CN214453562U - Stem cell storage device - Google Patents

Abstract

The utility model provides a stem cell storage device belongs to stem cell and preserves technical field for it is poor to solve stem cell and preserve the effect, by the problem of frostbite when can not preventing user's access stem cell. The storage rack comprises a tank cover, a tank body and a storage rack, wherein the tank cover is in threaded connection with the tank body, a plurality of buffering support legs are arranged at the lower end of the tank body, casters with brakes are arranged at the end parts of the buffering support legs, a mounting plate and a partition plate are fixed inside the tank body, the tank body is divided into a refrigerating chamber and a working chamber by the partition plate, a plurality of mounting grooves are formed in the mounting plate, clamping grooves are formed in the mounting grooves, the storage rack is arranged on the mounting grooves in a sliding manner, a temperature sensor is arranged on the lower side of the mounting plate, a refrigerating mechanism is arranged inside the tank body, and a control box is arranged inside the working chamber; this stem cell storage device makes during air conditioning evenly distributed to the walk-in, cools off fast to whole walk-in, has avoided the user to be frostbitten when access stem cell to effectively prevent losing and disappearing of air conditioning, prevent that stem cell from causing the damage, improved stem cell's storage quality.

Description

Stem cell storage device

Technical Field

The utility model belongs to the technical field of the stem cell is preserved, a stem cell storage device is related to.

Background

Stem cells are a type of pluripotent cells that have the ability to self-replicate. Under certain conditions, it can differentiate into a variety of functional cells. The stem cells are divided into embryonic stem cells and adult stem cells according to the development stage of the stem cells. The stem cells are classified into three categories according to their developmental potential: totipotent, pluripotent and unipotent stem cells. Stem cells are insufficiently differentiated and immature cells, have potential functions of regenerating various tissues, organs and human bodies, and are called universal cells in the medical field.

At present, to stem cell's storage, can not carry out good cold-stored processing to stem cell in the whole cavity, influence stem cell's storage period, cause the stem cell to damage, influence the use, when taking stem cell, the user can be frostbitten by low temperature, and cold air can scatter and disappear in the jar simultaneously, makes its inside temperature rise, and the preservation effect is poor.

Therefore, a storage device is designed to effectively preserve stem cells and prevent a user from being frozen during storage and retrieval.

SUMMERY OF THE UTILITY MODEL

The utility model aims at having the above-mentioned problem to current technique, provided a stem cell storage device, the technical problem that the device will solve is: how to effectively preserve stem cells and can prevent a user from being frostbitten when the user accesses the stem cells.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides a stem cell storage device, including the cover, a jar body and storage frame, cover and a jar body threaded connection, jar body side is equipped with the display screen, jar body lower extreme is equipped with a plurality of buffering landing legs, buffering landing leg tip is equipped with the area caster of stopping, a plurality of radiating grooves have been seted up to jar body side, jar internal portion is fixed with mounting panel and baffle, the mounting panel is located the baffle top, the baffle divide into walk-in and studio with jar body, be equipped with the heat preservation on the walk-in inner wall, a plurality of mounting grooves have been seted up on the mounting panel, the draw-in groove has been seted up on the mounting groove, the storage frame slides and sets up on the mounting groove, the mounting panel downside is equipped with temperature sensor, jar internal portion is provided with refrigeration mechanism, the studio is inside is equipped with the control box, the control box respectively with display screen and temperature sensor electric connection.

Buffering landing leg includes first supporting leg and second supporting leg, and first supporting leg is fixed at jar body lower extreme, has seted up the dashpot on the first supporting leg, and the inside buffer spring that is equipped with of dashpot, second supporting leg slide to set up on first supporting leg, and second supporting leg end fixing is on the universal caster of stopping in the area, and the buffer spring both ends are contradicted respectively on first supporting leg and second supporting leg.

Structure more than adopting, when the transport jar body, can vibrate the production, first supporting leg motion makes the second supporting leg slide on first supporting leg, and compression buffer spring cushions the jar body, prevents to damage the test tube that is equipped with stem cell.

The storage frame comprises a second circular plate, two symmetrical arc-shaped plates are fixed to the upper end of the second circular plate, a first circular plate is fixed to the end portions of the two arc-shaped plates, a handle is fixed to the upper end of the first circular plate, symmetrical clamping blocks are fixed to the side ends of the first circular plate, the clamping blocks are arranged on the clamping grooves in a sliding mode, a plurality of placing plates are fixed between the two arc-shaped plates, a plurality of placing grooves are formed in the placing plates, and rubber pads are arranged on the placing grooves.

Structure more than adopting, adorn stem cell in the test tube, insert the standing groove, the rubber pad prevents that the test tube from sliding, mentions the storage frame through the handle, makes the fixture block aim at the draw-in groove, will store the frame and insert the walk-in from the mounting groove, and rotatory handle makes the fixture block joint in the draw-in groove, effectively fixed.

The refrigerating mechanism comprises a refrigerator and a cooling pipe, the refrigerator is fixed in the working chamber, the air outlet end of the refrigerator is provided with the refrigerating pipe, the cooling pipe is fixed on the partition plate, the cooling pipe is provided with a plurality of round holes, the refrigerating pipe is connected with the cooling pipe, and the control box is electrically connected with the refrigerator.

By adopting the structure, the control box controls the refrigerator to be started, and the cold air enters the cold dissipation pipe through the refrigeration pipe and is uniformly distributed in the refrigerating chamber from the round hole.

The tank cover, the tank body, the mounting plate and the partition plate are all made of stainless steel.

By adopting the structure, the stainless steel material can be anticorrosive and rustproof, the weight is light, and the cost is low.

Compared with the prior art, the stem cell storage device has the following advantages:

1. the stem cells are convenient to store and take out through the matching of the mounting plate and the storage rack, so that frostbite caused when a user takes the stem cells is effectively prevented, and the loss of cold air can be effectively prevented when the stem cells are stored and taken out;

2. through the cooperation of the temperature sensor, the refrigeration mechanism, the control box and the partition plate, cold air can be uniformly distributed in the refrigerating chamber to rapidly cool the whole refrigerating chamber, so that stem cells are prevented from being damaged due to overhigh temperature, and the storage quality of the stem cells is improved;

3. through the cooperation of jar body and buffering landing leg, when the transport jar body, cushion it, prevent to cause the damage to the test tube that has stem cell.

Drawings

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

fig. 2 is a schematic sectional structure of the present invention;

FIG. 3 is a schematic perspective view of a storage rack of the present invention;

fig. 4 is a schematic sectional view of the buffering leg according to the present invention;

in the figure: 1-tank cover, 101-tank body, 102-heat dissipation groove, 103-display screen, 104-heat preservation layer, 2-buffer support leg, 201-first support leg, 202-buffer spring, 203-buffer groove, 204-second support leg, 3-caster with brake, 4-mounting plate, 401-mounting groove, 5-temperature sensor, 6-storage rack, 601-arc plate, 602-placing plate, 603-handle, 604-fixture block, 605-first circular plate, 606-second circular plate, 607-placing groove, 608-rubber pad, 7-refrigeration mechanism, 701-refrigerator, 702-refrigeration pipe, 703-cold dissipation pipe, 704-round hole, 8-control box and 9-partition plate.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1 to 4, the present embodiment provides a stem cell storage device, including a can lid 1, jar body 101 and storage frame 6, cover 1 and jar body 101 threaded connection, jar body 101 side is equipped with display screen 103, jar body 101 lower extreme is equipped with a plurality of buffering landing legs 2, 2 tip of buffering landing leg are equipped with the area and stop universal caster 3, a plurality of radiating groove 102 have been seted up to jar body 101 side, jar body 101 is inside to be fixed with mounting panel 4 and baffle 9, mounting panel 4 is located baffle 9 top, baffle 9 divide into walk-in room and studio with jar body 101, be equipped with heat preservation 104 on the walk-in room inner wall, a plurality of mounting grooves 401 have been seted up on mounting panel 4, the draw-in groove has been seted up on mounting groove 401, storage frame 6 slides and sets up on mounting groove 401, mounting panel 4 downside is equipped with temperature sensor 5, jar body 101 is inside to be provided with refrigeration mechanism 7, the studio is inside to be equipped with control box 8, control box 8 respectively with display screen 103 and temperature sensor 5 electric connection.

The buffer support leg 2 comprises a first support leg 201 and a second support leg 204, the first support leg 201 is fixed at the lower end of the tank body 101, a buffer groove 203 is formed in the first support leg 201, a buffer spring 202 is arranged in the buffer groove 203, the second support leg 204 is arranged on the first support leg 201 in a sliding mode, the end portion of the second support leg 204 is fixed on the universal caster 3 with a brake, and two ends of the buffer spring 202 respectively abut against the first support leg 201 and the second support leg 204; when the tank 101 is transported, vibration is generated, the first support leg 201 moves, the second support leg 204 slides on the first support leg 201, the buffer spring 202 is compressed, and the tank 101 is buffered to prevent the test tube containing stem cells from being damaged.

The storage rack 6 comprises a second circular plate 606, two symmetrical arc-shaped plates 601 are fixed at the upper end of the second circular plate 606, a first circular plate 605 is fixed at the end parts of the two arc-shaped plates 601, a handle 603 is fixed at the upper end of the first circular plate 605, symmetrical clamping blocks 604 are fixed at the side end of the first circular plate 605, the clamping blocks 604 are arranged on the clamping grooves in a sliding manner, a plurality of placing plates 602 are fixed between the two arc-shaped plates 601, a plurality of placing grooves 607 are formed in the placing plates 602, and rubber pads 608 are arranged on the placing grooves 607; with stem cell dress in the test tube, insert in standing groove 607, rubber pad 608 prevents that the test tube from sliding, lifts up storage rack 6 through handle 603, makes fixture block 604 aim at the draw-in groove, inserts storage rack 6 from mounting groove 401 in the walk-in, and rotatory handle 603 makes fixture block 604 joint in the draw-in groove, effectively fixed.

The refrigerating mechanism 7 comprises a refrigerator 701 and a cold dissipation pipe 703, the refrigerator 701 is fixed in the working chamber, a refrigerating pipe 702 is arranged at the air outlet end of the refrigerator 701, the cold dissipation pipe 703 is fixed on the partition board 9, a plurality of round holes 704 are formed in the cold dissipation pipe 703, the refrigerating pipe 702 is connected with the cold dissipation pipe 703, and the control box 8 is electrically connected with the refrigerator 701; the refrigerator 701 is controlled to start by the control box 8, and cold air enters the cold dissipation pipe 703 through the cold dissipation pipe 702 and is uniformly distributed into the refrigerating chamber from the circular hole 704.

The tank cover 1, the tank body 101, the mounting plate 4 and the partition plate 9 are all made of stainless steel; the stainless steel material can be anticorrosive and rustproof, and has light weight and low cost.

In this embodiment, the fixing manners are all the most commonly used fixing and connecting manners in the field, such as welding and the like; the above electrical components such as the display screen 103 are all prior art products, and can be directly purchased and used in the market, and the detailed description is omitted.

The utility model discloses a theory of operation: the device is electrically connected with an external power supply, a user installs stem cells in a test tube and inserts the stem cells into a placing groove 607, a rubber pad 608 prevents the test tube from sliding, the storage rack 6 is lifted by a handle 603 to align a clamping block 604 with a clamping groove, the storage rack 6 is inserted into a refrigerating chamber from a mounting groove 401, the handle 603 is rotated to clamp the clamping block 604 in the clamping groove, the operation is carried out on a display screen 103, a refrigerator 701 is controlled to start by a control box 8, cold air enters a cooling pipe 703 through a cooling pipe 702 and is uniformly distributed in the refrigerating chamber from a round hole 704 to effectively refrigerate the stem cells, a temperature sensor 5 monitors the internal temperature of the refrigerating chamber, when the stem cells need to be taken out, the placing plate 602 is moved to the upper surface of a mounting plate 4 to conveniently take the stem cells, frostbite when the user takes the stem cells out is prevented, the dissipation of the cold air is prevented, when the tank body 101 is carried, vibration is generated, the first supporting leg 201 moves, make second supporting leg 204 slide on first supporting leg 201, compress buffer spring 202, cushion jar body 101, prevent to damage the test tube that is equipped with stem cell.

In conclusion, the stem cells are convenient to store and take out through the matching of the mounting plate 4 and the storage rack 6, the frostbite caused when a user takes the stem cells is effectively prevented, and the dissipation of cold air can be effectively prevented when the stem cells are stored and taken out; through the matching of the temperature sensor 5, the refrigerating mechanism 7, the control box 8 and the partition plate 9, cold air can be uniformly distributed in the refrigerating chamber to rapidly cool the whole refrigerating chamber, stem cells are prevented from being damaged due to overhigh temperature, and the storage quality of the stem cells is improved; through the cooperation of jar body 101 and buffering landing leg 2, when carrying jar body 101, cushion it, prevent to cause the damage to the test tube that has stem cell.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (5)

1. A stem cell storage device comprises a tank cover (1), a tank body (101) and a storage rack (6), and is characterized in that the tank cover (1) is in threaded connection with the tank body (101), a display screen (103) is arranged at the side end of the tank body (101), a plurality of buffering support legs (2) are arranged at the lower end of the tank body (101), casters (3) with brakes are arranged at the end parts of the buffering support legs (2), a plurality of radiating grooves (102) are formed at the side end of the tank body (101), a mounting plate (4) and a partition plate (9) are fixed inside the tank body (101), the mounting plate (4) is positioned above the partition plate (9), the partition plate (9) divides the tank body (101) into a refrigerating chamber and a working chamber, a heat preservation layer (104) is arranged on the inner wall of the refrigerating chamber, a plurality of mounting grooves (401) are formed in the mounting plate (4), clamping grooves are formed in the mounting groove (401), and the storage rack (6) is arranged on the mounting groove (401) in a sliding manner, temperature sensor (5) are equipped with to mounting panel (4) downside, and jar body (101) are inside to be provided with refrigeration mechanism (7), and the studio is inside to be equipped with control box (8), and control box (8) respectively with display screen (103) and temperature sensor (5) electric connection.

2. The stem cell storage device as claimed in claim 1, wherein the buffer leg (2) comprises a first support leg (201) and a second support leg (204), the first support leg (201) is fixed at the lower end of the tank body (101), a buffer groove (203) is formed in the first support leg (201), a buffer spring (202) is arranged in the buffer groove (203), the second support leg (204) is slidably arranged on the first support leg (201), the end of the second support leg (204) is fixed on the universal caster (3) with a brake, and two ends of the buffer spring (202) respectively abut against the first support leg (201) and the second support leg (204).

3. The stem cell storage device according to claim 1, wherein the storage rack (6) comprises a second circular plate (606), two symmetrical arc-shaped plates (601) are fixed at the upper end of the second circular plate (606), a first circular plate (605) is fixed at the end parts of the two arc-shaped plates (601), a handle (603) is fixed at the upper end of the first circular plate (605), symmetrical clamping blocks (604) are fixed at the side end of the first circular plate (605), the clamping blocks (604) are slidably arranged on the clamping grooves, a plurality of placing plates (602) are fixed between the two arc-shaped plates (601), a plurality of placing grooves (607) are formed in the placing plates (602), and rubber pads (608) are arranged on the placing grooves (607).

4. The stem cell storage device according to claim 1, wherein the refrigerating mechanism (7) comprises a refrigerator (701) and a cooling pipe (703), the refrigerator (701) is fixed inside the working chamber, the air outlet end of the refrigerator (701) is provided with a refrigerating pipe (702), the cooling pipe (703) is fixed on the partition plate (9), the cooling pipe (703) is provided with a plurality of round holes (704), the refrigerating pipe (702) is connected with the cooling pipe (703), and the control box (8) is electrically connected with the refrigerator (701).

5. A stem cell storage device as claimed in claim 1 or 2, wherein the materials of the lid (1), the body (101), the mounting plate (4) and the partition (9) are stainless steel.

Images