CN114410450A

CN114410450A - Quick detect reagent box of microorganism

Info

Publication number: CN114410450A
Application number: CN202210022331.XA
Authority: CN
Inventors: 肖璐军
Original assignee: Individual
Current assignee: Zhejiang Yuanqin Biopharmaceutical Technology Co ltd
Priority date: 2022-01-10
Filing date: 2022-01-10
Publication date: 2022-04-29
Anticipated expiration: 2042-01-10
Also published as: CN114410450B

Abstract

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

Description

Quick detect reagent box of microorganism

Technical Field

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

Background

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

At present, the existing microorganism kit is only used for placing microorganisms, and when the microorganism kit is used for detection, the microorganism kit cannot be shaken, and the microorganism kit needs to be manually shaken by workers, so that the microorganism kit is inconvenient for people to use and cannot be heated, and the detection efficiency is low.

Therefore, it is necessary to provide a rapid microorganism detection kit which can be automatically shaken and heated to solve the above problems.

Disclosure of Invention

In order to overcome the defect that the conventional microbial kit needs to be shaken manually and cannot be heated, the technical problem is as follows: provided is a rapid microorganism detection kit which can automatically shake and heat.

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

Further, the fixed subassembly includes: two fixing plates are arranged and are mounted on the cover plate; the clamping plate is arranged on the fixed plate in a sliding mode and is matched with the other fixed plate; the right-angle plate is arranged on the fixed plate; first spring, first spring are two, all install between rectangular plate and cardboard.

Further, the shaking assembly comprises: a reduction motor installed on the frame; two cross rods are arranged on the frame body; two shaking plates are arranged on the cross rod in a rotating mode; at least two first pulling plates 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 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: the two sliding blocks are arranged on the supporting frame and are arranged in the sliding grooves in a sliding manner; two blocking plates are arranged and are arranged on the supporting frame in a sliding mode; two connecting plates are arranged and are rotatably mounted between the barrier plate and the sliding block; two slide rails are arranged and are mounted on the frame body; the two special-shaped plates are arranged and are arranged in the sliding rail in a sliding manner, and the special-shaped plates are connected with the sliding block; two fixed pulleys are rotatably mounted on the slide rail; 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; the second spring, the second spring is two, all installs between special-shaped plate and slide rail, and the second spring is in extending state.

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

Further, still including clamping component, clamping component includes: two fixing blocks are arranged and are mounted on the heating frame; the fixture block, fixture block are two, and equal rotary type installs on the fixed block, and the fixture block all cooperates with the heat insulating board.

Further, still including promoting the subassembly, promote the subassembly including the connecting block, promote the piece, the guide arm, the bar board, fourth spring and fifth spring, all be equipped with the connecting block on the barrier plate, the connecting block rear portion all is equipped with promotes the piece, both parts all are equipped with the guide arm about the frame internal rear side, all slidingtype is equipped with the bar board on the guide arm, the bar board all cooperates with the fixture block, the bar board all cooperates with promoting the piece, all the round trip has the fourth spring between bar board and the guide arm, all be connected with the fifth spring between fixture block and the heating frame.

The invention has the beneficial effects that: the cover plate can be fixed through the fixing assembly, the cover plate is prevented from being opened, the shaking bottle can be shaken through the shaking assembly, the shaking bottle can be blocked when the cover plate is closed through the blocking assembly, the shaking bottle is prevented from toppling, the cover plate can be fixed when microorganisms are detected through the limiting assembly, the cover plate is prevented from being closed, the heat insulation plate can be prevented from being opened through the clamping assembly, and the heat insulation plate can be automatically clamped by the clamping block through the pushing assembly.

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 the fixing assembly of the present invention.

FIG. 4 is a schematic perspective view of a wobble assembly of the present invention.

Fig. 5 is a schematic perspective view of the barrier assembly of the present invention.

Fig. 6 is a schematic perspective view of the spacing assembly of the present invention.

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

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

In the reference symbols: 1-frame body, 2-support 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-speed reducing motor, 102-cross bar, 103-shaking plate, 104-first pulling plate, 105-cross plate, 106-screw rod, 107-guide block, 108-round plate, 109-second pulling plate, 11-blocking component, 111-sliding groove, 112-sliding block, 113-blocking plate, 114-connecting plate, 115-sliding rail, 116-special-shaped 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-fixing block, 14-pushing component, 141-connecting block, 142-pushing block, 143-guide rod, 144-strip-shaped plate, 145-fourth spring and 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, rock bottle 8, fixed subassembly 9 and rock subassembly 10, framework 1 left and right sides portion all is equipped with support frame 2, the equal rotary type in framework 1 left and right sides upper portion is equipped with apron 3, rear portion is equipped with heating frame 4 in framework 1, heating frame 4 top rotary type is equipped with heat insulating board 5, the left and right sides all is equipped with one row of heater 6 in the heating frame 4, the front side left and right sides portion all is equipped with places piece 7 in framework 1, place piece 7 both sides and all placed and rock bottle 8, be equipped with fixed subassembly 9 on the apron 3, be equipped with on the framework 1 and rock subassembly 10.

When using the device, the staff will need to carry out the microorganism that detects and put to rocking in the bottle 8, when needs examine the microorganism, the staff will rock bottle 8 and put to rocking and rock on the subassembly 10 and rock, and after the completion, the staff will rock bottle 8 and put to heating frame 4 in, heat it through heater 6, use the completion after, 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 comprises a fixing plate 91, a clamping plate 92, a right-angle plate 93 and a first spring 94, the fixing plate 91 is arranged on the cover plate 3, the clamping plate 92 is arranged in the fixing plate 91 on the right in a sliding manner, the clamping plate 92 is matched with the other fixing plate 91, the right-angle plate 93 is arranged on the fixing plate 91 on the right, and two first springs 94 are connected between the right-angle plate 93 and the clamping plate 92.

When the apron 3 needs to be closed, staff's pulling cardboard 92 is gliding downwards on fixed plate 91, and first spring 94 is compressed, and when closing apron 3 back, staff loosens cardboard 92, and under the effect that first spring 94 resets, cardboard 92 slides upwards along with it and goes into in another fixed plate 91, so, can fix apron 3, avoid apron 3 to open.

As shown in fig. 1, 2 and 4, the shaking assembly 10 includes a speed reduction motor 101, a cross bar 102, a shaking plate 103, first pulling plates 104, a cross plate 105, a lead screw 106, guide blocks 107, a disc 108 and a second pulling plate 109, the speed reduction motor 101 is fixedly connected to the front side of the frame 1 through bolts, the cross bar 102 is arranged on both left and right portions in the frame 1, the shaking plate 103 is arranged on the cross bar 102 in a rotating manner, the two first pulling plates 104 are arranged on the shaking plate 103 in a rotating manner, the cross plates 105 are arranged between the left and right first pulling plates 104 in a rotating manner, the lead screw 106 is arranged on the shaking plate 103, the lead screw 106 is matched with the shaking bottle 8, the guide blocks 107 are arranged on both left and right portions in the frame 1, the guide blocks 107 are connected with the cross plates 105 in a sliding manner, the disc 108 is arranged on an output shaft of the speed reduction motor disc 101, and the second pulling plate 109 is arranged between the disc 108 and the cross plate 105 in a rotating manner.

When examining the microorganism, the staff will rock bottle 8 and put to rocking on the board 103, it is fixed through lead screw 106, subsequently, the staff starts gear motor 101, gear motor 101 rotates and drives disc 108 and rotate, disc 108 rotates and drives diaphragm 105 through second pulling plate 109 and reciprocates, diaphragm 105 reciprocates and rocks about shaking board 103 through first pulling plate 104 drive, and then the drive rocks bottle 8 and rocks, after the use is accomplished, the staff closes gear motor 101, thus, can rock bottle 8 to rocking.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 5 and 8, the present invention further comprises a blocking assembly 11, the blocking assembly 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 pull wire 118 and a second spring 119, the front side of the support frame 2 is provided with a sliding slot 111, the sliding block 112 is arranged in the sliding slot 111 in a sliding manner, the upper portion of the front side of the support 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 of the frame 1 are provided with the sliding rail 115, the special-shaped plate 116 is arranged in the sliding manner, the special-shaped plate 116 is connected with the sliding block 112, the top of the sliding rail 115 is provided with the fixed pulley 117 in a rotating manner, the pull wire 118 is arranged on the special-shaped plate 116, the tail end of the pull wire 118 is connected with the cover plate 3 by passing around the fixed pulley 117, the second spring 119 is connected between the special-shaped plate 116 and the sliding rail 115, the second spring 119 is in a compressed state.

When the device is used, the cover plate 3 is closed to loosen the pull 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 chute 111, 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, and thus, 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, fig. 2 and fig. 6, the portable electronic device further includes a limiting component 12, the limiting component 12 includes a square ring 121, a curved block 122, a third spring 123 and a limiting plate 124, the square ring 121 is disposed at the rear side of the frame body 1, the curved block 122 is slidably disposed on the square ring 121, the third spring 123 is connected between the curved block 122 and the square ring 121 in a winding manner, the limiting plates 124 are slidably disposed at the left and right sides of the frame body 1, the limiting plates 124 are both matched with the cover plate 3, and the limiting plates 124 are both connected with the curved block 122.

When using the device, limiting plate 124 can be at fixed apron 3 when detecting the microorganism, avoids apron 3 to close, detects the completion back, and the staff promotes bent type piece 122 and slides down in quad ring 121, and third spring 123 is compressed, and bent type piece 122 slides down and drives limiting plate 124 and remove downwards and no longer block apron 3, and at this moment, the staff can promote apron 3 and rotate downwards and close.

On the basis of the embodiment 1, as shown in fig. 1, fig. 2, fig. 7 and fig. 8, the heat insulation board further includes a clamping assembly 13, the clamping assembly 13 includes fixing blocks 131 and fixture blocks 132, the fixing blocks 131 are respectively disposed on the left and right sides of the heating frame 4, the fixture blocks 132 are respectively rotatably disposed on the fixing blocks 131, and the fixture blocks 132 are respectively matched with the heat insulation board 5.

After the worker closes the heat insulation board 5, the worker can push the clamping block 132 to rotate oppositely on the fixing block 131 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, still including pushing assembly 14, pushing assembly 14 includes connecting block 141, push block 142, guide rod 143, bar 144, fourth spring 145 and fifth spring 146, all be equipped with connecting block 141 on blocking plate 113, connecting block 141 rear portion all is equipped with and pushes block 142, both sides all are equipped with guide rod 143 about the rear side in framework 1, all be equipped with bar 144 on guide rod 143 in the slidingtype, bar 144 all cooperates with fixture block 132, bar 144 all cooperates with pushing block 142, fourth spring 145 has all been cup jointed between bar 144 and the guide rod 143, all be connected with fifth spring 146 between fixture block 132 and 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 not clamp the heat insulation plate 5 any more, so that the clamping block 132 can automatically clamp the heat insulation plate 5.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

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

2. The rapid microorganism detection kit according to claim 1, wherein the fixing member (9) comprises: two fixing plates (91), wherein the two fixing plates (91) are arranged on the cover plate (3); the clamping plate (92) is arranged on the fixing plate (91) in a sliding mode, and the clamping plate (92) is matched with the other fixing plate (91); a right-angle plate (93) arranged on the fixing plate (91); two first springs (94) are arranged, and are arranged between the right-angle plate (93) and the clamping plate (92).

3. The rapid microorganism detection kit according to claim 2, wherein the shaking assembly (10) comprises: a reduction motor (101) mounted on the frame body (1); the two cross rods (102) are arranged on the frame body (1); two shaking plates (103) are arranged on the cross rod (102) in a rotating mode; at least two first pulling plates (104) are arranged on the shaking plate (103) in a rotating manner; a horizontal plate (105) rotatably mounted between the first pulling plates (104); two screw rods (106), wherein the two screw rods (106) are respectively arranged on the shaking plate (103), and the screw rods (106) are respectively 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 disc (108) mounted on an output shaft of the reduction motor (101); and a second pulling plate (109) rotatably mounted between the disc (108) and the transverse plate (105).

4. The rapid microorganism detection kit according to claim 3, further comprising a blocking member (11), wherein the blocking member (11) comprises: the two sliding blocks (112) are arranged on the supporting frame (2) and are arranged in the sliding grooves (111) in a sliding manner; two stop plates (113), wherein the two stop plates (113) are arranged on the support frame (2) in a sliding manner; two connecting plates (114), wherein the two connecting plates (114) are rotatably arranged between the stop plate (113) and the sliding block (112); two sliding rails (115) are arranged on the frame body (1); the two special-shaped plates (116) are arranged and are arranged in the sliding rail (115) in a sliding manner, and the two special-shaped plates (116) are connected with the sliding block (112); two fixed pulleys (117) are arranged on the sliding rail (115) in a rotating manner; two pull wires (118) are arranged and are mounted 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 number of the second springs (119) is two, the second springs (119) are both mounted between the special-shaped plate (116) and the sliding rail (115), and the second springs (119) are in a stretching state.

5. The microorganism rapid detection kit according to claim 4, further comprising a limiting component (12), wherein the limiting component (12) comprises: a square ring (121) attached to the frame (1); the bent block (122) is slidably arranged on the square ring (121); a third spring (123) installed between the curved block (122) and the square ring (121); the two limiting plates (124) are arranged, the two limiting plates (124) are all installed on the frame body (1) in a sliding mode, and the two limiting plates (124) are connected with the curved block (122).

6. The rapid microorganism detection kit according to claim 5, further comprising a clamping assembly (13), wherein the clamping assembly (13) comprises: two fixing blocks (131), wherein the two fixing blocks (131) are arranged on the heating frame (4); the two clamping blocks (132) are arranged on the fixing block (131) in a rotating mode, and the clamping blocks (132) are matched with the heat insulation plate (5).

7. The rapid microorganism detection kit according to claim 6, further comprising a pushing assembly (14), wherein the pushing assembly (14) comprises: two connecting blocks (141), wherein the two connecting blocks (141) are arranged on the stop plate (113); the two pushing blocks (142) are arranged on the connecting block (141); two guide rods (143), wherein the two guide rods (143) are arranged on the frame body (1); two strip plates (144) are arranged on the guide rod (143) in a sliding mode, the strip plates (144) are matched with the fixture blocks (132), and the strip plates (144) are matched with the pushing blocks (142); two fourth springs (145) are arranged between the strip-shaped plate (144) and the guide rod (143); and two fifth springs (146) are arranged, and are respectively arranged between the fixture block (132) and the heating frame (4).

8. The kit for rapid detection of microorganisms according to claim 7, further comprising: the fixture block (132), the fixture block (132) is L-shaped.