CN220776096U - Heating device for cell resuscitator - Google Patents

Abstract

The utility model belongs to the field of biology, in particular to a heating device for a cell resuscitator, which aims at the problem of fixed size of an existing heating hole and adopts the following scheme that the heating device comprises an instrument body and a heating shell which is clamped at the top of the instrument body, wherein a support frame is connected inside the heating shell in a sliding way, sliding carriages are welded on two sides inside the support frame, a heating block is connected on the surface of the sliding carriages in a sliding way, a long hole strip is welded at the bottom of the heating block, a sliding block is connected inside the long hole strip in a sliding way, an auxiliary wheel is welded at the bottom of the sliding block, a lifting mechanism can drive the heating block to move through the support frame, the support frame can drive a transmission rod to move through a driving wheel, the transmission rod can drive the auxiliary wheel to rotate through the sliding block, the long hole strip can drive the heating block to move, and thus the size of the heating block can be enlarged or reduced, and a sample tube can be conveniently inserted and pulled out.

Description

Heating device for cell resuscitator

Technical Field

The utility model relates to the technical field of biology, in particular to a heating device for a cell resuscitator.

Background

Along with the rapid development of regenerative medicine and immune cell therapy, a cell resuscitator for thawing and resuscitating cells is gradually updated, and a heating module is required to be arranged in the cell resuscitator and used for heating a frozen reagent sample tube.

However, the heating hole inside the current heating module adopts a structure with a fixed size, and the sample tube is often different from the size of the heating hole due to the influence of thermal expansion and contraction, so that the sample tube cannot be inserted into the heating hole or cannot be pulled out from the heating hole, which brings inconvenience to the use of the device.

Disclosure of Invention

The utility model aims to solve the defect that a sample tube cannot be inserted into or pulled out of a heating hole due to the fact that the size of the heating hole is fixed in the prior art, and provides a heating device for a cell resuscitator.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a heating device for cytoresuscitator, includes the heating shell of instrument body and instrument body open-top joint, the inside sliding connection of heating shell has the support frame, the inside both sides of support frame all weld the balladeur train, the surface sliding connection of balladeur train has the heating piece, the bottom welding of heating piece has the slot hole strip, the inside sliding connection of slot hole strip has the slider, the bottom welding of slider has the auxiliary wheel, the fixed revolving rack that has cup jointed in axle center department of auxiliary wheel bottom, the inside bottom rotation of support frame is connected with the action wheel, the both sides at action wheel top all articulate the transfer line, the top and the bottom of revolving rack front side of transfer line are articulated, the inside middle-end welding of heating shell has the rack, rack and action wheel meshing, the bottom welding of support frame has elevating system, and elevating system can drive the heating piece through the support frame and remove, and the transfer line can drive the transfer line through the action wheel, and the auxiliary wheel can drive the slot hole strip through the slider and remove, and the slot hole strip can drive the heating piece and remove, so can or reduce the inside size of heating piece plug-in and convenient sample.

Preferably, the lifting mechanism comprises a gear motor, a screw rod, a driving wheel, a driving plate, a connecting plate and a slide hole frame, wherein the right side of the gear motor is fixedly arranged on the left side of the heating shell, the output end of the gear motor penetrates through a hole on the left side of the heating shell and is welded with the left end of the screw rod, the bottom of the screw rod is meshed with the top of the driving wheel, the axis of the driving wheel is rotationally connected with the inside of the heating shell, the surface of the driving wheel is hinged with the bottom of the rear side of the driving plate, the top of the rear side of the driving plate is hinged with the left end of the front side of the connecting plate, the top of the slide hole frame is welded with the bottom of the supporting frame, the hinged position of the driving plate and the connecting plate is in sliding connection with the hole inside the slide hole frame, the gear motor drives the driving wheel to rotate through the driving plate and the connecting plate, and the slide Kong Jiatong can drive the slide hole frame to move through the supporting frame.

Preferably, the top of heating shell has seted up the through-hole, the inboard heating hole of heating piece corresponds with the through-hole, and the through-hole is used for inserting the sample pipe, and the sample pipe suits with the inboard heating hole size of heating piece, and the sample pipe inserts the in-process through-hole and can guide the sample pipe.

Preferably, the bottom of slider is connected with one side at auxiliary wheel top, the bottom of revolving rack rotates with the inside of support frame and cup joints, constitutes eccentric structure between slider and the auxiliary wheel, and the auxiliary wheel drives the slider and rotates the in-process and be the left and right movement, lets the slider can drive the slot hole strip and control the removal.

Preferably, the driving wheel is a helical gear, teeth on the surface of the rack are obliquely arranged, the driving wheel and the rack are convenient for the rack to drive the driving wheel to rotate, so that the structure can be conducted, and the heating holes can be expanded or reduced.

Preferably, the transmission plate and the connecting plate are of V-shaped structures, the right end of the connecting plate is hinged with the bottom end inside the support frame, the transmission plate and the connecting plate can drive the slide hole frame to move up and down in the moving process of the transmission plate, the connecting plate can limit the top end of the transmission plate, the movement of the transmission plate can drive the slide hole frame to move up and down, and the hinged relation between the connecting plate and the support frame can limit the connecting plate.

The beneficial effects are that: the gear motor drives the driving wheel to rotate through the screw rod, the driving wheel can drive the sliding hole frame to move through the driving plate and the connecting plate, the sliding Kong Jiatong passes through the supporting frame and can drive the heating block to move, the supporting frame can drive the driving rod to move through the driving wheel, the driving rod can drive the auxiliary wheel to rotate through the rotating frame, the auxiliary wheel can drive the long hole strip to move through the sliding block, the long hole strip can drive the heating block to move, the size of the heating hole inside the heating block can be enlarged or reduced, and the insertion and the extraction of a sample tube are facilitated.

Drawings

FIG. 1 is a schematic perspective view of a heating device for a cell resuscitator according to the present utility model;

FIG. 2 is a schematic diagram showing the front view of a heating shell of a heating device for a cell resuscitator according to the present utility model;

fig. 3 is a schematic diagram of a driving wheel structure of a heating device for a cell resuscitator according to the present utility model;

fig. 4 is a schematic perspective view of a rotating rod of a heating device for a cell resuscitator according to the present utility model.

In the figure: 1 instrument body, 2 heating shell, 3 elevating system, 31 gear motor, 32 screw rod, 33 drive wheel, 34 drive plate, 35 connecting plate, 36 smooth Kong Jia, 4 support frame, 5 balladeur train, 6 heating block, 7 slot hole strip, 8 slider, 9 auxiliary wheel, 10 revolving rack, 11 action wheel, 12 transfer line, 13 rack.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to figures 1-4, a heating device for a cell resuscitator comprises an instrument body 1 and a heating shell 2 clamped at the top opening of the instrument body 1, wherein the instrument body 1 is the cell resuscitator, a support frame 4 is connected inside the heating shell 2 in a sliding way, the support frame 4 is of a U-shaped structure, two sides of the support frame 4 are limited by sliding the support frame 2 through sliding rails, the support frame 4 can stably move up and down, two sides inside the support frame 4 are both welded with a sliding frame 5, the sliding frame 5 adopts an up-down double-layer structure, the surface of the sliding frame 5 is slidingly connected with a heating block 6, the heating block 6 can stably move left and right through a sliding relation with the sliding frame 5, vibration is avoided in the moving process of the heating block 6, the heating block 6 can adopt a heating component of a heating module of the cell resuscitator and is made into a left-right separable structure, a through opening is formed in the top of the heating shell 2, and a heating hole in the heating block 6 corresponds to the through opening, the through hole is used for inserting a sample tube, the sample tube is matched with the size of a heating hole on the inner side of the heating block 6, the sample tube can be guided by the through hole in the process of inserting the sample tube into the heating hole, a long hole strip 7 is welded on the bottom of the heating block 6, a sliding hole in the long hole strip 7 is arranged back and forth, a sliding block 8 is connected in the long hole strip 7 in a sliding manner, the sliding block 8 can slide back and forth in the long hole strip 7 in the rotating process, the long hole strip 7 is conveniently driven to move left and right, an auxiliary wheel 9 is welded on the bottom of the sliding block 8, a rotating frame 10 is fixedly sleeved at the axle center of the bottom of the auxiliary wheel 9, the rotating frame 10 can drive the auxiliary wheel 9 to rotate, the auxiliary wheel 9 can drive the sliding block 8 to rotate, the bottom of the sliding block 8 is connected with one side of the top of the auxiliary wheel 9, the bottom of the rotating frame 10 is rotatably sleeved with the inner part of the supporting frame 4, an eccentric structure is formed between the sliding block 8 and the auxiliary wheel 9, the auxiliary wheel 9 drives the sliding block 8 to move left and right in the rotating process, the sliding block 8 can drive the long hole strip 7 to move left and right, the bottom end in the support frame 4 is rotationally connected with the driving wheel 11, both sides of the top of the driving wheel 11 are hinged with the transmission rods 12, the driving wheel 11 can drive the transmission rods 12 to rotate, as the transmission rods 12 are limited by the rotating frame 10, the moving transmission rods 12 move left and right, the top ends of the transmission rods 12 are hinged with the bottom end at the front side of the rotating frame 10, the middle end in the heating shell 2 is welded with the rack 13, the rack 13 is positioned at the rear side of the support frame 4, the driving wheel 11 is conveniently driven to rotate, the rack 13 is meshed with the driving wheel 11, the driving wheel 11 is a helical gear, teeth on the surface of the rack 13 are obliquely arranged, the structures of the driving wheel 11 and the rack 13 facilitate the rack 13 to drive the driving wheel 11 to rotate, so that the structure can be conducted, the heating hole can be expanded or reduced, the lifting mechanism 3 is welded at the bottom of the supporting frame 4, the lifting mechanism 3 can drive the supporting frame 4 to move up and down, the lifting mechanism 3 comprises a gear motor 31, a screw rod 32, a driving wheel 33, a driving plate 34, a connecting plate 35 and a sliding hole frame 36, the gear motor 31 can provide power for the lifting mechanism 3, the right side of the gear motor 31 is fixedly arranged at the left side of the heating shell 2, the output end of the gear motor 31 penetrates through a hole at the left side of the heating shell 2 and is welded with the left end of the screw rod 32, the gear motor 31 can drive the screw rod 32 to rotate, the bottom of the screw rod 32 is meshed with the top of the driving wheel 33, a worm and worm wheel structure is formed between the screw rod 32 and the driving wheel 33, the driving wheel 33 is convenient to drive the driving wheel 33 to rotate, the driving wheel 33 can not drive the screw rod 32 to rotate, the axis of the driving wheel 33 is rotationally connected with the inside of the heating shell 2, the surface of the driving wheel 33 is hinged with the bottom end of the rear side of the driving plate 34, the driving wheel 33 can drive the driving plate 34 to rotate, the driving plate 34 moves up and down in the rotating process, the top end of the rear side of the driving plate 34 is hinged with the left end of the front side of the connecting plate 35, the driving plate 34 is limited by the connecting plate 35, the driving plate 34 can move up and down, the height of the supporting frame 4 is convenient to adjust, the top of the sliding hole frame 36 is welded with the bottom of the supporting frame 4, the sliding hole frame 36 can drive the supporting frame 4 to move up and down, the hinged part of the driving plate 34 and the connecting plate 35 is in sliding connection with the hole inside the sliding hole frame 36, the driving plate 34 and the connecting plate 35 can slide in the sliding hole of the sliding hole frame 36 in the rotating process and drive the supporting frame 4 to move up and down, the driving plate 34 and the connecting plate 35 are in a V-shaped structure, the right end of the connecting plate 35 is hinged with the bottom end inside the supporting frame 4, the structure of the transmission plate 34 and the connecting plate 35 can drive the sliding hole frame 36 to move up and down in the moving process of the transmission plate 34, the connecting plate 35 can limit the top end of the transmission plate 34, the moving of the transmission plate 34 can drive the sliding hole frame 36 to move up and down, the hinging relation between the connecting plate 35 and the supporting frame 4 can limit the connecting plate 35, the gear motor 31 drives the driving wheel 33 to rotate through the screw rod 32, the driving wheel 33 can drive the sliding hole frame 36 to move through the transmission plate 34 and the connecting plate 35, the sliding hole frame 36 can drive the heating block 6 to move through the supporting frame 4, the supporting frame 4 can drive the transmission rod 12 to move through the driving wheel 11, the transmission rod 12 can drive the auxiliary wheel 9 to rotate through the rotating frame 10, the auxiliary wheel 9 can drive the long hole bar 7 to move through the sliding block 8, and the long hole bar 7 can drive the heating block 6 to expand or shrink the size of the heating block 6 to heat, the sample tube is convenient to insert and withdraw.

Working principle: when the power supply of the gear motor 31 is connected, the gear motor 31 can drive the screw 32 to rotate, the screw 32 can drive the driving wheel 33 to rotate clockwise, the driving wheel 33 can drive the driving plate 34 to move rightwards, the top end of the driving plate 34 is limited by the connecting plate 35, the driving plate 34 moving rightwards also moves upwards, the driving plate 34 and the connecting plate 35 slide in the sliding hole frame 36 and drive the sliding hole frame 36 to move upwards, the sliding hole frame 36 drives the supporting frame 4 to move upwards, the supporting frame 4 drives the driving wheel 11 to move upwards, the driving wheel 11 is meshed with the rack 13 in the upward moving process, so as to drive the driving wheel 11 to rotate, the driving wheels 11 can drive the driving rods 12 on two sides to move inwards, the driving rods 12 can drive the rotating frame 10 to rotate, the rotating frame 10 drives the auxiliary wheel 9 to rotate, the auxiliary wheel 9 drives the sliding block 8 to rotate outwards, the sliding block 8 slides forwards and backwards in the long hole bar 7 to move outwards, the two long hole strips 7 respectively drive the two heating blocks 6 to move outwards, the sliding frame 5 slides and limits the heating blocks 6, the heating blocks 6 which move outwards expand the aperture of the heating holes, when the aperture of the heating blocks 6 needs to be reduced, the speed reducing motor 31 can drive the screw rod 32 to rotate reversely, the screw rod 32 can drive the driving wheel 33 to rotate anticlockwise, the driving wheel 33 can drive the driving plate 34 to move leftwards, the top end of the driving plate 34 is limited by the connecting plate 35, the driving plate 34 which moves leftwards also moves downwards, the driving plate 34 and the connecting plate 35 slide in the sliding hole frame 36 and drive the sliding hole frame 36 to move downwards, the sliding hole frame 36 drives the supporting frame 4 to move downwards, the supporting frame 4 drives the driving wheel 11 to move downwards, the driving wheel 11 is meshed with the rack 13 in the downward movement process, so as to drive the driving wheel 11 to rotate reversely, the driving wheel 11 can drive the driving rods 12 on two sides to move outwards, the transmission rod 12 can drive the rotating frame 10 to reversely rotate, the rotating frame 10 drives the auxiliary wheel 9 to reversely rotate, the auxiliary wheel 9 drives the sliding block 8 to inwards rotate, the sliding block 8 slides back and forth in the long hole strip 7 and drives the long hole strip 7 to inwards move, the two long hole strips 7 respectively drive the two heating blocks 6 to inwards move, the sliding frame 5 slides and limits the heating blocks 6, and the aperture of a heating hole is reduced by the inwards moved heating blocks 6.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a heating device for cytoresuscitator, includes heating shell (2) of instrument body (1) and instrument body (1) top open joint, a serial communication port, the inside sliding connection of heating shell (2) has support frame (4), the inside both sides of support frame (4) all weld balladeur train (5), the surface sliding connection of balladeur train (5) has heating block (6), the bottom welding of heating block (6) has slot hole strip (7), the inside sliding connection of slot hole strip (7) has slider (8), the bottom welding of slider (8) has auxiliary wheel (9), the fixed revolving rack (10) that cup joints in axle center department of auxiliary wheel (9) bottom, the inside bottom rotation of support frame (4) is connected with action wheel (11), all articulated transfer line (12) in both sides at action wheel (11) top, the top of transfer line (12) articulates with the bottom of revolving rack (10) front side, the inside middle-end welding of heating shell (2) has rack (13), rack (13) and the bottom welding mechanism (3) of support frame (4) meshing.

2. The heating device for a cytoresuscitator according to claim 1, wherein the lifting mechanism (3) comprises a gear motor (31), a screw rod (32), a driving wheel (33), a driving plate (34), a connecting plate (35) and a slide hole frame (36), the right side of the gear motor (31) is fixedly installed with the left side of the heating shell (2), the output end of the gear motor (31) penetrates through a hole on the left side of the heating shell (2) and is welded with the left end of the screw rod (32), the bottom of the screw rod (32) is meshed with the top of the driving wheel (33), the axis center of the driving wheel (33) is in rotary connection with the inside of the heating shell (2), the surface of the driving wheel (33) is hinged with the bottom of the rear side of the driving plate (34), the top of the rear side of the driving plate (34) is hinged with the left end of the front side of the connecting plate (35), the top of the slide hole frame (36) is welded with the bottom of the supporting frame (4), and the hinge joint of the driving plate (34) with the connecting plate (35) is connected with the hole inside the slide hole frame (36).

3. The heating device for a cytoresuscitation instrument according to claim 1, wherein a through hole is formed in the top of the heating shell (2), and the heating hole on the inner side of the heating block (6) corresponds to the through hole.

4. The heating device for the cytoresuscitation instrument according to claim 1, wherein the bottom of the sliding block (8) is connected with one side of the top of the auxiliary wheel (9), and the bottom end of the rotating frame (10) is rotatably sleeved with the inside of the supporting frame (4).

5. The heating device for a cytoresuscitation instrument according to claim 1, wherein the driving wheel (11) is a helical gear, and teeth on the surface of the rack (13) are disposed in an inclined manner.

6. The heating device for the cytoresuscitation instrument according to claim 2, wherein the transmission plate (34) and the connection plate (35) are of a V-shaped structure, and the right end of the connection plate (35) is hinged with the bottom end inside the support frame (4).