top and the bottom of the cavity (21) are of an open structure, a plurality of partition cavities (22) used for containing ice bags are formed in the inner wall of the periphery of the cavity (21), and side grooves (23) are formed in the inner walls of the front side and the rear side of the inner sleeve box (2).

3. A long-distance transport device for preserving stem cell viability according to claim 1, wherein: both sides edge all is provided with free bearing (311) around bottom plate (31) top middle part, the bottom middle part integrated into one piece of swing board (32) has boss (321), boss (321) can press from both sides and establish two between free bearing (311), peg graft and be fixed with hinge (322) in boss (321), the both ends of hinge (322) are respectively with two free bearing (311) run through and all with two free bearing (311) rotate and are connected.

4. A long-distance transport device for preserving stem cell viability according to claim 3, wherein: the front end of the hinge shaft (322) sequentially penetrates through the inner sleeve box (2) and the inner wall of the heat preservation box main body (1) and then extends to the outer side of the heat preservation box main body (1), and a shifting handle (323) is fixed at the end position of the front end of the hinge shaft (322).

5. A long-distance transport device for preserving stem cell viability according to claim 3, wherein: the left and right sides of bottom plate (31) top surface has seted up shrinkage pool (312) of two symmetries, two all the cover is equipped with butt spring (313) in shrinkage pool (312), the outstanding shrinkage pool (312) in top of butt spring (313) and with the bottom surface of swing board (32) offsets, butt spring (313) are the pretension state.

6. A long-distance transport device for preserving stem cell viability according to claim 1, wherein: a plurality of grooves (411) are formed in the top face of the ice box (41), a through cavity (412) is formed in the groove bottom of each groove (411), through holes (413) are formed in four corners of each groove (411), the ice box (41) is hollow, a water injection end head (414) is arranged on the side end face of the ice box (41), and the water injection end head (414) is communicated with the inside of the ice box (41).

7. The long-distance transport device for preserving stem cell viability of claim 6, wherein: the storage box (42) comprises a bottom box (421), a bearing seat (422) and a cover which are arranged inside the bottom box (421) are arranged on the box cover (423) on the top end of the bottom box (421), the blood bag (6) is arranged in the bearing seat (422), and the bottom box (421) is arranged in the through cavity (412).

8. The long-distance transport device for preserving stem cell viability of claim 7, wherein: the top of end box (421) has been seted up and has been placed chamber (4211), the peripheral edge on end box (421) top is equipped with protruding edge (4212), protruding edge (4212) can the overlap joint in the tank bottom department of recess (411), bearing seat (422) cover is established place the inside in chamber (4211).

9. A long-distance transport device for preserving stem cell viability according to claim 8, wherein: concave cavity (4221) have been seted up on the top of support seat (422), blood bag (6) are placed the inside of concave cavity (4221), four corners on support seat (422) top all are provided with projection (4222).

10. A long-distance transport device for preserving stem cell viability according to claim 9, wherein: jack (4231) have all been seted up at four corners of lid (423), and when lid (423) lid was established when the top of bearing seat (422), convex column (4222) inserted in jack (4231), all inlay at the edge all around of lid (423) top surface and be equipped with group area (4232).