CN217731131U - Blood collection tube refrigeration transport box - Google Patents

Abstract

The utility model provides a blood sampling tube cold-stored transportation box, include: a box body, box body open-top, opening part are equipped with the roof that is used for switching it through locking Assembly detachably, the box body inner wall is equipped with the inductor that is used for measuring the internal temperature of box, the box body outer wall is equipped with the display that is used for showing the internal temperature of box, the bottom of roof is provided with a plurality of barrels of placing, places the open-top of a barrel, and the top of placing a barrel and the top of roof are located the coplanar, are used for depositing the water in the box body, the box body lateral wall is equipped with puts into the material subassembly of throwing of the internal ammonium nitrate of box, the roof top still is equipped with and is used for carrying out the stirring subassembly that stirs to the water in the box body, and it has solved the heparin tube that exists among the prior art and has used the ice-cube cooling, is difficult to the problem of cooling many times.

Description

Blood collection tube refrigeration transport box

Technical Field

The utility model relates to a blood transportation technical field especially relates to a heparin tube cold-stored transportation box.

Background

After blood (blood specimen) is collected in the blood sampling tube, the blood (blood specimen) needs to be put into a cold storage environment for storage as soon as possible, and cold chain transportation is carried out in the whole process so as to ensure the blood quality.

Medical institution is when involving blood sample treatment, often can not detect the very first time, need wait for or transport, the unable preceding storage condition of detection that satisfies blood sample completely of conventional storage box, can't guarantee blood quality, it is great to lead to testing result and actual deviation, be unfavorable for sample test result analysis, and the transport of transport case implementation with the help of vehicles such as cars of the blood of present main adoption splendid attire, blood case transport is bulky, must add refrigeration such as ice-cube, because of cost, generally be used for big batch sample transport, the check-out time has been prolonged, and the ice-cube can slowly rise after melting, can't lower the temperature once more, the degree of accuracy of sample analysis has further been influenced.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model provides a heparin tube cold-stored transportation box, it has solved the heparin tube that exists among the prior art and has used the ice-cube cooling, is difficult to the problem of a lot of cooling.

According to the utility model discloses an embodiment, a blood sampling tube refrigeration transport box, it includes: a box body, box body open-top, opening part are equipped with the roof that is used for switching it through locking Assembly detachably, the box body inner wall is equipped with the inductor that is used for measuring the internal temperature of box, the box body outer wall is equipped with the display that is used for showing the internal temperature of box, the bottom of roof is provided with a plurality of barrels of placing, places the open-top of a barrel, and the top of placing a barrel and the top of roof are located the coplanar, are used for depositing the water in the box body, the box body lateral wall is equipped with the material subassembly of throwing that drops into the box body with the ammonium nitrate, the roof top still is equipped with the stirring subassembly that is used for carrying out the stirring to the water in the box body.

Compared with the prior art, the utility model discloses following beneficial effect has: waiting to detect or the in-process of transportation at the heparin tube, the temperature in the display real-time display box body, when needing the cooling, through throwing the material subassembly with ammonium nitrate into the box body, ammonium nitrate absorbs a large amount of heat with the water solution in the box body, thereby reduce the temperature of placing a section of thick bamboo, and then make the heparin tube cooling of placing in placing a section of thick bamboo, the stirring subassembly accelerates the dissolving rate of ammonium nitrate and makes the difference in temperature of each position little in the box body, only need control throw the material subassembly once more after the temperature rises once more in the box body to drop the ammonium nitrate in the box body, can reach the cooling once more, thereby realized reducing the temperature in the box body many times.

Drawings

Fig. 1 is an isometric view of an embodiment of the present invention.

Fig. 2 is a schematic view of a feeding assembly according to an embodiment of the present invention.

Fig. 3 is a cross-sectional structure diagram of the embodiment of the present invention.

In the above drawings: 1. a box body; 2. a top plate; 3. a display; 4. placing a cylinder; 5. a feeding box; 6. a rotating shaft; 7. a feeding pipe; 8. rotating the rod; 9. a rotating plate; 10. a limiting spring; 11. a limiting plate; 12. a locking block; 13. a locking pin; 14. a locking spring; 15. a stirring rod; 16. a stirring plate; 17. a rotating ring; 18. a rubber sleeve.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1, the embodiment of the utility model provides a blood sampling tube refrigerated transport box, comprises a box bod 1, 1 open-top of box body, opening part are equipped with roof 2 that is used for switching it through locking Assembly detachably, 1 inner wall of box body is equipped with the inductor that is used for measuring 1 interior temperature of box body, 1 outer wall of box body is equipped with the display 3 that is used for showing 1 interior temperature of box body, the bottom of roof 2 is provided with a plurality of barrels of placing 4, places the open-top of barrel 4, and the top of placing barrel 4 and the top of roof 2 are located the coplanar, are used for depositing water in the box body 1, 1 lateral wall of box body is equipped with the subassembly of throwing that drops into box body 1 with the ammonium nitrate, 2 tops of roof still are equipped with the stirring subassembly that is used for stirring the water in the box body 1. The during operation, open 1 tops of box body through locking Assembly in advance, pour into appropriate amount of water, 1 open-top of box body is closed again, the heparin tube is placed in placing a section of thick bamboo 4, when needing the cooling, the control is thrown the material subassembly and is dropped into box body 1 with the ammonium nitrate in, the ammonium nitrate is dissolved with the water in the box body 1, stir through stirring the subassembly after dropping into the ammonium nitrate, dissolve with higher speed, the ammonium nitrate dissolves the purpose that reaches the cooling after the heat absorption, the temperature in the box body 1 is shown in real time to display 3, after the temperature drops, throw the material subassembly through control and drop into the ammonium nitrate once more, thereby realized the cooling many times to cold-stored box.

As shown in fig. 1-2, further, the feeding assembly comprises: the feed box 5 and axis of rotation 6, 5 bottoms of feed box are equipped with the feeding tube 7 with the inside intercommunication of 1 box body, and feed box 5 sets up the top at feeding tube 7, feed box 5 bottom with feeding tube 7 intercommunication, axis of rotation 6 sets up in feed box 5 with rotating, and feed box 5 is stretched out to the one end of axis of rotation 6, and the tip that feed box 5 one end was stretched out to axis of rotation 6 is provided with dwang 8 fixedly, and axis of rotation 6 is located and is provided with a plurality of rotor plates 9 on the lateral wall of 5 one ends of feed box symmetrically, and two inner walls of feed box 5 all are provided with the spacing subassembly with rotor plate 9 cooperation seal feed box 5. Throw spacing subassembly in the workbin 5 and rotor plate 9 cooperation and will throw workbin 5 and divide into upper portion and lower part, the ammonium nitrate is equipped with on upper portion, at this moment, there is partial ammonium nitrate to be located between two rotor plate 9's contained angle, when needing to drop into the ammonium nitrate, rotate dwang 8, thereby it also rotates to drive rotor plate 9 in the axis of rotation 6, when rotating certain angle, the ammonium nitrate from two rotor plates 9 between landing to throwing the material pipe 7 in, and then fall into box body 1, accomplish and throw the material, spacing subassembly is used for restricting rotor plate 9 and rotates and seal rotor plate 9 and throw the clearance between the two inner walls of workbin 5.

As shown in fig. 2, further, the limiting assembly includes: spacing spring 10, the spacing groove has been seted up symmetrically to two inner walls of the case of throwing 5, spacing spring 10 one end deviates from the lateral wall fixed connection of axis of rotation 6 with the spacing groove, all is equipped with limiting plate 11 on each spacing spring 10 other end, limiting plate 11 sets up at the spacing inslot with sliding, and limiting plate 11 stretches out the spacing groove under limiting spring 10's elasticity, the one side that limiting plate 11 stretches out the mounting groove is the arcwall face, and limiting plate 11 is used for inserting between two adjacent rotor plates 9, and two limiting plates 11 will throw the case 5 with its adjacent rotor plate 9 and seal. Limiting plate 11 stretches out the spacing groove all the time under limiting spring 10's effect, when rotating rotor plate 9 through dwang 8, under the effect of force, rotor plate 9 extrudes limiting plate 11's arcwall face, make limiting plate 11 withdraw in the spacing inslot, no longer restrict rotor plate 9's rotation, continue to rotate, when rotor plate 9 no longer extrudes limiting plate 11, limiting plate 11 stretches out the spacing groove under limiting spring 10's effect, at this moment two limiting plates 11 will throw workbin 5 with its adjacent rotor plate 9 and seal, and restriction rotor plate 9 continues to rotate, at this in-process, the ammonium nitrate is taken to the below of 6 horizontal position of axis of rotation through the contained angle between two rotor plates 9, then in being thrown into box body 1 under the effect of gravity, when needing to throw the material many times, it can to continue to rotate dwang 8.

As shown in fig. 3, further, the locking assembly includes: locking block 12, T type groove has been seted up at 2 tops of roof, and locking block 12 sets up at T type inslot with sliding, is equipped with the jack on the inner wall of box body 1, and locking block 12 is equipped with fitting pin 13 near the lateral wall of jack, and fitting pin 13 deviates from and is provided with locking spring 14 between the lateral wall of jack and T type groove, and fitting pin 13 passes roof 2 and inserts the jack in locking pin 13 and roof 2 sliding connection under locking spring 14's elasticity. When the opening at the top of the box body 1 needs to be closed, the locking block 12 is firstly extruded towards one side of the locking spring 14, the locking pin 13 retracts, the top plate 2 is installed in place, the locking block 12 is loosened, at the moment, the locking pin 13 is inserted into the jack under the elastic force of the locking spring 14, locking is completed, when the locking box is required to be opened, the locking block 12 moves towards the direction deviating from the outer wall of the box body 1, at the moment, the locking pin 13 is not inserted into the jack any more, the top plate 2 is lifted upwards, the opening at the top of the box body 1 can be opened, water is conveniently added, and the inside of the box body 1 is cleaned.

As shown in fig. 3, further, the stirring assembly includes: puddler 15, puddler 15 inserts in box body 1 vertically from the top of roof 2, and puddler 15 rotates with roof 2 to be connected, and the one end that puddler 15 is located box body 1 is provided with a plurality of stirring boards 16, and stirring board 16 is located and places a section of thick bamboo 4 below, and the tip that puddler 15 is located roof 2 top is equipped with swivel 17. Dwang 8 is to rotate with roof 2 and is connected, rotates swivel 17 during the use to drive puddler 15 and rotate, stir in 16 to box body 1 of stirring board, on the one hand with higher speed the dissolving of ammonium nitrate, on the one hand make the difference in temperature of each position can not be too big in the box body 1.

As shown in fig. 1, further, a rubber sleeve 18 is provided on the top of each placing cylinder 4. Rubber sleeve 18 inlays at the opening part of placing a section of thick bamboo 4, makes not rock in placing a section of thick bamboo 4 to not place the heparin tube of equidimension.

As shown in fig. 1, further, the box body 1 is a trapezoid body. The box body 1 is set to be a trapezoid body, so that the bottom is more stable and is not easy to topple.

Finally, it is noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a heparin tube refrigerated transport box which characterized in that includes: box body (1), box body (1) open-top, opening part are equipped with roof (2) that are used for switching it through locking Assembly detachably, box body (1) inner wall is equipped with the inductor that is used for measuring box body (1) internal temperature, box body (1) outer wall is equipped with display (3) that are used for showing box body (1) internal temperature, the bottom of roof (2) is provided with a plurality of barrels of placing (4), places the open-top of a barrel (4), and the top of placing a barrel (4) is located the coplanar with the top of roof (2), is used for depositing the water in box body (1), box body (1) lateral wall is equipped with the material subassembly of throwing that drops into the ammonium nitrate in box body (1), roof (2) top still is equipped with the stirring subassembly that is used for carrying out the stirring to the water in box body (1).

2. A blood collection tube refrigerated transport case as recited in claim 1 wherein the feeding assembly comprises: feed box (5) and axis of rotation (6), feed box (5) bottom be equipped with feeding pipe (7) of box body (1) inside intercommunication, feed box (5) set up the top at feeding pipe (7), feed box (5) bottom with feeding pipe (7) intercommunication, axis of rotation (6) rotationally set up in feed box (5), feed box (5) are stretched out to the one end of axis of rotation (6), and axis of rotation (6) stretch out the tip of feed box (5) one end and be provided with dwang (8) fixedly, and axis of rotation (6) are located and are provided with a plurality of rotor plates (9) symmetrically on the lateral wall of feed box (5) one end, and the two inner walls of feed box (5) all are provided with the spacing subassembly of sealing feed box (5) with rotor plate (9) cooperation.

3. A blood collection tube refrigerated transport case as set forth in claim 2 wherein each of the retaining assemblies comprises: spacing spring (10), the spacing groove has been seted up symmetrically to two inner walls of case of throwing (5), spacing spring (10) one end deviates from the lateral wall fixed connection of axis of rotation (6) with the spacing groove, all is equipped with limiting plate (11) on each spacing spring (10) other end, limiting plate (11) set up at the spacing inslot with sliding, and limiting plate (11) stretches out the spacing groove under the elasticity of spacing spring (10), the one side that mounting groove was stretched out in limiting plate (11) is the arcwall face, and limiting plate (11) are used for inserting between two adjacent rotor plates (9), and two limiting plates (11) will throw case of throwing (5) with its adjacent rotor plate (9) and seal.

4. A blood collection tube refrigerated transport case of claim 1, wherein: the locking assembly includes: locking block (12), T type groove has been seted up at roof (2) top, and locking block (12) set up at T type inslot with sliding, is equipped with the jack on the inner wall of box body (1), and locking block (12) are close to the lateral wall of jack and are equipped with fitting pin (13), is provided with locking spring (14) between the lateral wall that fitting pin (13) deviate from the lateral wall of jack and T type groove, and fitting pin (13) pass roof (2) insert the jack in under the elasticity of locking spring (14), fitting pin (13) and roof (2) sliding connection.

5. A blood collection tube refrigerated transport case as recited in claim 1 wherein the agitation assembly comprises: puddler (15), puddler (15) are inserted in box body (1) from the top of roof (2) vertically, and puddler (15) rotate with roof (2) and are connected, and the one end that puddler (15) are located box body (1) is provided with a plurality of stirring boards (16), and stirring board (16) are located and place a section of thick bamboo (4) below, and the tip that puddler (15) are located roof (2) top is equipped with swivel (17).

6. A blood collection tube refrigerated transport case of claim 1, wherein: the top of each placing cylinder (4) is provided with a rubber sleeve (18).

7. A blood collection tube refrigerated transport case as set forth in any one of claims 1 to 6, wherein: the box body (1) is a trapezoid body.

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