CN111332592A - Application method of detection kit - Google Patents

Abstract

The invention relates to a kit, in particular to a using method of a kit for detection, wherein the kit for detection comprises a kit body, a reagent bottle bracket component, an inner box body, a bracket lifting control component, a front transmission component, a rear transmission component, a front leg component and a rear leg component, the upper end of the right side surface of the kit body is provided with two upper rectangular sliding chutes side by side, the lower end of the right side surface of the kit body is provided with two lower rectangular sliding chutes side by side, the front end of the bottom surface of the kit body is provided with two front leg grooves, the rear end of the bottom surface of the kit body is provided with two rear leg grooves, and the middles of the two front leg grooves and the middles of the two rear leg grooves are respectively and fixedly connected with a cylindrical sliding; the height of the internal reagent bottle bracket component can be adjusted through the bracket lifting control component, and the front supporting leg component and the rear supporting leg component can be driven to move while the reagent bottle bracket component is adjusted, so that the height of the reagent box body is driven to be adjusted through the front supporting leg component and the rear supporting leg component.

Description

Application method of detection kit

Technical Field

The invention relates to a kit, in particular to a using method of a kit for detection.

Background

When the detection kit in the prior art is used, the height of a bracket plate for placing a reagent bottle in the detection kit can not be adjusted, the overall height of the kit body can not be adjusted, and the detection kit is inconvenient to place on experiment tables with different heights for detection; for example, patent application number is CN 201720356421.7's a multiple PCR detects uses kit, comprises a box bod, divide into down through the slip baffle in the box and deposit the district on with, the both sides of slip baffle are equipped with the slider, be equipped with the spout corresponding with the slider in the box, the surface of box is equipped with the fixed plate through first pivot, the symmetry is equipped with two spacing posts on the fixed plate, the box is equipped with the spacing hole corresponding with spacing post position, one side of box is equipped with first fixed block, be equipped with the second fixed block that corresponds with first fixed block position on the lid, be equipped with the locking post corresponding with first trompil position on the second fixed block. The utility model discloses a kit is opened, is closed very conveniently, and the layering is clear and definite. But this utility model can't adjust its inside mobile device frame's that is used for placing the reagent bottle height, can't adjust the whole height of kit body, be not convenient for place and detect on the experiment table of co-altitude not.

Disclosure of Invention

The invention aims to provide a using method of a detection kit, which can effectively solve the problems in the prior art; the height of the reagent bottle bracket component arranged in the reagent bottle detection device can be adjusted through the bracket lifting control component, and the front leg component and the rear leg component can be driven to move while the reagent bottle bracket component is adjusted, so that the height of the reagent bottle detection device body is driven to be adjusted through the front leg component and the rear leg component, and the reagent bottle detection device is convenient to place on experiment tables with different heights for detection.

The purpose of the invention is realized by the following technical scheme:

the using method of the detection kit comprises a kit body, a reagent bottle bracket assembly, an inner box body, a bracket lifting control assembly, a front transmission assembly, a rear transmission assembly, a front supporting leg assembly and a rear supporting leg assembly, wherein two upper rectangular sliding grooves which are arranged side by side are formed in the upper end of the right side face of the kit body;

the middle end of the inner side of the kit body is fixedly connected with the inner box body;

the reagent bottle bracket component comprises a bracket plate, an upper hinge seat, a lower hinge seat and two hinge connecting rods; the middle end of the bottom surface of the bracket plate is fixedly connected with two upper hinged seats, the two upper hinged seats are respectively connected with a hinged connecting rod through a hinged shaft, the lower ends of the two hinged connecting rods are respectively connected with a lower hinged seat through a hinged shaft, and the lower ends of the two lower hinged seats are respectively and fixedly connected with the front end and the rear end of the bracket lifting control assembly; the front end and the rear end of the bracket lifting control assembly are respectively in transmission connection with a front transmission assembly and a rear transmission assembly; the front transmission assembly is in transmission connection with the front leg assembly, and the rear transmission assembly is in transmission connection with the rear leg assembly;

the front end and the rear end of the bracket lifting control assembly are respectively connected to the inner sides of the two upper rectangular sliding grooves in a sliding fit manner; the front transmission assembly and the rear transmission assembly are respectively connected to the front end and the rear end of the right side surface of the kit body in a rotating fit manner; the upper ends of the front leg assembly and the rear leg assembly are respectively connected to the inner sides of the two lower rectangular sliding grooves in a sliding fit manner; the lower end of the front supporting leg assembly is connected to the two cylindrical sliding rods on the inner sides of the two front supporting leg grooves in a rotating fit manner; the lower end of the rear supporting leg assembly is connected to the two cylindrical sliding rods on the inner sides of the two rear supporting leg grooves in a rotating fit mode.

The bracket lifting control assembly comprises a screwing head, a bidirectional threaded rod, a front link rod, a fixed block, a rear link rod, a front rack plate and a rear rack plate; the screwing head is fixedly connected to the middle end of the bidirectional threaded rod, the front end and the rear end of the bidirectional threaded rod are respectively fixedly connected with a fixed block, and the two fixed blocks are respectively and fixedly connected to the front end and the rear end of the right side face of the kit body; the front link rod is connected to the front end of the bidirectional threaded rod through threads, the middle end of the front link rod is connected in an upper rectangular sliding groove in the front end in a sliding fit mode, the rear link rod is connected to the rear end of the bidirectional threaded rod through threads, the middle end of the rear link rod is connected in an upper rectangular sliding groove in the rear end in a sliding fit mode, and the front link rod and the rear link rod are arranged on the inner sides of the two fixing blocks; the left end of the front link rod is fixedly connected with a front rack plate, and the left end of the rear link rod is fixedly connected with a rear rack plate; rack teeth are arranged at the lower ends of the front rack plate and the rear rack plate, the lower end of the front rack plate is meshed and connected with the front transmission assembly, and the lower end of the rear rack plate is meshed and connected with the rear transmission assembly; one upper hinged seat is fixedly connected to the front end of the front rack plate, and the other upper hinged seat is fixedly connected to the rear end of the rear rack plate.

The front transmission assembly and the rear transmission assembly are identical in structure and are symmetrically arranged at the front end and the rear end of the right side face of the kit body.

The front transmission assembly comprises a transmission gear and a gear shaft; the transmission gear is fixedly connected to a gear shaft, and the gear shaft is rotatably connected to the right side face of the kit body through a bearing seat with a bearing.

The front support leg assembly comprises a front guide sliding rod, a front transmission rack, a front push-pull rod and a front support leg device; the front guide sliding rod is connected in a lower rectangular sliding groove at the front end in a sliding fit manner, the inner side of the front guide sliding rod is fixedly connected with the rear end of the front transmission rack, and the upper end of the front transmission rack is meshed and connected with a transmission gear in the front transmission assembly; the upper end of the front push-pull rod is connected with the front end of the front transmission rack in a rotating fit mode through a short shaft, and the lower end of the front push-pull rod is connected with the rear end of the front supporting leg device in a rotating fit mode through the short shaft; the front supporting leg device is connected to the two cylindrical sliding rods on the inner sides of the two front supporting leg grooves in a rotating fit mode.

The rear support leg assembly comprises a rear guide sliding rod, a rear transmission rack, a rear push-pull rod and a rear support leg device; the rear guide sliding rod is connected in a lower rectangular sliding groove at the rear end in a sliding fit manner, the inner side of the rear guide sliding rod is fixedly connected with the front end of a rear transmission rack, and the upper end of the rear transmission rack is meshed with a rear transmission assembly; the upper end of the rear push-pull rod is connected with the rear end of the rear transmission rack in a rotating fit mode through a short shaft, and the lower end of the rear push-pull rod is connected with the front end of the rear supporting leg device in a rotating fit mode through the short shaft; the rear supporting leg device is connected to the two cylindrical sliding rods on the inner sides of the two rear supporting leg grooves in a rotating fit mode.

The front leg device and the rear leg device have the same structure; the front supporting leg device comprises a left supporting leg, a right supporting leg and a supporting leg connecting rod; the bottom end of the left supporting leg is connected with the right supporting leg through a supporting leg connecting rod; the middle parts of the left supporting leg and the right supporting leg are provided with groove-shaped slideways, and two cylindrical sliding rods at the inner sides of the grooves of the two front supporting legs are respectively in clearance fit and rotary connection in the groove-shaped slideways of the left supporting leg and the right supporting leg; the landing leg connecting rod is arranged at the lower end of the kit body.

The bracket plate is provided with a plurality of reagent bottle slots.

An electric heating plate is arranged on the top surface of the inner box body.

The using method of the kit for detection comprises the following steps: when the reagent bottle rack is used, the reagent bottles can be placed on the reagent bottle rack assembly, and when the reagent bottle rack is used, the height of the reagent bottle rack assembly can be adjusted through the bracket lifting control assembly, so that the reagent bottles with different heights can be conveniently placed or the positions of the reagent bottles can be adjusted, and the solvent in the reagent bottles can be more easily detected; the bracket lifting control assembly drives the front transmission assembly and the rear transmission assembly to work when working, the front transmission assembly and the rear transmission assembly respectively drive the front leg assembly and the rear leg assembly to move, so that the states of the front leg assembly and the rear leg assembly are changed, the lower ends of the front leg assembly and the rear leg assembly penetrate out of the kit body, the whole kit body is supported, the horizontal height of the kit body is changed, and the kit body is convenient to place on experiment tables with different heights for detection; when the bracket lifting control assembly is used, the bidirectional threaded rod can be driven to rotate by rotating the twisting head, the bidirectional threaded rod drives the front link rod and the rear link rod to move in the opposite direction or move in the opposite direction when rotating, the front link rod and the rear link rod drive the front rack plate and the rear rack plate to synchronously slide inwards when moving in the opposite direction, the front rack plate and the rear rack plate respectively drive the hinged connecting rods on the two lower hinged seats to move when synchronously sliding inwards, and the lower ends of the two hinged connecting rods move inwards to prop up and move the bracket plate so as to lift the bracket plate, so that the overall height of the bracket plate is adjusted, and the twisting head can be reversely rotated when the height of the bracket plate needs to be reduced; when the front rack plate and the rear rack plate synchronously slide inwards, the front rack plate drives a transmission gear in the front transmission assembly to rotate, the transmission gear drives the front leg assembly to move, the rear rack plate drives a transmission gear in the rear transmission assembly to rotate, and the rear transmission assembly drives the rear leg assembly to move, so that the kit body is supported by the front leg assembly and the rear leg assembly; when the front leg assembly is used, when the front rack plate and the rear rack plate synchronously slide inwards, the front rack plate drives the front transmission rack to move forwards through a transmission gear in the front transmission assembly, the front transmission rack pulls the rear end of the front leg device to rise through the front push-pull rod, so that the front leg device slides on the two cylindrical slide rods on the inner sides of the two front leg grooves, the front end of the front leg device penetrates out of the two front leg grooves, and the front end of the kit body is supported through the front leg device; when the rear leg assembly is used, when the front rack plate and the rear rack plate synchronously slide inwards, the rear rack plate drives the rear transmission rack to move backwards through a transmission gear in the rear transmission assembly, the rear transmission rack drives the front end of the rear leg device to rise through the rear push-pull rod, so that the rear leg device is driven to integrally rotate on the two cylindrical slide rods on the inner sides of the two rear leg grooves, the rear end of the rear leg device penetrates out of the two rear leg grooves, and the rear end of the kit body is supported through the rear leg device; thereby the whole height of the kit body is adjusted through the front leg support device and the rear leg support device;

when the front supporting leg device is used, the rear end of the right supporting leg rises under the pulling of the front push-pull rod, the front end of the right supporting leg penetrates out of the front supporting leg groove, and the right supporting leg drives the left supporting leg to move synchronously through the supporting leg connecting rod, so that the front end of the kit body is supported through the left supporting leg and the right supporting leg. The working principle of the front supporting leg device is the same as that of the rear supporting leg device.

The invention has the beneficial effects that: the detection kit can effectively solve the problems in the prior art; the height of the reagent bottle bracket component arranged in the reagent bottle detection device can be adjusted through the bracket lifting control component, and the front leg component and the rear leg component can be driven to move while the reagent bottle bracket component is adjusted, so that the height of the reagent bottle detection device body is driven to be adjusted through the front leg component and the rear leg component, and the reagent bottle detection device is convenient to place on experiment tables with different heights for detection.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a schematic view of the invention without the bracket plate installed;

FIG. 4 is a schematic structural view of the inner shell and the non-mounted bracket plate of the present invention;

FIG. 5 is a schematic view of the structure of the cartridge body inside the present invention;

FIG. 6 is a schematic view of the construction of the internal reagent bottle carrier assembly of the present invention;

FIG. 7 is a schematic view of the internal carriage lift control assembly of the present invention;

FIG. 8 is a schematic structural view of the internal front drive assembly of the present invention;

FIG. 9 is a schematic structural view of the inner front leg assembly of the present invention;

FIG. 10 is a schematic illustration of the internal rear leg assembly of the present invention;

fig. 11 is a schematic view of the construction of the inner front leg assembly of the present invention.

In the figure: a kit body 1; an upper rectangular chute 1-1; a lower rectangular chute 1-2; front leg grooves 1-3; rear leg grooves 1-4; 1-5 cylindrical slide bars; a reagent bottle carrier assembly 2; a bracket plate 2-1; an upper hinge base 2-2; a lower hinge base 2-3; hinged connecting rods 2-4; an inner case 3; a bracket lifting control component 4; screwing head 4-1; a bidirectional threaded rod 4-2; a front link 4-3; 4-4 parts of a fixed block; a rear link 4-5; 4-6 of front toothed plate; 4-7 of a rear rack plate; a front transmission assembly 5; a transmission gear 5-1; a gear shaft 5-2; a rear transmission assembly 6; a front leg assembly 7; a front guide slide bar 7-1; a front drive rack 7-2; a front push-pull rod 7-3; front leg means 7-4; a left leg 7-4-1; a right leg 7-4-2; 7-4-3 of a support leg connecting rod; a rear leg assembly 8; a rear guide slide bar 8-1; a rear transmission rack 8-2; a rear push-pull rod 8-3; rear leg means 8-4.

Detailed Description

The invention is described in further detail below with reference to fig. 1-11.

The first embodiment is as follows:

as shown in fig. 1 to 11, a kit for detection comprises a kit body 1, a reagent bottle holder assembly 2, an inner box body 3, a holder lifting control assembly 4, a front transmission assembly 5, a rear transmission assembly 6, a front leg assembly 7 and a rear leg assembly 8, wherein the upper end of the right side surface of the kit body 1 is provided with two upper rectangular chutes 1-1 side by side, the lower end of the right side surface of the kit body 1 is provided with two lower rectangular chutes 1-2 side by side, the front end of the bottom surface of the kit body 1 is provided with two front leg grooves 1-3, the rear end of the bottom surface of the kit body 1 is provided with two rear leg grooves 1-4, and the middle of each of the two front leg grooves 1-3 and the middle of each of the two rear leg grooves 1-4 are fixedly connected with a cylindrical slide bar 1-5; according to the detection kit, when the kit is used, the reagent bottles can be placed on the reagent bottle bracket component 2, and when the kit is used, the height of the reagent bottle bracket component 2 can be adjusted through the bracket lifting control component 4, so that the reagent bottles with different heights can be placed or the positions of the reagent bottles can be adjusted conveniently, and the solvent in the reagent bottles can be detected more easily; the utility model discloses a kit, including bracket lift control subassembly 4, preceding drive assembly 5 and back drive assembly 6 drive preceding landing leg subassembly 7 and back landing leg subassembly 8 respectively and move, thereby change preceding landing leg subassembly 7 and back landing leg subassembly 8's state, make preceding landing leg subassembly 7 and back landing leg subassembly 8's lower extreme wear out kit body 1, thereby make the whole of kit body 1 supported, make the level of kit body 1 change, be convenient for place and carry out the detect processing on the experiment table of co-altitude.

The second embodiment is as follows:

as shown in fig. 1-11, the middle end of the inner side of the kit body 1 is fixedly connected with an inner box body 3;

the reagent bottle bracket component 2 comprises a bracket plate 2-1, an upper hinge seat 2-2, a lower hinge seat 2-3 and two hinge connecting rods 2-4; the middle end of the bottom surface of the bracket plate 2-1 is fixedly connected with two upper hinged seats 2-2, the two upper hinged seats 2-2 are respectively connected with a hinged connecting rod 2-4 through a hinged shaft, the lower ends of the two hinged connecting rods 2-4 are respectively connected with a lower hinged seat 2-3 through a hinged shaft, and the lower ends of the two lower hinged seats 2-3 are respectively and fixedly connected with the front end and the rear end of a bracket lifting control component 4; the front end and the rear end of the bracket lifting control component 4 are respectively in transmission connection with a front transmission component 5 and a rear transmission component 6; the front transmission assembly 5 is in transmission connection with a front supporting leg assembly 7, and the rear transmission assembly 6 is in transmission connection with a rear supporting leg assembly 8;

the front end and the rear end of the bracket lifting control component 4 are respectively connected to the inner sides of the two upper rectangular sliding chutes 1-1 in a sliding fit manner; the front transmission component 5 and the rear transmission component 6 are respectively connected with the front end and the rear end of the right side surface of the kit body 1 in a rotating fit manner; the upper end of the front leg assembly 7 and the upper end of the rear leg assembly 8 are respectively connected to the inner sides of the two lower rectangular sliding grooves 1-2 in a sliding fit manner; the lower end of the front leg assembly 7 is connected to two cylindrical slide bars 1-5 at the inner sides of the two front leg grooves 1-3 in a rotating fit manner; the lower end of the rear supporting leg assembly 8 is connected to two cylindrical sliding rods 1-5 on the inner sides of the two rear supporting leg grooves 1-4 in a rotating fit mode.

The bracket lifting control component 4 comprises a screwing head 4-1, a bidirectional threaded rod 4-2, a front link rod 4-3, a fixed block 4-4, a rear link rod 4-5, a front rack plate 4-6 and a rear rack plate 4-7; the screwing head 4-1 is fixedly connected to the middle end of the bidirectional threaded rod 4-2, the front end and the rear end of the bidirectional threaded rod 4-2 are respectively fixedly connected with one fixed block 4-4, and the two fixed blocks 4-4 are respectively fixedly connected to the front end and the rear end of the right side face of the kit body 1; the front link rod 4-3 is connected to the front end of the bidirectional threaded rod 4-2 through threads, the middle end of the front link rod 4-3 is connected in a sliding fit mode in an upper rectangular chute 1-1 located at the front end, the rear link rod 4-5 is connected to the rear end of the bidirectional threaded rod 4-2 through threads, the middle end of the rear link rod 4-5 is connected in a sliding fit mode in an upper rectangular chute 1-1 located at the rear end, and the front link rod 4-3 and the rear link rod 4-5 are arranged on the inner sides of two fixing blocks 4-4; the left end of the front link rod 4-3 is fixedly connected with a front rack plate 4-6, and the left end of the rear link rod 4-5 is fixedly connected with a rear rack plate 4-7; rack teeth are arranged at the lower ends of the front rack plate 4-6 and the rear rack plate 4-7, the lower end of the front rack plate 4-6 is meshed and connected with the front transmission assembly 5, and the lower end of the rear rack plate 4-7 is meshed and connected with the rear transmission assembly 6; one upper hinge base 2-2 is fixedly coupled to the front end of the front rack plate 4-6, and the other upper hinge base 2-2 is fixedly coupled to the rear end of the rear rack plate 4-7.

The front transmission component 5 and the rear transmission component 6 are identical in structure, and the front transmission component 5 and the rear transmission component 6 are symmetrically arranged at the front end and the rear end of the right side face of the kit body 1.

The front transmission assembly 5 comprises a transmission gear 5-1 and a gear shaft 5-2; the transmission gear 5-1 is fixedly connected to the gear shaft 5-2, and the gear shaft 5-2 is rotatably connected to the right side face of the kit body 1 through a bearing seat with a bearing.

When the bracket lifting control assembly 4 is used, the two-way threaded rod 4-2 can be driven to rotate by rotating the screwing head 4-1, the front link rod 4-3 and the rear link rod 4-5 are driven to move in opposite directions or in reverse directions when the two-way threaded rod 4-2 rotates, the front link rod 4-3 and the rear link rod 4-5 are driven to synchronously slide inwards when the front link rod 4-3 and the rear link rod 4-5 move in opposite directions, the front rack plate 4-6 and the rear rack plate 4-7 respectively drive the hinged connecting rods 2-4 on the two lower hinged seats 2-3 to move when synchronously sliding inwards, the lower ends of the two hinged connecting rods 2-4 move inwards, so that the bracket plate 2-1 is propped up to lift the bracket plate 2-1, and the whole height of the bracket plate 2-1 is adjusted, when the height of the bracket plate 2-1 needs to be reduced, the screwing head 4-1 is rotated reversely; when the front rack plate 4-6 and the rear rack plate 4-7 synchronously slide inwards, the front rack plate 4-6 drives the transmission gear 5-1 in the front transmission assembly 5 to rotate, the front leg assembly 7 is driven to move through the transmission gear 5-1, the rear rack plate 4-7 drives the transmission gear in the rear transmission assembly 6 to rotate, the rear transmission assembly 6 drives the rear leg assembly 8 to move, and therefore the kit body 1 is supported through the front leg assembly 7 and the rear leg assembly 8.

The third concrete implementation mode:

as shown in fig. 1-11, the front leg assembly 7 comprises a front guide slide bar 7-1, a front transmission rack bar 7-2, a front push-pull rod 7-3 and a front leg device 7-4; the front guide sliding rod 7-1 is connected in a lower rectangular sliding groove 1-2 at the front end in a sliding fit mode, the inner side of the front guide sliding rod 7-1 is fixedly connected with the rear end of a front transmission rack 7-2, and the upper end of the front transmission rack 7-2 is meshed and connected with a transmission gear 5-1 in a front transmission assembly 5; the upper end of the front push-pull rod 7-3 is connected with the front end of the front transmission rack 7-2 in a rotating fit mode through a short shaft, and the lower end of the front push-pull rod 7-3 is connected with the rear end of the front supporting leg device 7-4 in a rotating fit mode through the short shaft; the front leg device 7-4 is connected to two cylindrical slide bars 1-5 at the inner sides of the two front leg grooves 1-3 in a rotating fit manner. When the front leg assembly 7 is used, when the front rack plate 4-6 and the rear rack plate 4-7 synchronously slide inwards, the front rack plate 4-6 drives the front transmission rack 7-2 to move forwards through the transmission gear 5-1 in the front transmission assembly 5, the front transmission rack 7-2 pulls the rear end of the front leg device 7-4 to rise through the front push-pull rod 7-3, so that the front leg device 7-4 slides on the two cylindrical slide rods 1-5 on the inner sides of the two front leg grooves 1-3, the front end of the front leg device 7-4 penetrates through the two front leg grooves 1-3, and the front end of the kit body 1 is supported through the front leg device 7-4.

The rear supporting leg assembly 8 comprises a rear guide sliding rod 8-1, a rear transmission rack 8-2, a rear push-pull rod 8-3 and a rear supporting leg device 8-4; the rear guide sliding rod 8-1 is connected in a lower rectangular sliding groove 1-2 at the rear end in a sliding fit mode, the inner side of the rear guide sliding rod 8-1 is fixedly connected with the front end of a rear transmission rack 8-2, and the upper end of the rear transmission rack 8-2 is meshed with a rear transmission assembly 6; the upper end of the rear push-pull rod 8-3 is connected with the rear end of the rear transmission rack 8-2 in a rotating fit mode through a short shaft, and the lower end of the rear push-pull rod 8-3 is connected with the front end of the rear supporting leg device 8-4 in a rotating fit mode through the short shaft; the rear leg device 8-4 is connected to two cylindrical slide bars 1-5 at the inner sides of the two rear leg grooves 1-4 in a rotating fit manner. When the rear leg assembly 8 is used, and the front rack plate 4-6 and the rear rack plate 4-7 synchronously slide inwards, the rear rack plate 4-7 drives the rear transmission rack 8-2 to move backwards through a transmission gear in the rear transmission assembly 6, the rear transmission rack 8-2 drives the front end of the rear leg device 8-4 to rise through the rear push-pull rod 8-3, so that the rear leg device 8-4 is driven to integrally rotate on the two cylindrical slide rods 1-5 on the inner sides of the two rear leg grooves 1-4, the rear end of the rear leg device 8-4 penetrates through the two rear leg grooves 1-4, and the rear end of the kit body 1 is supported through the rear leg device 8-4; so that the overall height of the cartridge body 1 is adjusted by the front leg means 7-4 and the rear leg means 8-4.

The front leg device 7-4 and the rear leg device 8-4 are identical in structure; the front leg device 7-4 comprises a left leg 7-4-1, a right leg 7-4-2 and a leg connecting rod 7-4-3; the bottom end of the left leg 7-4-1 is connected with the right leg 7-4-2 through a leg connecting rod 7-4-3; a groove-shaped slideway is arranged between the left leg 7-4-1 and the right leg 7-4-2, and two cylindrical slide bars 1-5 at the inner sides of the two front leg grooves 1-3 are respectively in clearance fit and rotary connection with the groove-shaped slideway of the left leg 7-4-1 and the groove-shaped slideway of the right leg 7-4-2; the supporting leg connecting rods 7-4-3 are arranged at the lower end of the kit body 1. When the front leg device 7-4 is used, the rear end of the right leg 7-4-2 is pulled by the front push-pull rod 7-3 to rise, the front end of the right leg 7-4-2 penetrates through the front leg groove 1-3, the right leg 7-4-2 drives the left leg 7-4-1 to move synchronously through the leg connecting rod 7-4-3, and therefore the front end of the kit body 1 is supported through the left leg 7-4-1 and the right leg 7-4-2. The working principle of the front leg support device 7-4 and the working principle of the rear leg support device 8-4 are the same.

A plurality of reagent bottle slots are arranged on the bracket plate 2-1.

An electric heating plate is arranged on the top surface of the inner box body 3.

The invention relates to a detection kit, which has the working principle that: when the reagent bottle rack is used, a reagent bottle can be placed on the reagent bottle rack component 2, and when the reagent bottle rack is used, the height of the reagent bottle rack component 2 can be adjusted through the rack lifting control component 4, so that reagent bottles with different heights can be placed conveniently or the positions of the reagent bottles can be adjusted, and a solvent in the reagent bottles can be detected more easily; the bracket lifting control assembly 4 also drives the front transmission assembly 5 and the rear transmission assembly 6 to work when working, the front transmission assembly 5 and the rear transmission assembly 6 respectively drive the front leg assembly 7 and the rear leg assembly 8 to move, so that the states of the front leg assembly 7 and the rear leg assembly 8 are changed, the lower ends of the front leg assembly 7 and the rear leg assembly 8 penetrate out of the kit body 1, the whole kit body 1 is supported, the horizontal height of the kit body 1 is changed, and the kit is convenient to place on experiment tables with different heights for detection; when the bracket lifting control assembly 4 is used, the two-way threaded rod 4-2 can be driven to rotate by rotating the screwing head 4-1, the front link rod 4-3 and the rear link rod 4-5 are driven to move in opposite directions or in reverse directions when the two-way threaded rod 4-2 rotates, the front link rod 4-3 and the rear link rod 4-5 are driven to synchronously slide inwards when the front link rod 4-3 and the rear link rod 4-5 move in opposite directions, the front rack plate 4-6 and the rear rack plate 4-7 respectively drive the hinged connecting rods 2-4 on the two lower hinged seats 2-3 to move when synchronously sliding inwards, the lower ends of the two hinged connecting rods 2-4 move inwards, so that the bracket plate 2-1 is propped up to lift the bracket plate 2-1, and the whole height of the bracket plate 2-1 is adjusted, when the height of the bracket plate 2-1 needs to be reduced, the screwing head 4-1 is rotated reversely; when the front rack plate 4-6 and the rear rack plate 4-7 synchronously slide inwards, the front rack plate 4-6 drives a transmission gear 5-1 in the front transmission assembly 5 to rotate, the front leg assembly 7 is driven to move through the transmission gear 5-1, the rear rack plate 4-7 drives a transmission gear in the rear transmission assembly 6 to rotate, the rear transmission assembly 6 drives a rear leg assembly 8 to move, and therefore the kit body 1 is supported through the front leg assembly 7 and the rear leg assembly 8; when the front leg assembly 7 is used, when the front rack plate 4-6 and the rear rack plate 4-7 synchronously slide inwards, the front rack plate 4-6 drives the front transmission rack 7-2 to move forwards through the transmission gear 5-1 in the front transmission assembly 5, the front transmission rack 7-2 pulls the rear end of the front leg device 7-4 to rise through the front push-pull rod 7-3, so that the front leg device 7-4 slides on the two cylindrical slide rods 1-5 on the inner sides of the two front leg grooves 1-3, the front end of the front leg device 7-4 penetrates through the two front leg grooves 1-3, and the front end of the kit body 1 is supported through the front leg device 7-4; when the rear leg assembly 8 is used, and the front rack plate 4-6 and the rear rack plate 4-7 synchronously slide inwards, the rear rack plate 4-7 drives the rear transmission rack 8-2 to move backwards through a transmission gear in the rear transmission assembly 6, the rear transmission rack 8-2 drives the front end of the rear leg device 8-4 to rise through the rear push-pull rod 8-3, so that the rear leg device 8-4 is driven to integrally rotate on the two cylindrical slide rods 1-5 on the inner sides of the two rear leg grooves 1-4, the rear end of the rear leg device 8-4 penetrates through the two rear leg grooves 1-4, and the rear end of the kit body 1 is supported through the rear leg device 8-4; so that the whole height of the reagent box body 1 is adjusted through the front leg device 7-4 and the rear leg device 8-4;

when the front leg device 7-4 is used, the rear end of the right leg 7-4-2 is pulled by the front push-pull rod 7-3 to rise, the front end of the right leg 7-4-2 penetrates through the front leg groove 1-3, the right leg 7-4-2 drives the left leg 7-4-1 to move synchronously through the leg connecting rod 7-4-3, and therefore the front end of the kit body 1 is supported through the left leg 7-4-1 and the right leg 7-4-2. The working principle of the front leg support device 7-4 and the working principle of the rear leg support device 8-4 are the same.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a method for using of kit for detection, kit for detection includes kit body (1), reagent bottle bracket component (2), interior box body (3), bracket lift control subassembly (4), preceding transmission assembly (5), back transmission assembly (6), preceding leg subassembly (7) and back leg subassembly (8), its characterized in that: the upper end of the right side face of the kit body (1) is provided with two upper rectangular sliding grooves (1-1) which are arranged side by side, the lower end of the right side face of the kit body (1) is provided with two lower rectangular sliding grooves (1-2) which are arranged side by side, the front end of the bottom face of the kit body (1) is provided with two front supporting leg grooves (1-3), the rear end of the bottom face of the kit body (1) is provided with two rear supporting leg grooves (1-4), and the middle of each of the two front supporting leg grooves (1-3) and the middle of each of the two rear supporting leg grooves (1-4) are fixedly connected with a cylindrical sliding rod (1;

the middle end of the inner side of the kit body (1) is fixedly connected with the inner box body (3);

the reagent bottle bracket component (2) comprises a bracket plate (2-1), an upper hinge seat (2-2), a lower hinge seat (2-3) and two hinge connecting rods (2-4); the middle end of the bottom surface of the bracket plate (2-1) is fixedly connected with two upper hinged seats (2-2), the two upper hinged seats (2-2) are respectively connected with a hinged connecting rod (2-4) through a hinged shaft, the lower ends of the two hinged connecting rods (2-4) are respectively connected with a lower hinged seat (2-3) through a hinged shaft, and the lower ends of the two lower hinged seats (2-3) are respectively and fixedly connected with the front end and the rear end of the bracket lifting control component (4); the front end and the rear end of the bracket lifting control component (4) are respectively in transmission connection with a front transmission component (5) and a rear transmission component (6); the front transmission assembly (5) is in transmission connection with the front leg assembly (7), and the rear transmission assembly (6) is in transmission connection with the rear leg assembly (8);

the front end and the rear end of the bracket lifting control component (4) are respectively connected to the inner sides of the two upper rectangular sliding chutes (1-1) in a sliding fit manner; the front transmission component (5) and the rear transmission component (6) are respectively connected to the front end and the rear end of the right side surface of the kit body (1) in a rotating fit manner; the upper end of the front supporting leg assembly (7) and the upper end of the rear supporting leg assembly (8) are respectively connected to the inner sides of the two lower rectangular sliding chutes (1-2) in a sliding fit manner; the lower end of the front supporting leg assembly (7) is connected to two cylindrical sliding rods (1-5) at the inner sides of the two front supporting leg grooves (1-3) in a rotating fit manner; the lower end of the rear supporting leg assembly (8) is connected to two cylindrical sliding rods (1-5) on the inner sides of the two rear supporting leg grooves (1-4) in a rotating fit manner;

the bracket lifting control assembly (4) comprises a screwing head (4-1), a bidirectional threaded rod (4-2), a front link rod (4-3), a fixed block (4-4), a rear link rod (4-5), a front rack plate (4-6) and a rear rack plate (4-7); the screwing head (4-1) is fixedly connected to the middle end of the bidirectional threaded rod (4-2), the front end and the rear end of the bidirectional threaded rod (4-2) are respectively fixedly connected with a fixing block (4-4), and the two fixing blocks (4-4) are respectively fixedly connected to the front end and the rear end of the right side face of the kit body (1); the front link rod (4-3) is connected to the front end of the bidirectional threaded rod (4-2) through threads, the middle end of the front link rod (4-3) is connected in a sliding fit mode in an upper rectangular sliding groove (1-1) located at the front end, the rear link rod (4-5) is connected to the rear end of the bidirectional threaded rod (4-2) through threads, the middle end of the rear link rod (4-5) is connected in a sliding fit mode in an upper rectangular sliding groove (1-1) located at the rear end, and the front link rod (4-3) and the rear link rod (4-5) are arranged on the inner sides of the two fixing blocks (4-4); the left end of the front link rod (4-3) is fixedly connected with a front rack plate (4-6), and the left end of the rear link rod (4-5) is fixedly connected with a rear rack plate (4-7); the lower ends of the front rack plates (4-6) and the rear rack plates (4-7) are provided with rack teeth, the lower ends of the front rack plates (4-6) are meshed and connected with a front transmission assembly (5), and the lower ends of the rear rack plates (4-7) are meshed and connected with a rear transmission assembly (6); one upper hinged seat (2-2) is fixedly connected with the front end of the front rack plate (4-6), and the other upper hinged seat (2-2) is fixedly connected with the rear end of the rear rack plate (4-7);

the front transmission assembly (5) and the rear transmission assembly (6) are identical in structure, and the front transmission assembly (5) and the rear transmission assembly (6) are symmetrically arranged at the front end and the rear end of the right side face of the kit body (1);

the front transmission assembly (5) comprises a transmission gear (5-1) and a gear shaft (5-2); the transmission gear (5-1) is fixedly connected to a gear shaft (5-2), and the gear shaft (5-2) is rotatably connected to the right side face of the kit body (1) through a bearing seat with a bearing;

the front supporting leg assembly (7) comprises a front guide sliding rod (7-1), a front transmission rack (7-2), a front push-pull rod (7-3) and a front supporting leg device (7-4); the front guide sliding rod (7-1) is connected in a lower rectangular sliding groove (1-2) at the front end in a sliding fit mode, the inner side of the front guide sliding rod (7-1) is fixedly connected with the rear end of the front transmission rack (7-2), and the upper end of the front transmission rack (7-2) is meshed and connected with a transmission gear (5-1) in the front transmission assembly (5); the upper end of the front push-pull rod (7-3) is connected with the front end of the front transmission rack (7-2) in a rotating fit mode through a short shaft, and the lower end of the front push-pull rod (7-3) is connected with the rear end of the front supporting leg device (7-4) in a rotating fit mode through the short shaft; the front leg devices (7-4) are connected to two cylindrical sliding rods (1-5) at the inner sides of the two front leg grooves (1-3) in a rotating fit manner;

the rear supporting leg assembly (8) comprises a rear guide sliding rod (8-1), a rear transmission rack (8-2), a rear push-pull rod (8-3) and a rear supporting leg device (8-4); the rear guide sliding rod (8-1) is connected in a lower rectangular sliding groove (1-2) at the rear end in a sliding fit manner, the inner side of the rear guide sliding rod (8-1) is fixedly connected with the front end of a rear transmission rack (8-2), and the upper end of the rear transmission rack (8-2) is meshed with a rear transmission assembly (6); the upper end of the rear push-pull rod (8-3) is connected with the rear end of the rear transmission rack (8-2) in a rotating fit mode through a short shaft, and the lower end of the rear push-pull rod (8-3) is connected with the front end of the rear supporting leg device (8-4) in a rotating fit mode through the short shaft; the rear leg devices (8-4) are connected to the two cylindrical sliding rods (1-5) at the inner sides of the two rear leg grooves (1-4) in a rotating fit manner;

the front leg device (7-4) and the rear leg device (8-4) have the same structure; the front leg device (7-4) comprises a left leg (7-4-1), a right leg (7-4-2) and a leg connecting rod (7-4-3); the bottom end of the left supporting leg (7-4-1) is connected with the right supporting leg (7-4-2) through a supporting leg connecting rod (7-4-3); the middle parts of the left leg (7-4-1) and the right leg (7-4-2) are respectively provided with a groove-shaped slideway, and two cylindrical sliding rods (1-5) at the inner sides of the two front leg grooves (1-3) are respectively in clearance fit and are rotatably connected in the groove-shaped slideway of the left leg (7-4-1) and the groove-shaped slideway of the right leg (7-4-2); the supporting leg connecting rod (7-4-3) is arranged at the lower end of the kit body (1);

a plurality of reagent bottle slots are arranged on the bracket plate (2-1);

an electric heating plate is arranged on the top surface of the inner box body (3);

the using method of the kit for detection comprises the following steps: when the reagent bottle rack is used, a reagent bottle can be placed on the reagent bottle rack assembly (2), and when the reagent bottle rack is used, the height of the reagent bottle rack assembly (2) can be adjusted through the rack lifting control assembly (4), so that reagent bottles with different heights can be placed conveniently or the positions of the reagent bottles can be adjusted, and a solvent in the reagent bottles can be detected more easily; the kit comprises a kit body (1), a bracket lifting control assembly (4), a front transmission assembly (5), a rear transmission assembly (6), a front supporting leg assembly (7), a rear supporting leg assembly (8), a front supporting leg assembly (7), a rear supporting leg assembly (8), a rear supporting leg assembly (6), a rear supporting leg assembly (7), a rear supporting leg assembly (8), a bracket lifting control assembly (4) and a front transmission assembly (5) are arranged in sequence, wherein the bracket lifting control assembly (4) drives the front transmission assembly (5) and the rear transmission assembly (6) to work when working, and respectively drives the front supporting leg assembly (7) and the rear supporting leg assembly (8) to move, so that the states of the front supporting leg assembly (7) and the rear supporting leg assembly (; when the bracket lifting control component (4) is used, the bidirectional threaded rod (4-2) can be driven to rotate by rotating the screwing head (4-1), the bidirectional threaded rod (4-2) drives the front link rod (4-3) and the rear link rod (4-5) to move in opposite directions or in reverse directions when rotating, the front link rod (4-3) and the rear link rod (4-5) are driven to synchronously slide inwards when moving in opposite directions, the front rack plate (4-6) and the rear rack plate (4-7) respectively drive the hinged connecting rods (2-4) on the two lower hinged seats (2-3) to move when synchronously sliding inwards, the lower ends of the two hinged connecting rods (2-4) move inwards, and therefore the bracket plate (2-1) is propped up and moved, the bracket plate (2-1) is lifted, so that the overall height of the bracket plate (2-1) is adjusted, and the screwing head (4-1) is rotated reversely when the height of the bracket plate (2-1) needs to be reduced; when the front rack plate (4-6) and the rear rack plate (4-7) synchronously slide inwards, the front rack plate (4-6) drives a transmission gear (5-1) in the front transmission assembly (5) to rotate, the front leg assembly (7) is driven to move through the transmission gear (5-1), the rear rack plate (4-7) drives a transmission gear in the rear transmission assembly (6) to rotate, the rear transmission assembly (6) drives the rear leg assembly (8) to move, and therefore the kit body (1) is supported through the front leg assembly (7) and the rear leg assembly (8); when the front supporting leg assembly (7) is used, when the front rack plate (4-6) and the rear rack plate (4-7) synchronously slide inwards, the front rack plate (4-6) drives the front transmission rack (7-2) to move forwards through the transmission gear (5-1) in the front transmission assembly (5), the front transmission rack (7-2) pulls the rear end of the front supporting leg device (7-4) to rise through the front push-pull rod (7-3), so that the front leg device (7-4) slides on the two cylindrical slide bars (1-5) at the inner sides of the two front leg grooves (1-3), so that the front end of the front leg device (7-4) passes through the two front leg grooves (1-3), the front end of the kit body (1) is supported by a front leg supporting device (7-4); when the rear leg assembly (8) is used, when the front rack plate (4-6) and the rear rack plate (4-7) synchronously slide inwards, the rear rack plate (4-7) drives the rear transmission rack (8-2) to move backwards through a transmission gear in the rear transmission assembly (6), the rear transmission rack (8-2) drives the front end of the rear leg device (8-4) to rise through the rear push-pull rod (8-3), so that the rear leg device (8-4) is integrally driven to rotate on the two cylindrical slide rods (1-5) at the inner sides of the two rear leg grooves (1-4), the rear end of the rear leg device (8-4) penetrates through the two rear leg grooves (1-4), the rear end of the kit body (1) is supported through the rear leg device (8-4), and the front leg device (7-4) and the rear leg device (8-4) are used for supporting the rear end of the kit body (1) The overall height of the kit body (1) is adjusted;

when the front leg device (7-4) is used, the rear end of the right leg (7-4-2) is pulled by the front push-pull rod (7-3) to rise, the front end of the right leg (7-4-2) penetrates through the front leg groove (1-3), the right leg (7-4-2) drives the left leg (7-4-1) to move synchronously through the leg connecting rod (7-4-3), and therefore the front end of the kit body (1) is supported through the left leg (7-4-1) and the right leg (7-4-2); the working principle of the front leg device (7-4) is the same as that of the rear leg device (8-4).

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