CN114604507B - Long-distance transport equipment for keeping activity of stem cells - Google Patents

Abstract

The invention discloses long-distance transport equipment for keeping the activity of stem cells, 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, blood bags are arranged in the storage box, a cavity is formed in the inner sleeve box, and a plurality of separation cavities for placing the ice bags are formed in the inner walls around 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 occurrence of the inactivation of the stem cells is prevented, and meanwhile, the blood bag can shake through the arranged swinging structure, the blood coagulation is prevented, and the activity of the stem cells is further maintained.

Description

Long-distance transport equipment for keeping activity of stem cells

Technical Field

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

Background

Stem cells are a class of cells with unlimited self-renewing capacity that are capable of producing at least one type of highly differentiated daughter cells that can repair tissue by undergoing division in adult organs, or are in a quiescent state as in mammalian brain tissue, hematopoietic stem cell transplantation techniques are a more efficient and desirable method of treating hematological tumors such as leukemia, lymphoma, and myeloma. At present, the source of the stem cells is mainly obtained by donation of people, but the stem cells which are matched with the histocompatibility antigen genes of patients and are not rejected are not easy to search, and are limited by regions, and the donation positions of the stem cells and the operation positions of the patients are not usually together, so that people are required to transport the stem cells donated in different places by using a transportation means.

When the stem cells are transported for a long distance, a specially-sent person usually uses an insulation box to transport the stem cells, and the insulation box needs to be filled with ice bags for cooling, so that the insulation box is kept in a low-temperature state, and the ice bags need to be wrapped by cloth or towel to prevent the blood bags from being directly contacted with the ice bags to lose activity. Because people use cloth or towel to wrap up the mode differently for the ice bag still can expose from the parcel of towel, leads to the blood bag to contact with the ice bag and leads to the condition of stem cell inactivation to take place, simultaneously, in order to prevent that the stem cell of gathering from appearing the solidification phenomenon, generally can add the anticoagulant of a certain proportion in blood, and when transporting the stem cell, the blood bag is in resting state, makes the anticoagulant be difficult to mix in blood uniformly, does not lead to blood coagulation, makes the stem cell appear inactivating the phenomenon.

Disclosure of Invention

The present invention aims to provide a long-distance transport device for maintaining the activity of stem cells, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the invention provides long-distance transport 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 at the bottom position in the inner sleeve box, the swinging structure 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, the storage structure is placed in the inner sleeve box, the storage structure comprises an ice box and a plurality of storage boxes accommodated in the ice box, a covering layer is arranged above the storage structure, and blood bags are placed in the storage boxes.

In the technical scheme of the invention, a cavity is formed in the inner sleeve box, both ends of the top and the bottom of the cavity are of an opening structure, a plurality of separation cavities for placing ice bags are formed in the inner walls 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, the front side edge and the rear side edge of the middle part of the top end of the bottom plate are respectively provided with a hinged seat, the middle part of the bottom end of the swinging plate is integrally formed with a convex seat, the convex seat can be clamped between the two hinged seats, a hinged shaft is inserted and fixed in the convex seat, and the two ends of the hinged shaft respectively penetrate through the two hinged seats and are rotationally connected with the two hinged seats.

In the technical scheme of the invention, the front end of the hinge shaft sequentially penetrates through the inner sleeve box and the inner wall of the insulation box main body 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.

In the technical scheme of the invention, two symmetrical concave holes are formed in the left side and the right side of the top surface of the bottom plate, two abutting springs are sleeved in the 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.

In the technical scheme of the invention, a plurality of grooves are formed in the top surface of the ice box, through cavities are formed in the bottoms of the grooves, through holes are formed in the four corners of the grooves, the ice box is hollow, water injection ends are arranged at the side end surface positions of the ice box, and the water injection ends are communicated with the interior 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 covered at the top end of the bottom box, wherein the blood bag is used for being placed in the bearing seat, and the bottom box is sleeved in the through cavity.

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

In the technical scheme of the invention, 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 a jack, when the box cover is arranged at the top end of the bearing seat, the convex columns are inserted into the jacks, 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 beneficial effects of the invention are as follows:

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

2. According to the invention, through the swinging structure arranged in the incubator main body and the storage structure filled with the blood bags is placed on the swinging structure, when a transport person takes a transport means to transport the incubator main body, the stirring handle is intermittently stirred, so that the stirring handle drives the swinging plate to swing, the placed blood bags can swing, the blood bags are enabled to oscillate, the anticoagulant in the blood bags and the blood can be uniformly mixed, the anticoagulation effect is achieved, and the activity of stem cells is further maintained.

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 view of the inner jacket of the present invention;

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

FIG. 5 is a block diagram of a wobble plate according to the present invention;

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

FIG. 7 is a structural view of an ice bank 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 cap of the present invention.

Reference numerals illustrate:

1-an incubator body; 2-an inner sleeve box; 21-a cavity; 22-compartment; 23-side grooves; 3-a rocking structure; 31-a bottom plate; 311-a hinged support; 312-concave holes; 313-abutment spring; 32-swinging plates; 321-convex seats; 322-hinge shaft; 323-a shifter handle; 4-a storage structure; 41-an ice bin; 411-groove; 412-through cavity; 413-a through hole; 414-water injection end; 42-a storage box; 421-bottom box; 4211—a placement lumen; 4212-projecting edge; 422-a support bracket; 4221-cavities; 4222-a post; 423-box cover; 4231-a jack; 4232-pulling tape; 5-covering layer; 6-blood bag.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

Referring to fig. 1 to 9, the long-distance transport device for maintaining stem cell activity of the present invention includes an insulation box main body 1, an inner jacket box 2 is sleeved inside the insulation box main body 1, a swing structure 3 is disposed at a bottom position inside the inner jacket box 2, a storage structure 4 is disposed on the swing structure 3, a covering layer 5 is disposed above the storage structure 4, and a blood bag 6 is disposed in an ice box 41.

In the invention, the inner jacket box 2 is internally provided with the cavity 21, both ends of the top and bottom of the cavity 21 are both in an opening structure, the inner walls of the periphery of the cavity 21 are respectively provided with a plurality of separation cavities 22 for placing ice bags, and the frozen ice bags are placed in the separation cavities 22, so that the ice bags are limited and blocked at the periphery edge of the inner jacket box 2, the effect of cooling the inside of the insulation box main body 1 is achieved, meanwhile, the ice bags can be prevented from directly entering the cavity 21, and the situation that the blood bags 6 are deactivated due to direct contact with the ice bags is prevented. Side grooves 23 are formed in the inner walls of the front and rear sides of the inner case 2, so that a person can use hands to tamper with the storage structure 4 and the covering layer 5 from the side grooves 23 to place the storage structure 4 and the covering layer 5 into the cavity 21 or take them out of the cavity 21.

Specifically, swing structure 3 includes bottom plate 31 and swing board 32, swing board 32's middle part articulates and connects on bottom plate 31's top surface, bottom plate 31 top middle part front and back both sides edge all is provided with hinge support 311, 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 hinge supports 311, peg graft in the boss 321 and be fixed with hinge 322, hinge 322's both ends respectively with two hinge supports 311 run through and all with two hinge supports 311 rotation connection, make swing board 32 pass through hinge 322 and bottom plate 31 articulated, thereby make swing board 32 can drive storage structure 4 and carry out the side-to-side swing, avoid the stem cell solidification in the blood bag 6.

Further, the front end of the hinge shaft 322 sequentially penetrates through the inner walls of the inner box 2 and the insulation box main body 1 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 a transportation person takes a transportation means, the shifting handle 323 can be intermittently shifted, so that the shifting handle 323 drives the swinging plate 32 to swing through the hinge shaft 322, the blood bag 6 placed in the storage structure 4 swings, the purpose of blood vibration is achieved, and the anticoagulant and the blood in the blood bag 6 can be uniformly mixed, and the anticoagulation effect is achieved, so that stem cells keep active.

In addition, two symmetrical concave holes 312 are formed on the left and right sides of the top surface of the bottom plate 31, an abutting spring 313 is sleeved in each concave hole 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 abutting springs 313 on the left side and the right side, the swing plate 32 can be kept in a horizontal state when no external force acts, when people toggle the shifting handle 323 to swing the swing plate 32, the abutting springs 313 on one side of the bottom plate 31 are compressed, the abutting springs 313 on the other side are extended, so that when people loosen the shifting handle 323, the swing plate 32 can return to the horizontal state under the action of the abutting springs 313, and the blood bag 6 placed in the storage structure 4 is vibrated.

In the above scheme, the storage structure 4 includes ice box 41 and a plurality of storage boxes 42 of accomodating in ice box 41, has seted up a plurality of recesses 411 on the top surface of ice box 41, and logical chamber 412 has all been seted up to the tank bottom department of every recess 411, and through-hole 413 has all been seted up at four corners of recess 411, is the cavity form in the ice box 41, and the side terminal surface position department of ice box 41 is provided with water injection end 414, water injection end 414 communicates with the inside of ice box 41. By injecting the water dedicated for freezing into the ice box 41 from the water injection end 414 and freezing the ice box 41 after closing the water injection end 414, the water in the ice box 41 is frozen, and the ice in the ice box 41 can absorb the heat in the heat insulation box main body 1 when melting, thereby achieving the purpose of keeping the low temperature in the heat insulation box main body 1.

Specifically, the storage box 42 includes a bottom box 421, a support seat 422 sleeved inside the bottom box 421, and a box cover 423 covered on the top end of the bottom box 421, where the blood bag 6 is placed in the support seat 422. The bottom box 421 is sleeved in the through cavity 412, the top of the bottom box 421 is provided with a placement 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 bottom of the groove 411, so that the storage box 42 can be placed on the ice box 41. The four corners of the flange 4212 correspond to the positions of the four through holes 413, respectively, so that one can conveniently take out the storage case 42 from the ice bank 41 by taking out the storage case from the through holes 413.

Further, the support base 422 is embedded at the bottom of the placement cavity 4211, the top end of the support base 422 is provided with a concave cavity 4221, the blood bag 6 is placed in the concave cavity 4221, and four corners of the top end of the support base 422 are provided with convex columns 4222. The four corners of the box cover 423 are provided with the jacks 4231, when the box cover 423 is covered on the top end of the bearing seat 422, the convex columns 4222 are inserted into the jacks 4231, so that the bearing seat 422 and the box cover 423 are connected together through the convex columns 4222, and the box cover 423 can be prevented from being separated from the bearing seat 422 accidentally. The peripheral edges of the top surface of the cover 423 are embedded with the pulling belt 4232, and the cover 423 can be lifted upwards by pulling the pulling belt 4232 upwards, so that the cover 423 is far away from the bearing seat 422, the purpose of taking the cover 423 off the bearing seat 422 is achieved, and the blood bag 6 is placed in the concave cavity 4221 or the blood bag 6 placed in the concave cavity 4221 is taken out outwards.

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

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

when the long-distance transportation of the blood bag filled with the stem cells is required, firstly, the blood bag 6 is put into the bearing seat 422 and the box cover 423 is closed, the convex column 4222 is inserted into the insertion hole 4231, at the moment, the bearing 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 lapped on the groove 411, the storage box 42 is installed in the ice box 41, finally, the ice box 41 filled with the storage box 42 is horizontally placed on the swinging structure 3, the storage structure 4 is surrounded by the inner sleeve box 2, the covering layer 5 is covered above the storage structure 4, at the moment, the frozen ice bag is put into the separation cavity 22, the ice bag is limited to be blocked at the peripheral edge of the inner sleeve box 2, the cooling effect on the inside of the heat preservation box main body 1 is achieved, meanwhile, the ice bag is prevented from being directly contacted with the blood bag 6, and the inactivation of the stem cells is prevented.

Meanwhile, when a transport person can intermittently stir the stirring handle 323, the stirring handle 323 drives the swinging plate 32 to swing through the hinge shaft 322, so that the blood bag 6 placed in the storage structure 4 swings, the purpose of shaking blood is achieved, the anticoagulant in the blood bag 6 and the blood can be uniformly mixed, and the anticoagulation effect is achieved, so that stem cells keep active.

The foregoing descriptions of specific exemplary embodiments of the present invention are 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 the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various 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 (5)

1. Long-distance transport equipment for keeping stem cells active comprises an incubator main body (1), and is characterized in that: the inside cover of insulation can main part (1) is equipped with inner box (2), the inside bottom position department of inner box (2) is provided with swing structure (3), swing structure (3) include bottom plate (31) and swing board (32), swing board (32) the middle part articulated connect on the top surface of bottom plate (31), storage structure (4) have been placed on swing structure (3), the inside of inner box (2) has been placed to storage structure (4), storage structure (4) include ice box (41) and accomodate a plurality of bin (42) in ice box (41), the top of storage structure (4) is provided with covering layer (5), place blood bag (6) in bin (42), a plurality of recess (411) have been seted up on the top surface of ice box (41), through-hole (413) have all been seted up in four corners of recess (411), be in ice box (41) and be in cavity form bin (41) and accomodate a plurality of bin (42), the top of ice box (41) are located water injection end (41), water injection end (41) are located in the end (41) and are located, water injection end (41) and are located at the end (41) The cover is established support seat (422) and lid inside end box (421) are established lid (423) on end box (421) top, blood bag (6) are used for placing in support seat (422), end box (421) cover is established in logical chamber (412), place chamber (4211) have been seted up at the top of end box (421), peripheral edge on end box (421) top is equipped with protruding edge (4212), protruding edge (4212) can overlap joint in the tank bottom department of recess (411), support seat (422) cover is established place the inside in chamber (4211), cavity (4221) have been seted up on the top of support seat (422), blood bag (6) are placed the inside of cavity (4221), four corners on support seat (422) top all are provided with projection (4222), jack (4231) have all been seted up at four corners of lid (423), when lid (423) are established the top is covered in place in support seat (422) projection (423) edge (4232) are all set up around in the jack (4232).

2. The long haul apparatus for maintaining stem cell viability of claim 1, wherein: the ice bag inner sleeve 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 opening structure, a plurality of separation cavities (22) for placing the ice bag are formed in the inner walls 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. The long haul apparatus for maintaining stem cell viability of claim 1, wherein: the novel hinge plate is characterized in that hinge bases (311) are arranged at the edges of the front side and the rear side of the middle of the top end of the bottom plate (31), a boss (321) is integrally formed in the middle of the bottom end of the swing plate (32), the boss (321) can be clamped between the two hinge bases (311), a hinge shaft (322) is inserted and fixed in the boss (321), and the two ends of the hinge shaft (322) penetrate the two hinge bases (311) respectively and are rotationally connected with the two hinge bases (311).

4. A long haul apparatus for maintaining 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 insulation box main body (1) and then extends to the outer side of the insulation box main body (1), and a shifting handle (323) is fixed at the end part of the front end of the hinge shaft (322).

5. A long haul apparatus for maintaining stem cell viability according to claim 3, wherein: 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 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.