CN215206406U - Real-time monitoring biological medicine cold transportation equipment - Google Patents

Abstract

The utility model provides a real-time monitoring biological medicine cold transportation device, at least three placing cavities are arranged in the heat preservation inner box, at least two bottom grooves are arranged at the bottom end in the placing cavities, springs are fixed on the periphery of the inner walls of the bottom grooves, and rubber clamping plates are fixed at the tail ends of the springs; the middle of the upper end of the box cover is fixed with a boss, the middle of the upper end of the boss is embedded and fixed with a battery bin, a battery bin cover is clamped above the battery bin, and a display screen is embedded and installed at the front end of the boss. Has the advantages that: through the bottle that will be equipped with biological medicine insert the kerve, the rethread spring is shove rubber splint and is cliied the bottle, can be in the transportation, play the cushioning effect of bottle, avoid appearing the damaged phenomenon of bottle in the transportation, and through setting up temperature sensor, can monitor the temperature in the heat preservation outer box, show the temperature in the heat preservation outer box from the display screen again, can in time supply the ice bag box under ice bag to the case lid like this, the problem that is difficult to carry out temperature monitoring to cold transport equipment inside at present has been solved.

Description

Real-time monitoring biological medicine cold transportation equipment

Technical Field

The utility model relates to a biological medicine technical field specifically is a real time monitoring biological medicine cold transportation equipment.

Background

With the development of medicine, the biological medicine is continuously increased, and the cold transportation equipment is required in the process of transporting the biological medicine. When the biological medicine is loaded in the cold transportation equipment for transportation, the temperature inside the cold transportation equipment is difficult to monitor, so that the ice bag is difficult to replenish into the cold transportation equipment in time.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a real time monitoring biological medicine cold transportation equipment has solved and has been difficult to the problem that carries out temperature monitoring to cold transportation equipment inside at present.

In order to achieve the above object, the utility model provides a following technical scheme: a real-time monitoring biological medicine cold transportation device comprises an outer heat preservation box, a box cover and an inner heat preservation box, wherein the inner heat preservation box is arranged inside the outer heat preservation box, and the box cover is arranged at a box opening of the outer heat preservation box;

at least three placing cavities are formed in the inner part of the heat-preservation inner box, at least two bottom grooves are formed in the bottom end of the inner part of each placing cavity, springs are fixed on the peripheries of the inner walls of the bottom grooves, and rubber clamping plates are fixed at the tail ends of the springs;

the improved battery box is characterized in that a boss is fixed in the middle of the upper end of the box cover, a battery bin is fixed in the middle of the upper end of the boss in an embedded mode, a battery bin cover is clamped above the battery bin, a display screen is installed at the front end of the boss in an embedded mode, and a temperature sensor is installed in the middle of the lower end of the box cover in an embedded mode.

Further, battery compartment internally mounted has the lithium cell, display screen and lithium cell electric connection, the input and the output of temperature sensor of display screen are connected.

Furthermore, both ends all are equipped with the handle groove about the boss.

Furthermore, a groove is formed in the bottom of the heat-preservation outer box, and a concave structure of the groove is matched with a convex structure of the boss.

Further, there are eyelet wheels in four corners of bottom of the heat-insulating outer box through screws, circular grooves are formed in four corners of upper end of the box cover, and the eyelet wheels are connected with the circular grooves in an inserting mode.

Further, an ice bag box is fixed at the lower end of the box cover and positioned on two sides of the temperature sensor, and a plurality of air holes are formed in the bottom of the ice bag box.

Has the advantages that: through the bottle that will be equipped with biological medicine insert the kerve, the rethread spring is shove rubber splint and is cliied the bottle, can be in the transportation, play the cushioning effect of bottle, avoid appearing the damaged phenomenon of bottle in the transportation, and through setting up temperature sensor, can monitor the temperature in the heat preservation outer box, show the temperature in the heat preservation outer box from the display screen again, can in time supply the ice bag box under ice bag to the case lid like this, and in the transportation, can pile up the heat preservation outer box perpendicularly, peg graft through boss and recess like this, can increase the perpendicular accumulational stability of heat preservation outer box.

Drawings

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

FIG. 2 is a schematic view of the utility model showing the case cover disassembled from the heat preservation outer case;

FIG. 3 is a schematic view of the bottom surface of the heat preservation outer box of the present invention;

FIG. 4 is a schematic view of the bottom of the cover of the present invention;

fig. 5 is a schematic top view of the heat preservation inner box of the present invention.

In the figure: 1-heat preservation outer box, 2-box cover, 3-boss, 4-handle groove, 5-display screen, 6-battery bin, 7-battery bin cover, 8-round groove, 9-heat preservation inner box, 10-groove, 11-bull's eye wheel, 12-ice bag box, 13-air vent, 14-placing cavity, 15-bottom groove, 16-spring, 17-rubber splint and 18-temperature sensor.

Detailed Description

Referring to fig. 1-5, a real-time monitoring biomedical cold transportation device comprises an outer thermal insulation box 1, a box cover 2 and an inner thermal insulation box 9, wherein the inner thermal insulation box 9 is arranged inside the outer thermal insulation box 1, the box cover 2 is arranged at the opening of the outer thermal insulation box 1, at least three placing cavities 14 are arranged inside the inner thermal insulation box 9, at least two bottom grooves 15 are arranged at the bottom ends inside the placing cavities 14, springs 16 are fixed on the peripheries of the inner walls of the bottom grooves 15, rubber clamping plates 17 are fixed at the tail ends of the springs 16, a bottle filled with a biomedical is inserted into the bottom groove 15 of the placing cavity 14, and the spring 16 clamps the bottle by bouncing the rubber clamping plates 17, so that the spring 16 and the rubber clamping plates 17 play a role in buffering the bottle in the transportation process, and the phenomenon that the bottle is damaged in the transportation process is avoided;

further, a boss 3 is fixed in the middle of the upper end of the box cover 2, a battery bin 6 is fixed in the middle of the upper end of the boss 3 in an embedded manner, a battery bin cover 7 is clamped above the battery bin 6, a display screen 5 is installed at the front end of the boss 3 in an embedded manner, a temperature sensor 18 is installed in the middle of the lower end of the box cover 2 in an embedded manner, a lithium battery is installed inside the battery bin 6, the display screen 5 is electrically connected with the lithium battery, the input end of the display screen 5 is connected with the output end of the temperature sensor 18, after the bottle is placed, the box cover 2 is covered on the heat preservation outer box 1, the lithium battery is then loaded into the battery bin 6, the battery bin cover 7 is covered on the upper end of the battery bin 6, the display screen 5 is powered on and lighted at the moment, the temperature sensor 18 is utilized to detect the temperature inside the heat preservation outer box 1, and the temperature sensor 18 can transmit the detected temperature data to the display screen 5, the display screen 5 can display the temperature in the heat-preservation outer box 1, so that the workers can conveniently replenish the ice bag in time after opening the box cover 2;

specifically, the left end and the right end of the boss 3 are both provided with a handle groove 4, and the handle grooves 4 are convenient for lifting and opening the box cover 2 or the lower box cover 2;

the bottom of the heat-insulation outer box 1 is provided with a groove 10, the concave structure of the groove 10 is matched with the convex structure of the boss 3, when the heat-insulation outer box 1 is placed in a transport vehicle, a plurality of cold transport devices can be vertically stacked and placed, and therefore the stability of the plurality of cold transport devices when the cold transport devices are vertically stacked and placed can be improved by inserting the boss 3 into the groove 10;

four corners of the bottom of the heat-insulation outer box 1 are connected with eyelet wheels 11 through screws, four corners of the upper end of the box cover 2 are provided with round grooves 8, the eyelet wheels 11 are connected with the round grooves 8 in an inserting mode, the eyelet wheels 11 are arranged at the bottom of the heat-insulation outer box 1, when the heat-insulation outer box 1 needs to be moved, the heat-insulation outer box 1 can be moved conveniently through the rolling of the eyelet wheels 11 and the ground, when a plurality of cold transport devices are vertically stacked and placed, the eyelet wheels 11 are connected with the round grooves 8 in an inserting mode along with the insertion of the bosses 3 and the grooves 10, and therefore the effect of containing the eyelet wheels 11 can be achieved through the round grooves 8;

the lower end of the box cover 2 and positioned on two sides of the temperature sensor 18 are both fixed with ice bag boxes 12, the bottoms of the ice bag boxes 12 are provided with a plurality of air holes 13, and cold air of the ice bags can be diffused into the heat-insulation outer box 1 through the air holes 13 by loading the ice bags into the ice bag boxes 12, so that the refrigeration effect of biological medicines in the heat-insulation outer box 1 is achieved.

Claims (6)

1. The utility model provides a real time monitoring biological medicine cold transportation equipment, includes heat preservation outer container (1), case lid (2) and heat preservation inner box (9), heat preservation inner box (9) are arranged inside heat preservation outer container (1), case lid (2) are arranged in the case mouth department of heat preservation outer container (1), its characterized in that:

at least three placing cavities (14) are arranged in the heat-insulating inner box (9), at least two bottom grooves (15) are arranged at the bottom end in the placing cavities (14), springs (16) are fixed on the periphery of the inner walls of the bottom grooves (15), and rubber clamping plates (17) are fixed at the tail ends of the springs (16);

be fixed with boss (3) in the middle of case lid (2) upper end, the embedding is fixed with battery compartment (6) in the middle of boss (3) upper end, battery compartment (6) top joint has battery compartment lid (7), display screen (5) are installed in boss (3) front end embedding, temperature sensor (18) are installed in the middle of case lid (2) lower extreme embedding.

2. The real-time monitoring biomedical cold transportation equipment of claim 1, wherein: the battery compartment (6) internally mounted has the lithium cell, display screen (5) and lithium cell electric connection, the input of display screen (5) is connected with the output of temperature sensor (18).

3. The real-time monitoring biomedical cold transportation equipment of claim 1, wherein: both ends all are equipped with handle groove (4) about boss (3).

4. The real-time monitoring biomedical cold transportation equipment of claim 1, wherein: the bottom of the heat-preservation outer box (1) is provided with a groove (10), and the concave structure of the groove (10) is matched with the convex structure of the boss (3).

5. The real-time monitoring biomedical cold transportation equipment of claim 1, wherein: all there is eyelet wheel (11) in heat preservation outer container (1) bottom four corners through screwed connection, case lid (2) upper end four corners all is equipped with circular slot (8), eyelet wheel (11) are pegged graft with circular slot (8).

6. The real-time monitoring biomedical cold transportation equipment of claim 1, wherein: the refrigerator is characterized in that ice bag boxes (12) are fixed to the lower end of the refrigerator cover (2) and located on two sides of the temperature sensor (18), and a plurality of air holes (13) are formed in the bottoms of the ice bag boxes (12).

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