CN114410450B

CN114410450B - Microorganism rapid detection kit

Info

Publication number: CN114410450B
Application number: CN202210022331.XA
Authority: CN
Inventors: 肖璐军
Original assignee: Zhejiang Yuanqin Biopharmaceutical Technology Co ltd
Current assignee: Zhejiang Yuanqin Biopharmaceutical Technology Co ltd
Priority date: 2022-01-10
Filing date: 2022-01-10
Publication date: 2024-02-09
Anticipated expiration: 2042-01-10
Also published as: CN114410450A

Abstract

The invention relates to a kit, in particular to a rapid microorganism detection kit. Provided is a rapid microorganism detection kit capable of automatically shaking and heating. A microorganism rapid detection kit comprises: a frame; the two support frames are arranged on the frame body; the two cover plates are respectively and rotatably arranged on the frame body; a heating frame mounted on the frame body; the heat insulation plate is rotatably arranged on the heating frame; the at least two heaters are arranged on the heating frame; the two placing blocks are arranged on the frame body; the bottles are shaken, and at least two bottles are shaken. According to the invention, the cover plate can be fixed through the fixing component, the cover plate is prevented from being opened, the shaking bottle can be shaken through the shaking component, the shaking bottle can be blocked when the cover plate is closed through the blocking component, the shaking bottle is prevented from toppling over, the cover plate can be fixed when microorganisms are detected through the limiting component, and the cover plate is prevented from being closed.

Description

Microorganism rapid detection kit

Technical Field

The invention relates to a kit, in particular to a rapid microorganism detection kit.

Background

The kit is a box for containing chemical reagents for detecting chemical components, drug residues, biological species and the like. Typically, the kit is used in hospitals or pharmaceutical enterprises, and is indispensable in detecting microorganisms.

At present, the existing microorganism kit is only used for placing microorganisms, can not shake the microorganism kit during detection, needs to shake the microorganism kit manually, is inconvenient for people to use, can not heat the microorganism kit, and has low detection efficiency.

Therefore, it is necessary to solve the above problems by inventing a rapid microorganism detection kit capable of automatically performing shaking and heating.

Disclosure of Invention

In order to overcome the defect that the existing microbial kit needs to be shaken manually and cannot be heated, the technical problem is that: provided is a rapid microorganism detection kit capable of automatically shaking and heating.

The technical scheme of the invention is as follows: a microorganism rapid detection kit comprises: a frame; the two support frames are arranged on the frame body; the two cover plates are respectively and rotatably arranged on the frame body; a heating frame mounted on the frame body; the heat insulation plate is rotatably arranged on the heating frame; the at least two heaters are arranged on the heating frame; the two placing blocks are arranged on the frame body; shaking bottles, wherein the shaking bottles are arranged on two sides of the placing block; the fixed component is arranged on the cover plate; and the shaking assembly is arranged on the frame body.

Further, the fixed subassembly is including: the two fixing plates are arranged on the cover plate; the clamping plate is installed on the fixed plate in a sliding mode and matched with the other fixed plate; the right angle plate is arranged on the fixed plate; and the two first springs are arranged between the right angle plate and the clamping plate.

Further, shake the subassembly and include: the gear motor is arranged on the frame body; the two cross bars are arranged on the frame body; the two shaking plates are respectively and rotatably arranged on the cross rod; the first pulling plates are at least two and are rotatably arranged on the shaking plate; the transverse plate is rotatably arranged between the first pulling plates; the two screw rods are arranged on the shaking plate and are matched with the shaking bottle; the two guide blocks are arranged on the frame body and are connected with the transverse plate in a sliding manner; the disc is arranged on an output shaft of the speed reducing motor; and the second pulling plate is rotatably arranged between the disc and the transverse plate.

Further, still including blocking the subassembly, blocking the subassembly and including: sliding grooves are formed in the support frames, and the sliding blocks are arranged in the sliding grooves in a sliding mode; the two blocking plates are slidably arranged on the support frame; the two connecting plates are respectively and rotatably arranged between the blocking plate and the sliding block; the two sliding rails are arranged on the frame body; the two special-shaped plates are respectively arranged in the sliding rail in a sliding manner and are connected with the sliding block; the fixed pulleys are two and are rotatably arranged on the sliding rail; the two pull wires are arranged on the special-shaped plate, and the tail ends of the pull wires are connected with the cover plate by bypassing the fixed pulley; and the two second springs are arranged between the special-shaped plate and the sliding rail and are in a stretching state.

Further, still including spacing subassembly, spacing subassembly is including: a square ring mounted on the frame; the curved block is slidably arranged on the square ring; the third spring is arranged between the curved block and the square ring; and the limiting plates are two and are all installed on the frame body in a sliding mode, and the limiting plates are all connected with the curved blocks.

Further, still including clamping assembly, clamping assembly is including: the two fixing blocks are arranged on the heating frame; the clamping blocks are two and are all rotatably arranged on the fixing block, and the clamping blocks are matched with the heat insulation plate.

Further, the device comprises a pushing assembly, the pushing assembly comprises a connecting block, a pushing block, a guide rod, a strip-shaped plate, a fourth spring and a fifth spring, the blocking plate is provided with the connecting block, the pushing block is arranged at the rear of the connecting block, the guide rod is arranged at the left and right parts of the rear side in the frame body, the strip-shaped plate is arranged on the guide rod in a sliding mode, the strip-shaped plate is matched with the clamping block, the strip-shaped plate is matched with the pushing block, the fourth spring is connected between the strip-shaped plate and the guide rod in a winding mode, and the fifth spring is connected between the clamping block and the heating frame.

The beneficial effects of the invention are as follows: according to the invention, the cover plate can be fixed through the fixing component, the cover plate is prevented from being opened, the shaking bottle can be shaken through the shaking component, the shaking bottle can be blocked when the cover plate is closed through the blocking component, the shaking bottle is prevented from toppling over, the cover plate can be fixed when microorganisms are detected through the limiting component, the cover plate is prevented from being closed, the heat insulation plate can be prevented from being opened through the clamping component, and the clamping block can automatically clamp the heat insulation plate through the pushing component.

Drawings

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

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a schematic perspective view of a fixing assembly according to the present invention.

Fig. 4 is a schematic perspective view of a wobble assembly according to the present invention.

Fig. 5 is a schematic perspective view of a blocking assembly according to the present invention.

Fig. 6 is a schematic perspective view of a limiting assembly according to the present invention.

Fig. 7 is a schematic perspective view of a clamping assembly according to the present invention.

Fig. 8 is a schematic perspective view of a pushing assembly according to the present invention.

In the reference numerals: 1-frame body, 2-supporting frame, 3-cover plate, 4-heating frame, 5-heat insulation plate, 6-heater, 7-placing block, 8-shaking bottle, 9-fixing component, 91-fixing plate, 92-clamping plate, 93-right angle plate, 94-first spring, 10-shaking component, 101-reducing motor, 102-cross bar, 103-shaking plate, 104-first pulling plate, 105-cross bar, 106-lead screw, 107-guiding block, 108-disc, 109-second pulling plate, 11-blocking component, 111-chute, 112-sliding block, 113-blocking plate, 114-connecting plate, 115-sliding rail, 116-abnormal plate, 117-fixed pulley, 118-pulling wire, 119-second spring, 12-limiting component, 121-square ring, 122-curved block, 123-third spring, 124-limiting plate, 13-clamping component, 131-fixing block, 132-clamping block, 14-pushing component, 141-142-pushing block, 143-guiding bar, 144-bar, 145-fourth spring, 146-fifth spring.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides a quick detect reagent box of microorganism, as shown in FIG. 1, including framework 1, support frame 2, apron 3, heating frame 4, heat insulating board 5, heater 6, place piece 7, shake bottle 8, fixed subassembly 9 and shake subassembly 10, both sides all are equipped with support frame 2 about framework 1, framework 1 left and right sides upper portion all rotates and is equipped with apron 3, the rear portion is equipped with heating frame 4 in the framework 1, heating frame 4 top rotation is equipped with heat insulating board 5, both sides all are equipped with a row of heater 6 in the heating frame 4, both sides all are equipped with in the framework 1 and place piece 7 about the front side, place piece 7 both sides and have all been placed and shake bottle 8, be equipped with fixed subassembly 9 on the apron 3, be equipped with on the framework 1 and shake subassembly 10.

When using the device, the staff put the microorganism that needs to detect into rocking bottle 8, when needs detect the microorganism, the staff will rock bottle 8 and put and rock on rocking subassembly 10, after accomplishing, the staff will rock bottle 8 and put in heating frame 4, heats it through heater 6, after using, the staff closes apron 3, fixes through fixed subassembly 9, so, can detect the microorganism.

As shown in fig. 1, 2 and 3, the fixing assembly 9 includes a fixing plate 91, a clamping plate 92, a right angle plate 93 and first springs 94, the cover plate 3 is provided with the fixing plate 91, the clamping plate 92 is slidably provided in the right fixing plate 91, the clamping plate 92 is matched with the other fixing plate 91, the right fixing plate 91 is provided with the right angle plate 93, and two first springs 94 are connected between the right angle plate 93 and the clamping plate 92.

When the cover plate 3 needs to be closed, a worker pulls the clamping plate 92 to slide downwards on the fixed plate 91, the first spring 94 is compressed, after the cover plate 3 is closed, the clamping plate 92 is loosened by the worker, and under the action of resetting of the first spring 94, the clamping plate 92 is clamped into the other fixed plate 91 in a sliding way, so that the cover plate 3 can be fixed, and the cover plate 3 is prevented from being opened.

As shown in fig. 1, fig. 2 and fig. 4, the shaking assembly 10 comprises a gear motor 101, a cross rod 102, a shaking plate 103, a first pulling plate 104, a transverse plate 105, a screw rod 106, a guide block 107, a disc 108 and a second pulling plate 109, wherein the gear motor 101 is fixedly connected to the front side of the frame 1 through bolts, the cross rod 102 is arranged at the left and right parts of the frame 1, the shaking plate 103 is rotatably arranged on the cross rod 102, two first pulling plates 104 are rotatably arranged on the shaking plate 103, a transverse plate 105 is rotatably arranged between the left and right first pulling plates 104, a screw rod 106 is arranged on the shaking plate 103, the screw rod 106 is matched with the shaking bottle 8, the guide block 107 is slidably connected with the transverse plate 105, the disc 108 is arranged on the output shaft of the gear motor 101, and the second pulling plate 109 is rotatably arranged between the disc 108 and the transverse plate 105.

When detecting microorganisms, a worker puts the shaking bottle 8 on the shaking plate 103, the shaking bottle is fixed through the screw rod 106, then, the worker starts the gear motor 101, the gear motor 101 rotates to drive the disc 108 to rotate, the disc 108 rotates to drive the transverse plate 105 to move up and down through the second pulling plate 109, the transverse plate 105 moves up and down to drive the shaking plate 103 to shake up and down through the first pulling plate 104, and then the shaking bottle 8 is driven to shake, after the shaking bottle is used, the worker closes the gear motor 101, and therefore the shaking bottle 8 can be shaken.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 5 and fig. 8, the device further comprises a blocking component 11, the blocking component 11 comprises a sliding block 112, a blocking plate 113, a connecting plate 114, a sliding rail 115, a special-shaped plate 116, a fixed pulley 117, a stay wire 118 and a second spring 119, the front side of the supporting frame 2 is provided with a sliding groove 111, the sliding groove 111 is internally provided with the sliding block 112 in a sliding manner, the upper part of the front side of the supporting frame 2 is provided with the blocking plate 113 in a sliding manner, the connecting plate 114 is rotatably arranged between the blocking plate 113 and the sliding block 112, the left side and the right side in the frame 1 are respectively provided with the sliding rail 115, the sliding rail 115 is internally provided with the special-shaped plate 116, the special-shaped plate 116 is connected with the sliding block 112, the top of the sliding rail 115 is rotatably provided with the fixed pulley 117, the tail end of the stay wire 118 is connected with the cover plate 3 by bypassing the fixed pulley 117, the second spring 119 is connected between the special-shaped plate 116 and the sliding rail 115, and the second spring 119 is in a compressed state.

When the device is used, the cover plate 3 is closed to loosen the stay wire 118, at this time, under the action of the reset of the second spring 119, the special-shaped plate 116 slides downwards in the sliding rail 115, the special-shaped plate 116 slides downwards to drive the sliding block 112 to slide downwards in the sliding groove 111, and the sliding block 112 slides downwards to drive the blocking plate 113 to slide backwards through the connecting plate 114 to block the shaking bottle 8, so that the shaking bottle 8 can be blocked when the cover plate 3 is closed, and the shaking bottle 8 is prevented from toppling over.

On the basis of embodiment 1, as shown in fig. 1, 2 and 6, the device further comprises a limiting component 12, wherein the limiting component 12 comprises a square ring 121, a curved block 122, a third spring 123 and a limiting plate 124, the square ring 121 is arranged on the rear side of the frame body 1, the curved block 122 is arranged on the square ring 121 in a sliding mode, the third spring 123 is wound between the curved block 122 and the square ring 121, the limiting plate 124 is arranged on the left side and the right side of the frame body 1 in a sliding mode, the limiting plate 124 is matched with the cover plate 3, and the limiting plate 124 is connected with the curved block 122.

When the device is used, the limiting plate 124 can fix the cover plate 3 when detecting microorganisms, the cover plate 3 is prevented from being closed, after detection is completed, a worker pushes the curved block 122 to slide downwards in the square ring 121, the third spring 123 is compressed, the curved block 122 slides downwards to drive the limiting plate 124 to move downwards so as not to block the cover plate 3 any more, and at the moment, the worker can push the cover plate 3 to rotate downwards to be closed.

On the basis of embodiment 1, as shown in fig. 1, 2, 7 and 8, the heat insulation plate heat insulation device further comprises a clamping assembly 13, wherein the clamping assembly 13 comprises a fixed block 131 and clamping blocks 132, the left side and the right side of the heating frame 4 are respectively provided with the fixed block 131, the fixed block 131 is respectively provided with the clamping blocks 132 in a rotating mode, and the clamping blocks 132 are respectively matched with the heat insulation plate 5.

After the worker closes the heat insulation board 5, the worker can push the clamping block 132 to rotate on the fixing block 131 in opposite directions to clamp the heat insulation board 5, so that the heat insulation board 5 can be prevented from being opened.

On the basis of embodiment 1, as shown in fig. 1 and 8, the device further comprises a pushing component 14, the pushing component 14 comprises a connecting block 141, a pushing block 142, a guide rod 143, a strip-shaped plate 144, a fourth spring 145 and a fifth spring 146, the blocking plate 113 is provided with the connecting block 141, the pushing block 142 is arranged at the rear part of the connecting block 141, the left and right parts of the rear side in the frame 1 are respectively provided with the guide rod 143, the guide rod 143 is respectively provided with the strip-shaped plate 144 in a sliding manner, the strip-shaped plate 144 is matched with the clamping block 132, the strip-shaped plate 144 is matched with the pushing block 142, the fourth spring 145 is respectively wound between the strip-shaped plate 144 and the guide rod 143, and the fifth spring 146 is respectively connected between the clamping block 132 and the heating frame 4.

When the device is used, the blocking plate 113 slides backwards to drive the pushing block 142 to move backwards through the connecting block 141, when the pushing block 142 moves backwards to be in contact with the strip-shaped plate 144, the pushing block 142 moves backwards to push the strip-shaped plate 144 to slide upwards on the guide rod 143, the fourth spring 145 is compressed, the strip-shaped plate 144 slides upwards to push the clamping block 132 to rotate oppositely to clamp the heat insulation plate 5, the fifth spring 146 is compressed, when the blocking plate 113 slides forwards, the connecting block 141 drives the pushing block 142 to move forwards to be separated from the strip-shaped plate 144, at this time, under the reset action of the fourth spring 145, the strip-shaped plate 144 slides downwards to reset to not push the clamping block 132 any more, and under the reset action of the fifth spring 146, the clamping block 132 rotates backwards to clamp the heat insulation plate 5 no longer, so that the clamping block 132 can clamp the heat insulation plate 5 automatically.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims

1. A microorganism rapid detection kit is characterized by comprising: a frame (1); the two support frames (2) are arranged on the frame body (1); the two cover plates (3) are respectively rotatably arranged on the frame body (1); a heating frame (4) mounted on the frame body (1); the heat insulation plate (5) is rotatably arranged on the heating frame (4); the heaters (6) are at least two, and are arranged on the heating frame (4); the two placing blocks (7) are arranged on the frame body (1); shaking bottles (8), wherein the shaking bottles (8) are arranged at two sides of the placing block (7); the fixed component (9) is arranged on the cover plate (3); a shaking assembly (10) mounted on the frame (1);

the shaking assembly (10) comprises: a gear motor (101) mounted on the frame (1); the two cross bars (102) are arranged on the frame body (1); the two shaking plates (103) are respectively arranged on the cross rod (102) in a rotating way; the first pulling plates (104) are at least two, and are rotatably arranged on the shaking plate (103); a cross plate (105) rotatably installed between the first pulling plates (104); the two screw rods (106) are arranged on the shaking plate (103), and the screw rods (106) are matched with the shaking bottle (8); the two guide blocks (107) are arranged on the frame body (1), and the guide blocks (107) are connected with the transverse plate (105) in a sliding manner; a disk (108) mounted on an output shaft of the gear motor (101); a second pulling plate (109) rotatably mounted between the disc (108) and the cross plate (105);

still including blocking subassembly (11), blocking subassembly (11) are including: sliding blocks (112), wherein sliding grooves (111) are formed in the support frame (2), and the two sliding blocks (112) are arranged in the sliding grooves (111) in a sliding mode; the two blocking plates (113) are arranged on the support frame (2) in a sliding manner; the two connecting plates (114) are respectively arranged between the blocking plate (113) and the sliding block (112) in a rotating way; the two sliding rails (115) are arranged on the frame body (1); the two special-shaped plates (116) are arranged in the sliding rail (115) in a sliding mode, and the special-shaped plates (116) are connected with the sliding blocks (112); the fixed pulleys (117) are two, and are rotatably arranged on the sliding rail (115); the two pull wires (118) are arranged on the special-shaped plate (116), and the tail ends of the pull wires (118) are connected with the cover plate (3) by bypassing the fixed pulley (117); the two second springs (119) are arranged between the special-shaped plate (116) and the sliding rail (115), and the second springs (119) are in a compressed state;

still including spacing subassembly (12), spacing subassembly (12) are including: a square ring (121) mounted on the frame (1); a curved block (122) slidably mounted on the square ring (121); a third spring (123) mounted between the curved block (122) and the square ring (121); the two limiting plates (124) are arranged on the frame body (1) in a sliding mode, and the limiting plates (124) are connected with the curved blocks (122);

the clamping assembly (13) is further included, and the clamping assembly (13) comprises: the two fixing blocks (131) are arranged on the heating frame (4); the two clamping blocks (132) are respectively arranged on the fixed block (131) in a rotating way, and the clamping blocks (132) are matched with the heat insulation plate (5);

the device also comprises a pushing component (14), wherein the pushing component (14) comprises: the two connecting blocks (141) are arranged on the blocking plate (113); the pushing blocks (142) are two, and are arranged on the connecting block (141); the two guide rods (143) are arranged on the frame body (1); the two strip-shaped plates (144) are respectively and slidably arranged on the guide rod (143), the strip-shaped plates (144) are respectively matched with the clamping blocks (132), and the strip-shaped plates (144) are respectively matched with the pushing blocks (142); the four springs (145) are arranged between the strip-shaped plate (144) and the guide rod (143); and two fifth springs (146), wherein the two fifth springs (146) are arranged between the clamping block (132) and the heating frame (4).

2. A kit for the rapid detection of microorganisms according to claim 1, characterized in that the fixing assembly (9) comprises: the two fixing plates (91) are arranged on the cover plate (3); the clamping plate (92) is slidably arranged on the fixed plate (91), and the clamping plate (92) is matched with the other fixed plate (91); a rectangular plate (93) mounted on the fixed plate (91); the two first springs (94) are arranged between the right angle plate (93) and the clamping plate (92).

3. The rapid microbial detection kit of claim 2, further comprising: the clamping block (132), the clamping block (132) is L-shaped.