CN117735069A - Blood storage equipment - Google Patents

Abstract

The invention relates to the technical field of blood storage, but not limited to, and discloses blood storage equipment, which comprises a storage box, a shaking unit, a pushing unit and a heat dissipation unit, wherein the blood storage equipment is characterized in that a double-headed motor is opened, a sliding frame reciprocates up and down along a sliding chute, and the upper and lower groups of pulleys are connected through a transmission belt to drive the upper and lower groups of sliding frames to reciprocate up and down at the same time, so that a mounting frame is driven to reciprocate up and down, and the blood bag box is pushed to reciprocate up and down continuously along a mounting groove, so that the blood bag box can move up and down continuously left and right continuously when the double-headed motor works, the blood bag can be pushed continuously by a pushing plate, and additional back and forth pushing force is applied to the blood bag while the blood bag shakes, and blood coagulation is prevented.

Description

Blood storage equipment

Technical Field

The present invention relates to the technical field of, but not limited to, blood storage, and in particular to a blood storage device.

Background

Blood storage devices are devices that are specially designed to preserve blood and blood products, which are intended to provide proper temperature and environmental conditions to ensure the quality and safety of blood and blood products during storage, and blood storage refrigerators are common in which blood is prevented from being stored for a longer period of time after the blood is drawn into the blood bag, and the freshness of the blood is maintained.

The conventional blood storage tank is in a static state when the blood is stored, the blood which is kept still for a long time may decay and decompose, so that the quality of components (such as red blood cells, blood plasma, blood platelets and the like) therein is reduced, which greatly influences the effectiveness and safety of the blood, and in the static state, the blood platelets and blood coagulation factors in the blood are deactivated, so that a clot is formed, which may increase the risk of thrombosis in the blood transfusion process, and thus improvement of the above problems is required.

Disclosure of Invention

In view of the problem that the blood is in a static state and is easy to coagulate when the blood is stored in the prior art, the blood storage device is provided.

The application provides a blood storage device, its aim at: peristaltic movement is performed on the blood bag stored in the storage box, so that blood in the blood bag is prevented from being coagulated.

The technical scheme of the invention is as follows: the blood storage device comprises a storage box, a shaking unit, a pushing unit and a heat dissipation unit;

the shaking unit is arranged in the storage box and is used for shaking the stored blood bags;

the shaking unit includes: the transmission part is arranged at the bottom of the storage box and used for transmitting the shaking unit; the transmission member includes: the device comprises a mounting box arranged at the bottom of a storage box, a double-headed motor arranged in the mounting box, gears I arranged at two ends of an output shaft of the double-headed motor, two groups of first shaft rods arranged at the upper end and the lower end of the storage box, belt pulleys arranged on the first shaft rods, gears II arranged on the first shaft rods below, grooved wheels arranged on the first shaft rods, sliding grooves arranged on the inner wall of the storage box, a sliding frame arranged on the sliding grooves, and a transmission belt I arranged between the upper group of belt pulleys and the lower group of belt pulleys;

the bearing component is arranged on the transmission component and used for containing blood bags;

the linkage component is arranged on the bearing component and is used for driving the blood bag to shake back and forth;

the pushing unit is arranged on the shaking unit and used for pushing the blood bag;

the heat radiating unit is arranged at the bottom of the storage box and used for radiating heat of the motor.

By adopting the technical scheme, when the double-headed motor works, the first gear is driven to rotate, the second gear is driven to rotate, the grooved wheel is driven to rotate by the second gear, the first shaft rod is fixedly connected to the edge of the grooved wheel, so that the sliding frame is driven to reciprocate up and down along the sliding groove when the first shaft rod rotates, and the upper belt pulley and the lower belt pulley are connected through the transmission belt, so that the upper sliding frame and the lower sliding frame are driven to reciprocate up and down simultaneously when the motor works.

Further, the bearing component comprises a mounting frame arranged on the sliding frame, a plurality of groups of mounting grooves arranged on the mounting frame, a T-shaped sliding plate arranged on the mounting groove, a blood bag box arranged on the T-shaped sliding plate and a net cover arranged on the blood bag box.

By adopting the technical scheme, the blood bag can be placed in the blood bag box, and then the net cover is closed, because under the work of the double-headed motor, the upper sliding frame and the lower sliding frame do up-and-down reciprocating motion at the same time, and the mounting frame is fixedly connected to the sliding frame, the mounting frame is driven to reciprocate up and down, and accordingly the blood bag is driven to shake up and down.

Further, the linkage part comprises a fixed shaft arranged on the grooved pulley, a transmission rod arranged on the fixed shaft, a first connecting rod arranged on the transmission rod, a second connecting rod arranged on the first connecting rod, a rotating shaft arranged on the second connecting rod, a base arranged on the rotating shaft, a storage box fixedly connected with the base, a third connecting rod arranged on the second connecting rod, and a pushing rod arranged on the third connecting rod, wherein the pushing rod is fixedly connected with the blood bag box.

By adopting the technical scheme, when the double-headed motor rotates to drive the mounting frame to move up and down, the fixing shaft is fixedly connected to the edge close to the grooved pulley, so that when the double-headed motor drives the output shaft to rotate, the transmission rod is driven to rotate, and when the transmission rod rotates, the transmission rod drives the second connecting rod to swing left and right along the rotating shaft through the connecting rod, and meanwhile, the second connecting rod drives the third connecting rod to move back and forth, so that the blood bag box is pushed to move back and forth continuously along the mounting groove.

Further, the fixed shaft is arranged at the center of the grooved pulley, and the first shaft lever is also arranged at the edge of the grooved pulley.

By adopting the technical scheme, the grooved wheel is driven to rotate by taking the first shaft lever as the center when the first shaft lever rotates.

Further, the pushing unit comprises a plurality of groups of protruding blocks arranged on the mounting frame and a pushing component arranged on the T-shaped sliding plate.

By adopting the technical scheme, the pushing component generates pushing force when passing through the convex blocks.

Further, the pushing component comprises a telescopic groove arranged on the T-shaped sliding plate, a telescopic column arranged on the telescopic groove, a semicircular ball arranged at the bottom end of the telescopic column, an opening arranged at the bottom of the blood bag box and a pushing plate arranged on the opening, wherein the pushing plate is fixedly connected to the top of the telescopic column and an elastic piece arranged at the side of the telescopic column.

By adopting the technical scheme, when the double-headed motor drives the blood bag to reciprocate left and right, the telescopic column is driven to move left and right, and the semicircle at the bottom of the telescopic column is continuously abutted with the lug, so that the telescopic column is pushed to overcome the elasticity of the elastic piece and jack up upwards, and the push plate is pushed to continuously push the blood bag.

Further, the size of the pushing plate is matched with the size of the opening, and the semicircular sphere at the bottom of the telescopic column is abutted against the protruding block.

By adopting the technical scheme, when the semicircle ball is abutted with the convex block, the pushing plate is driven to realize up-and-down reciprocating motion.

Further, the heat dissipation unit comprises a heat preservation layer arranged on the outer side of the installation box, a first bevel gear arranged on the output shaft of the double-headed motor, a first bearing frame arranged on the installation box, a second shaft rod arranged on the first bearing frame, a second bevel gear arranged on the second shaft rod, a first ring groove arranged at the bottom end of the second shaft rod, a second bearing frame arranged on the installation box, a third shaft rod arranged on the second bearing frame, a fan arranged at the bottom end of the third shaft rod, a second ring groove arranged at the upper end of the third shaft rod, and a second transmission belt arranged between the second ring groove and the first ring groove.

By adopting the technical scheme, because the first bevel gear is fixedly connected to the output shaft, when the double-headed motor works, the first bevel gear is driven to rotate, so that the second shaft is driven to rotate, and because the first ring groove is connected with the second ring groove through the transmission belt, the third shaft is driven to rotate, so that the fan is driven to rotate.

Further, the second ring groove is connected with the first ring groove through a second driving belt, and when the double-headed motor works, the fan is driven to rotate.

By adopting the technical scheme, the fan discharges heat generated by the double-headed motor.

The invention has the beneficial effects that:

through opening the double-end motor, the slip frame is reciprocating motion about the spout, and because connect through drive belt one between two sets of belt pulleys about, will drive two sets of slip frames about and be reciprocating motion about simultaneously to drive the mounting bracket and be reciprocating motion about, will promote blood package box along the mounting groove realization back and forth incessant reciprocating motion simultaneously, thereby realize the blood package box and control incessant removal about the during operation of double-end motor, thereby reach the effect of rocking blood package.

Through setting up pushing component, when the double-end motor drives blood package left and right reciprocating motion, will drive the flexible post and control the removal, the semicircle of flexible post bottom will be incessantly with the lug carries out the butt to promote the elasticity that the flexible post overcome the elastic component and jack-up, thereby promote the board and will carry out incessantly promotion work to blood package, apply other thrust back and forth to it when blood package rocks, prevent blood coagulation.

Through setting up the radiating part in the installation case, the during operation of double-end motor will drive first bevel gear and rotate to drive the second shaft pole and rotate, because be connected through the drive belt between annular first and the annular second, so will drive the third shaft pole and rotate, thereby drive the fan and rotate, thereby outside the heat discharge storage box to the during operation of double-end motor production, prevent the heat that produces from influencing the temperature in the storage box.

Drawings

FIG. 1 is a schematic view of a first view angle structure of the present invention;

FIG. 2 is a schematic diagram of an overall second view structure according to the present invention;

FIG. 3 is a schematic diagram of the structure of the transmission component of the present invention;

FIG. 4 is an enlarged schematic view of the transmission component of the present invention;

FIG. 5 is a schematic view of the structure of the load bearing member of the present invention;

FIG. 6 is a perspective view of the linkage member structure of the present invention;

FIG. 7 is a schematic view of the pushing member of the present invention;

FIG. 8 is an enlarged schematic view of the invention at A in FIG. 7;

FIG. 9 is a schematic diagram of a heat dissipating unit according to the present invention;

FIG. 10 is a flow chart of the temperature detection module of the present invention.

In the figure:

1. a storage box; 2. a shaking unit; 21. a transmission member; 211. a mounting box; 212. a double-ended motor; 213. a first gear; 214. a first shaft; 215. a belt pulley; 216. a second gear; 217. a sheave; 218. a chute; 219. a sliding frame; 2110. a first transmission belt; 22. a carrier member; 221. a mounting frame; 222. a mounting groove; 223. a T-shaped slide plate; 224. a blood bag box; 225. a net cover; 23. a linkage member; 231. a fixed shaft; 232. a transmission rod; 233. a first connecting rod; 234. a second connecting rod; 235. a rotating shaft; 236. a base; 237. a connecting rod III; 238. a push rod; 3. a pushing unit; 31. a bump; 32. a pushing member; 321. a telescopic slot; 322. a telescopic column; 323. a semicircle sphere; 324. an opening; 325. a pushing plate; 326. an elastic member; 4. a heat radiation unit; 41. a heat preservation layer; 42. a first bevel gear; 43. a first bearing frame; 44. a second shaft; 45. a second bevel gear; 46. a first ring groove; 47. a bearing frame II; 48. a third shaft; 49. a fan; 410. a second ring groove; 411. a second transmission belt; 5. and a temperature monitoring module.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Embodiment 1, referring to fig. 1 to 6, for a first embodiment of the present invention, there is provided a blood storage device including a storage tank 1, further including a shaking unit 2, a pushing unit 3, and a heat dissipating unit 4; the shaking unit 2 comprises a transmission part 21, a bearing part 22 and a linkage part 23; the pushing unit 3 can be a telescopic extruding plate and is arranged on the shaking unit 2 for pushing the blood bag; the heat dissipation unit 4 may be a heat dissipation fan, and is installed at the bottom of the storage box 1, for dissipating heat from the motor.

Referring to fig. 3 to 4, the driving part 21 includes a mounting case 211 fixedly coupled to the bottom of the storage case 1, a double-headed motor 212 fixedly mounted in the mounting case 211, a first gear 213 fixedly coupled to both ends of an output shaft of the double-headed motor 212, two sets of first shafts 214 rotatably coupled to both upper and lower ends of the storage case 1, pulleys 215 fixedly coupled to the first shafts 214, a second gear 216 fixedly coupled to the lower first shafts 214, the second gear 216 engaged with the first gear 213, a sheave 217 fixedly coupled to the first shafts 214, the first shafts 214 fixedly coupled to edges of the sheave 217, a sliding groove 218 fixedly coupled to an inner wall of the storage case 1, a sliding frame 219 slidably coupled to the sliding groove 218, the sliding frame 219 slidably coupled to a circular groove formed in the sheave 217, and a driving belt 2110 mounted between the upper and lower sets of pulleys 215.

Specifically, when the double-headed motor 212 works, the first gear 213 is driven to rotate the second gear 216, the second gear 216 is driven to rotate the sheave 217, the first shaft 214 is fixedly connected to the edge of the sheave 217, so that the first shaft 214 drives the sliding frame 219 to reciprocate up and down along the sliding groove 218 when rotating, and the upper and lower groups of pulleys 215 are connected through the first belt 2110, and the upper and lower groups of sliding frames 219 are driven to reciprocate up and down simultaneously when the motor works.

Referring to fig. 5, the carrier 22 includes a mounting frame 221 fixedly coupled to the sliding frame 219, a plurality of sets of mounting grooves 222 fixedly coupled to the mounting frame 221, a T-shaped slide plate 223 slidably coupled to the mounting grooves 222, a blood pack case 224 fixedly coupled to the T-shaped slide plate 223, and a net cover 225 rotatably coupled to the blood pack case 224.

Specifically, the blood bag can be placed in the blood bag box 224, and then the net cover 225 is closed, and the upper and lower groups of sliding frames 219 reciprocate up and down simultaneously under the operation of the double-headed motor 212, and the mounting frame 221 is fixedly connected to the sliding frames 219, so that the mounting frame 221 is driven to reciprocate up and down, and the blood bag is driven to shake up and down.

Referring to fig. 6, the linkage member 23 includes a fixed shaft 231 fixedly coupled to the sheave 217, the fixed shaft 231 is disposed near an edge of the sheave 217, a driving rod 232 fixedly coupled to the fixed shaft 231, a first link 233 rotatably coupled to an end of the driving rod 232, a second link 234 rotatably coupled to an end of the first link 233, a rotating shaft 235 rotatably coupled to the second link 234, a base 236 rotatably coupled to the rotating shaft 235, the base 236 fixedly coupled to a sidewall of the storage box 1, a third link 237 rotatably coupled to an end of the second link 234, a push rod 238 rotatably coupled between the third links 237, and the push rod 238 fixedly coupled to an outer side of the blood bag case 224.

Specifically, while the double-headed motor 212 rotates to drive the mounting frame 221 to move up and down, the fixed shaft 231 is fixedly connected to the edge near the grooved pulley 217, so that when the double-headed motor 212 drives the output shaft to rotate, the transmission rod 232 is driven to rotate, while the transmission rod 232 rotates, the first connecting rod 233 drives the second connecting rod 234 to swing left and right along the rotating shaft 235, and meanwhile, the second connecting rod 234 drives the third connecting rod 237 to move back and forth, so that the blood bag box 224 is pushed to move back and forth continuously along the mounting groove 222.

In the use process, can put the blood package into blood package box 224, then close the net lid 225, open double-end motor 212 again, when double-end motor 212 during operation will drive gear one 213 and rotate, gear one 213 will drive gear two 216 and rotate, gear two 216 rotates and will drive the sheave 217 and rotate, because first axostylus axostyle 214 fixed connection is in the edge of sheave 217, so when first axostylus axostyle 214 rotates, will drive sliding frame 219 and reciprocate along spout 218, and because connect through the drive belt one 2110 between upper and lower belt pulley 215, when motor during operation will drive upper and lower two sets of sliding frame 219 and reciprocate simultaneously, because under double-end motor 212's work, upper and lower two sets of sliding frame 219 will reciprocate simultaneously, and mounting bracket 221 fixed connection is on sliding frame 219, will drive mounting bracket 221 and reciprocate from top to bottom, thereby drive the blood package and realize rocking up and down, when mounting bracket 221 moves up and down, because fixed axle 231 fixed connection is being close to the edge of sheave 217, so when double-end motor 212 drives the output shaft rotation, will drive the drive transmission pole 232 and rotate, will drive the upper and lower two sets of sliding frame 219 and reciprocate simultaneously through drive belt one 2110, will not reciprocate along the upper and lower connecting rod 234 and lower connecting rod 224 when the double-end motor 212 is driven by the left and lower connecting rod 234 and the left and right connecting rod is realized and the upper and lower connecting rod is moved to reciprocate to realize the function of the connecting rod 224.

Embodiment 2, referring to fig. 7-8, is a second embodiment of the present invention, which differs from the first embodiment in that: the pushing unit 3 includes a plurality of sets of projections 31 fixedly coupled to the mounting frame 221, and a pushing member 32 mounted on the T-shaped slide plate 223.

Referring to fig. 7 to 8, the pushing member 32 includes a telescopic slot 321 formed on the T-shaped sliding plate 223, a telescopic column 322 slidably connected to the telescopic slot 321, a semi-sphere 323 fixedly connected to the bottom end of the telescopic column 322, an opening 324 formed at the bottom of the blood bag box 224, and a pushing plate 325 telescopically connected to the opening 324, wherein the pushing plate 325 is fixedly connected to the top of the telescopic column 322, and an elastic member 326 is sleeved outside the telescopic column 322, and the top of the elastic member 326 is fixedly connected to the bottom of the pushing plate 325 and fixedly connected to the telescopic slot 321.

Specifically, when the double-headed motor 212 drives the blood bag to reciprocate left and right, the telescopic column 322 is driven to move left and right, the semicircle 323 at the bottom of the telescopic column 322 is continuously abutted with the bump 31, so that the telescopic column 322 is pushed to jack up upwards against the elastic force of the elastic piece 326, and the pushing plate 325 is used for continuously pushing the blood bag.

During the use, when the double-end motor 212 drives the blood bag to reciprocate left and right, the telescopic column 322 is driven to move left and right, the semicircle 323 at the bottom of the telescopic column 322 is continuously abutted with the convex block 31, so that the telescopic column 322 is pushed to overcome the elastic force of the elastic piece 326 to jack up upwards, the push plate 325 is pushed to continuously push the blood bag, and additional pushing force is applied to the blood bag when the blood bag shakes, so that blood coagulation is prevented.

The rest of the structure is the same as that of embodiment 1.

Embodiment 3, referring to fig. 9, is a third embodiment of the present invention, which is different from the second embodiment in that: the heat dissipation unit 4 includes a heat insulation layer 41 fixedly connected to the outside of the installation box 211, the heat insulation layer 41 may be made of polyurethane foam, a first bevel gear 42 fixedly connected to an output shaft of the double-headed motor 212, a first bearing frame 43 fixedly connected to the installation box 211, a second shaft rod 44 rotatably connected to the first bearing frame 43, a second bevel gear 45 fixedly connected to the second shaft rod 44, a first ring groove 46 fixedly connected to the bottom end of the second shaft rod 44, a second bearing frame 47 fixedly connected to the installation box 211, a third shaft rod 48 rotatably connected to the second bearing frame 47, a fan 49 fixedly connected to the bottom end of the third shaft rod 48, a second ring groove 410 fixedly connected to the upper end of the third shaft rod 48, and a second driving belt 411 rotatably connected between the second ring groove 410 and the first ring groove 46.

Specifically, since the first bevel gear 42 is fixedly connected to the output shaft, when the double-ended motor 212 works, the first bevel gear 42 is driven to rotate, so as to drive the second shaft 44 to rotate, and since the first ring groove 46 is connected with the second ring groove 410 through the transmission belt, the third shaft 48 is driven to rotate, so as to drive the fan 49 to rotate.

In the use process, because the first bevel gear 42 is fixedly connected to the output shaft, when the double-headed motor 212 works, the first bevel gear 42 is driven to rotate, so that the second shaft rod 44 is driven to rotate, and because the first ring groove 46 is connected with the second ring groove 410 through the transmission belt, the third shaft rod 48 is driven to rotate, so that the fan 49 is driven to rotate, heat generated when the double-headed motor 212 works is discharged out of the storage box 1, and the generated heat is prevented from affecting the temperature in the storage box 1.

Working principle: firstly, placing the blood bag into the blood bag box 224, then closing the net cover 225, and then opening the double-headed motor 212, when the double-headed motor 212 works, the first gear 213 drives the first gear 216 to rotate, the second gear 216 drives the grooved pulley 217 to rotate, when the first shaft lever 214 is fixedly connected with the edge of the grooved pulley 217, the first shaft lever 214 drives the sliding frame 219 to reciprocate up and down along the sliding groove 218, and when the motor works, the upper and lower sliding frames 219 are driven to reciprocate up and down simultaneously due to the connection of the upper and lower belt pulleys 215 through the first transmission belt 2110, and when the motor works, the upper and lower sliding frames 219 reciprocate up and down simultaneously due to the operation of the double-headed motor 212, the mounting frame 221 is fixedly connected to the sliding frame 219, so that the mounting frame 221 is driven to reciprocate up and down, so that the blood bag box 224 is driven to reciprocate up and down along the mounting groove 222, and the fixing shaft 231 is fixedly connected to the edge close to the grooved pulley 217 while the mounting frame 221 moves up and down, so that when the double-headed motor 212 drives the output shaft to rotate, the transmission rod 232 is driven to rotate, and meanwhile, the first connecting rod 233 drives the second connecting rod 234 to swing left and right along the rotating shaft 235, and meanwhile, the second connecting rod 234 drives the third connecting rod 237 to reciprocate up and down along the mounting groove 222, so that the blood bag box 224 is driven to reciprocate up and down and left and right continuously when the double-headed motor 212 works, and the blood bag shaking effect is achieved;

when the double-headed motor 212 drives the blood bag to reciprocate left and right, the telescopic column 322 is driven to move left and right, the semicircle 323 at the bottom of the telescopic column 322 is continuously abutted against the convex block 31, so that the telescopic column 322 is pushed to jack up against the elastic force of the elastic piece 326, the push plate 325 is used for continuously pushing the blood bag, and additional pushing force is applied to the blood bag while the blood bag shakes, so that blood coagulation is prevented;

and because the first bevel gear 42 is fixedly connected to the output shaft, when the double-headed motor 212 works, the first bevel gear 42 is driven to rotate so as to drive the second shaft rod 44 to rotate, and because the first ring groove 46 is connected with the second ring groove 410 through a transmission belt, the third shaft rod 48 is driven to rotate so as to drive the fan 49 to rotate, so that heat generated during the working of the double-headed motor 212 is discharged out of the storage box 1, and the generated heat is prevented from affecting the temperature in the storage box 1.

The rest of the structure is the same as that of embodiment 2.

Embodiment 4, referring to fig. 10, in a fourth embodiment of the present invention, the storage box 1 may be a low-temperature storage cabinet, a temperature monitoring module 5 is disposed in the storage box 1, the temperature monitoring module 5 includes a temperature sensor, a master controller, a wireless information transmission device and a personal terminal which are disposed in the storage box 1, and an information processing unit which is electrically connected with the temperature sensor, the temperature sensor is connected with the master controller through a wire signal, the master controller is connected with the wireless information transmission device through a wire control, the wireless information transmission device is connected with the personal terminal through a wireless signal communication, and the personal terminal is an APP installed in a mobile phone;

the temperature sensor monitors the temperature in the storage box 1, converts temperature information into data information and transmits the data information to the controller, the controller transmits the temperature information signal to the personal terminal through the wireless transmission equipment, and a user can remotely access and inquire the temperature in the storage box 1 through the personal terminal;

when the temperature in the storage box 1 is lower than two degrees centigrade or higher than six degrees centigrade, the controller sends alarm information to the personal terminal through the wireless transmission device.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, 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 solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (9)

1. Blood storage device comprising a storage tank (1), characterized in that: the device also comprises a shaking unit (2), a pushing unit (3) and a heat dissipation unit (4);

the shaking unit (2) is arranged in the storage box and is used for shaking the stored blood bags;

the shaking unit (2) comprises: the transmission part (21) is arranged at the bottom of the storage box and is used for transmitting the shaking unit (2); the transmission member (21) includes: the device comprises a mounting box (211) arranged at the bottom of the storage box, a double-headed motor (212) arranged in the mounting box (211), a first gear (213) arranged at two ends of an output shaft of the double-headed motor (212), two groups of first shafts (214) arranged at the upper end and the lower end of the storage box, belt pulleys (215) arranged on the first shafts (214), a second gear (216) arranged on the lower first shafts (214), a grooved pulley (217) arranged on the first shafts (214), a sliding groove (218) arranged on the inner wall of the storage box, a first sliding frame (219) arranged on the sliding groove (218) and a first driving belt (2110) arranged between the upper belt pulley (215) and the lower belt pulley (215);

the bearing component (22) is arranged on the transmission component (21) and is used for containing blood bags;

the linkage part (23) is arranged on the bearing part (22) and is used for driving the blood bag to shake back and forth;

the pushing unit (3) is arranged on the shaking unit (2) and is used for pushing the blood bag;

the heat radiating unit (4) is arranged at the bottom of the storage box (1) and is used for radiating heat of the motor.

2. The blood storage device of claim 1, wherein: the bearing component (22) comprises a mounting frame (221) arranged on the sliding frame (219), a plurality of groups of mounting grooves (222) arranged on the mounting frame (221), a T-shaped sliding plate (223) arranged on the mounting grooves (222), a blood bag box (224) arranged on the T-shaped sliding plate (223) and a net cover (225) arranged on the blood bag box (224).

3. The blood storage device of claim 2, wherein: the linkage part (23) comprises a fixed shaft (231) arranged on the grooved pulley (217), a transmission rod (232) arranged on the fixed shaft (231), a first connecting rod (233) arranged on the transmission rod (232), a second connecting rod (234) arranged on the first connecting rod (233), a rotating shaft (235) arranged on the second connecting rod (234), a base (236) arranged on the rotating shaft (235), the base (236) is fixedly connected with the storage box, a third connecting rod (237) arranged on the second connecting rod (234) and a pushing rod (238) arranged on the third connecting rod (237), and the pushing rod (238) is fixedly connected with the blood bag box (224).

4. A blood storage device according to claim 3, wherein: the fixed shaft (231) is arranged at the center of the grooved wheel (217), and the first shaft lever (214) is also arranged at the edge of the grooved wheel (217).

5. The blood storage device of claim 4, wherein: the pushing unit (3) comprises a plurality of groups of protruding blocks (31) arranged on the mounting frame (221), and a pushing component (32) arranged on the T-shaped sliding plate (223).

6. The blood storage device of claim 5, wherein: the pushing component (32) comprises a telescopic groove (321) arranged on the T-shaped sliding plate (223), a telescopic column (322) arranged on the telescopic groove (321), a semicircular ball (323) arranged at the bottom end of the telescopic column (322), an opening (324) arranged at the bottom of the blood bag box (224), a pushing plate (325) arranged on the opening (324), and an elastic piece (326) fixedly connected to the top of the telescopic column (322) and arranged at the side of the telescopic column (322).

7. The blood storage device of claim 6, wherein: the pushing plate (325) is matched with the opening (324) in size, and a semicircle (323) at the bottom of the telescopic column (322) is abutted against the bump (31).

8. The blood storage device of claim 7, wherein: the heat dissipation unit (4) comprises a heat preservation layer (41) arranged on the outer side of the mounting box (211), a first bevel gear (42) arranged on an output shaft of the double-headed motor (212), a first bearing frame (43) arranged on the mounting box (211), a second shaft rod (44) arranged on the first bearing frame (43), a second bevel gear (45) arranged on the second shaft rod (44), a first ring groove (46) arranged at the bottom end of the second shaft rod (44), a second bearing frame (47) arranged on the mounting box (211), a third shaft rod (48) arranged on the second bearing frame (47), a fan (49) arranged at the bottom end of the third shaft rod (48), a second ring groove (410) arranged at the upper end of the third shaft rod (48), and a second driving belt (411) arranged between the second ring groove (410) and the first ring groove (46).

9. The blood storage device of claim 8, wherein: the second ring groove (410) is connected with the first ring groove (46) through a second driving belt (411), and when the double-headed motor (212) works, the fan (49) is driven to rotate.