CN213576514U

CN213576514U - Laboratory precision analysis instrument elevating platform

Info

Publication number: CN213576514U
Application number: CN202022283431.7U
Authority: CN
Inventors: 赵敏; 卢桢明
Original assignee: Nanjing Bailence Intelligent Technology Co Ltd
Current assignee: Nanjing Bailence Intelligent Technology Co Ltd
Priority date: 2020-10-14
Filing date: 2020-10-14
Publication date: 2021-06-29
Anticipated expiration: 2030-10-14

Abstract

The utility model discloses a laboratory precision analysis instrument lifting platform, which comprises a supporting seat, a lifting component fixedly connected with the supporting seat, a lifting plate connected with the lifting component, a clamping component and a detection device arranged on the lifting plate; the lifting device comprises a group of connecting parts arranged on the transmission screw rod, a group of second connecting rods symmetrically arranged on the connecting parts, a first connecting rod arranged on the second connecting rod, a third connecting rod connected with the other end of the second connecting rod, and a fourth connecting rod arranged at the other end of the first connecting rod. The device can promote the height of instrument, and the motion through the transmission lead screw moreover, and then makes this lift process stability more to the height of regulation lifter plate that can be more accurate, and then accomplish the lift work to the sample, and then can make it be located established position.

Description

Laboratory precision analysis instrument elevating platform

Technical Field

The utility model belongs to the technical field of the instrument go up and down, concretely relates to laboratory precision analysis instrument elevating platform.

Background

As is known, when an operator detects and analyzes a collected sample, the heights of the detecting devices are different according to the detected sample.

However, the existing instrument analysis device still has some problems, and the existing instrument analysis device mostly places the sample at a given place, and then the lifting device can drive the sample to perform lifting work, but in the lifting process, when the lifting speed is too fast or the speed difference is too large, the sample can be damaged or separated from the device, and then the sample is easily damaged, and then the sample analysis work fails.

Therefore, how to ensure that the sample can be safely lifted to a given position is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: provides a laboratory precision analysis instrument lifting table to solve the problems in the prior art.

The technical scheme is as follows: a laboratory precision analytical instrument lift table comprising:

the device comprises a supporting seat, a lifting assembly fixedly connected with the supporting seat, a lifting plate connected with the lifting assembly, a clamping assembly and a detection device, wherein the clamping assembly and the detection device are arranged on the lifting plate;

the lifting assembly is arranged on a driving part on the supporting seat, a transmission screw rod connected with the driving part and a group of lifting devices symmetrically arranged on the transmission screw rod;

the lifting device comprises a group of connecting parts arranged on the transmission screw rod, a group of second connecting rods symmetrically arranged on the connecting parts, a first connecting rod arranged on the second connecting rod, a third connecting rod connected with the other end of the second connecting rod, and a fourth connecting rod arranged at the other end of the first connecting rod, wherein the other ends of the third connecting rod and the fourth connecting rod are connected and are positioned on the other connecting part, and the second connecting rod is connected with the lifting plate.

In a further embodiment, the lifting device further comprises a shock pad arranged between the second connecting rod and the lifting plate, so that the safety of the instrument is ensured.

In a further embodiment, the clamping assembly comprises a connecting plate connected with the supporting seat, a supporting frame arranged on the connecting plate, a loading platform arranged on the supporting frame, a hoop positioned on the loading platform, and a plurality of locking pieces arranged on the hoop and connected with the loading platform, so that the movement of the sample similar to bouncing due to inertia in the lifting process is avoided, and the safety of the sample is further ensured.

In a further embodiment, three connecting frames are uniformly arranged on the supporting frame, the connecting frames are positioned on the connecting plates, and an included angle between every two adjacent connecting frames is 120 degrees, so that the stability of the device is ensured.

In a further embodiment, the detection device comprises a support arranged on the support seat, a connecting device arranged on the support, and a connecting rod connected with the connecting device, wherein the connecting rod is rotatably connected with the connecting device, and the position of the detection device can be adjusted through the arranged connecting part, so that the position adjustment work of the detection device is completed.

In a further embodiment, the detection device further comprises a rotating part and a detection device, wherein the rotating part is connected with the connecting rod, the detection device is arranged on the rotating part, detection work of samples at different angles is achieved, and then fine adjustment of the position of the detection device is completed.

Has the advantages that: the utility model relates to a laboratory precision analysis instrument elevating platform, in order to complete the elevating work of the sample safety, and further provided with an elevating component, and further when the sample is required to be lifted to a given height, the controllable driving part can start working at the moment, and then the driving part of the motion can drive the transmission lead screw to start working, the transmission lead screw which rotates can drive the connecting part to start working at the moment, and then the connecting part can drive the third connecting rod and the fourth connecting rod to start moving, and further the height of the elevating plate can be lifted, and further the elevating plate of the motion can lift the height of the detection device, and further the elevating work of the instrument is completed, the driving part of the driving lead screw is arranged to drive the rotation of the transmission lead screw, and further the height of the elevating plate is adjusted, not only the height of the instrument can be lifted, but also the elevating process is more stable through the motion of the transmission lead screw, and then the lifting work of the sample is completed, and the sample can be positioned at the set position.

Drawings

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

Fig. 2 is a perspective view of the middle lifting assembly of the present invention.

Fig. 3 is a schematic view of the middle lifting device of the present invention.

Fig. 4 is a schematic view of the middle detecting device of the present invention.

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

The figures are numbered: the device comprises a supporting seat 1, a lifting assembly 2, a driving part 21, a transmission screw rod 22, a lifting device 23, a connecting part 231, a first connecting rod 232, a second connecting rod 233, a shock pad 234, a third connecting rod 235, a fourth connecting rod 236, a detection device 3, a bracket 31, a connecting rod 32, a connecting device 33, a rotating part 34, detection equipment 35, a clamping assembly 4, a locking part 41, a connecting plate 42, a hoop 43, a connecting frame 44, a supporting frame 45, a loading platform 46 and a lifting plate 5.

Detailed Description

Through the research and analysis of the applicant, the reason for the problem (causing the sample to be damaged or separated from the device, and further causing the sample to be damaged easily, and further causing the failure of the sample analysis work) is that most of the existing instrument analysis devices place the sample at a predetermined place, and then the lifting device can drive the sample to perform lifting work, but when the lifting speed is too high or the speed difference is too large, the sample is damaged or separated from the device in the lifting process, the utility model discloses a lifting assembly is further provided for safely completing the lifting work of the sample, and further when the sample needs to be lifted to a predetermined height, the controllable driving part starts working, and the moving driving part can drive the transmission screw rod to start working, and the rotating transmission screw rod can drive the connecting part to start working, and further the connecting part can drive the third connecting rod and the fourth connecting rod to start moving, and then can promote the height of lifter plate, and then the lifter plate of motion can promote detection device's height, and then accomplish the lift work to the instrument, drive the rotation of transmission lead screw through the drive division that sets up, and then adjust the height of lifter plate, not only can promote the height of instrument, and through the motion of transmission lead screw, and then make this lift process more stable, and the height of regulation lifter plate that can be more accurate, and then accomplish the lift work to the sample, and then can make it be located the set position.

A laboratory precision analytical instrument lift table comprising: the device comprises a supporting seat 1, a lifting assembly 2, a driving part 21, a transmission screw rod 22, a lifting device 23, a connecting part 231, a first connecting rod 232, a second connecting rod 233, a shock pad 234, a third connecting rod 235, a fourth connecting rod 236, a detection device 3, a bracket 31, a connecting rod 32, a connecting device 33, a rotating part 34, detection equipment 35, a clamping assembly 4, a locking part 41, a connecting plate 42, a hoop 43, a connecting frame 44, a supporting frame 45, a loading platform 46 and a lifting plate 5.

The device comprises a supporting seat 1, a lifting component 2 fixedly connected with the supporting seat 1, a lifting plate 5 connected with the lifting component 2, a clamping component 4 and a detection device 3, wherein the clamping component 4 and the detection device 3 are arranged on the lifting plate 5; the lifting assembly 2 is arranged on a driving part 21 of the supporting seat 1, a transmission screw rod 22 connected with the driving part 21, and a group of lifting devices 23 symmetrically arranged on the transmission screw rod 22; the lifting device 23 comprises a group of connecting parts 231 arranged on the transmission screw rod 22, a group of second connecting rods 233 symmetrically arranged on the connecting parts 231, a first connecting rod 232 arranged on the second connecting rod 233, a third connecting rod 235 connected with the other end of the second connecting rod 233, and a fourth connecting rod 236 arranged at the other end of the first connecting rod 232, wherein the other ends of the third connecting rod 235 and the fourth connecting rod 236 are connected and positioned on the other connecting part 231, the second connecting rod 233 is connected with the lifting plate 5, when a sample needs to be lifted to a given height, the driving part 21 can be controlled to start working, the moving driving part 21 can drive the transmission screw rod 22 to start working, at the moment, the rotating transmission screw rod 22 can drive the connecting parts 231 to start working, and the connecting parts 231 can drive the third connecting rod 235 and the fourth connecting rod 236 to start moving, and then can promote the height of lifter plate 5, and then the lifter plate 5 of motion can promote detection device 3's height, and then accomplish the lift work to the instrument, drive the rotation of transmission lead screw 22 through the drive division 21 that sets up, and then adjust the height of lifter plate 5, not only can promote the height of instrument, and through the motion of transmission lead screw 22, and then make this lift process more stable, and the height of regulation lifter plate 5 that can be more accurate, and then accomplish the lift work to the sample, and then can make it be located the set position.

The lifting device 23 further comprises a shock pad 234 arranged between the second connecting rod 233 and the lifting plate 5, and the shock of the lifting plate 5 during lifting can be avoided through the shock pad 234, so that the safety of the instrument is ensured.

Centre gripping subassembly 4 include with connecting plate 42 that supporting seat 1 is connected sets up support frame 45 on the connecting plate 42 sets up load table 46 on the support frame 45 is located staple bolt 43 on the load table 46, and set up on the staple bolt 43, and with a plurality of retaining members 41 that the load table 46 is connected, after operating personnel placed the sample on load table 46, through adjusting retaining member 41 this moment, and then can drive staple bolt 43 and begin work, and then can make load table 46 fasten on support 31, and then avoid the lift in-process sample to produce the motion that rises because of inertia and be similar to the bounce, and then guaranteed the safety of sample.

Still evenly set up three link 44 on the support frame 45, link 44 is located connecting plate 42, and the contained angle between two adjacent link 44 is 120 degrees, through the link 44 that sets up, and then can guarantee the stability of device.

The detection device 3 comprises a support 31 arranged on the support seat 1, a connecting device 33 arranged on the support 31, and a connecting rod 32 connected with the connecting device 33, wherein the connecting rod 32 is rotatably connected with the connecting device 33, and the position of the detection equipment 35 can be adjusted through the connecting device 33 arranged, so that the position adjustment work of the detection equipment 35 is completed.

The detecting device 3 further comprises a rotating part 34 of the connecting rod 32 and a detecting device 35 arranged on the rotating part 34, and the detecting device 35 can be adjusted in position and angle through the rotating part 34, so that the detecting work of different angles of the sample can be realized, and the fine adjustment of the position of the detecting device 35 can be completed.

Description of the working principle: after an operator places a sample on the loading platform 46, the hoop 43 can be driven to start working by adjusting the locking piece 41, so that the loading platform 46 can be fastened on the bracket 31, the sample is prevented from moving like bouncing due to inertia in the lifting process, and the safety of the sample is ensured; when the sample needs to be lifted to a predetermined height, the driving portion 21 can be controlled to start working, and the moving driving portion 21 can drive the transmission screw rod 22 to start working, and the rotating transmission screw rod 22 can drive the connecting portion 231 to start working, the connecting portion 231 can bring the third link 235 and the fourth link 236 into motion, thereby the height of the lifting plate 5 can be lifted, and the moving lifting plate 5 can lift the height of the detection device 3, thereby completing the lifting work of the instrument, driving the transmission screw rod 22 to rotate through the arranged driving part 21, and then the height of the lifting plate 5 is adjusted, so that not only the height of the instrument can be lifted, but also through the movement of the transmission screw rod 22, the lifting process is more stable, the height of the lifting plate 5 can be more accurately adjusted, the lifting work of the sample is further completed, and the sample can be located at a set position; the position of the detection equipment 35 can be adjusted through the arranged connecting device 33, and the position adjustment work of the detection equipment 35 is further completed; through the rotating part 34 that sets up, and then can adjust the position and the angle of check out test set 35, and then realize the detection achievement to the different angles of sample, and then accomplish the fine setting to check out test set 35 position.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a laboratory precision analysis instrument elevating platform, characterized by includes:

2. The laboratory precision analytical instrument lift table of claim 1, wherein: the lifting device further comprises a shock pad disposed between the second link and the lifter plate.

3. The laboratory precision analytical instrument lift table of claim 1, wherein: the centre gripping subassembly include with the connecting plate that the supporting seat is connected sets up support frame on the connecting plate sets up loading platform on the support frame is located staple bolt on the loading platform, and set up on the staple bolt, and with a plurality of retaining members that the loading platform is connected.

4. The laboratory precision analytical instrument lift of claim 3, wherein: the support frame is also evenly provided with three connecting frames, the connecting frames are positioned on the connecting plates, and the included angle between every two adjacent connecting frames is 120 degrees.

5. The laboratory precision analytical instrument lift table of claim 1, wherein: the detection device comprises a support arranged on the support seat, a connecting device positioned on the support and a connecting rod connected with the connecting device, wherein the connecting rod is rotatably connected with the connecting device.

6. The laboratory precision analytical instrument lift table of claim 5, wherein: the detection device further comprises a rotating part and a detection device, wherein the rotating part is connected with the connecting rod, and the detection device is arranged on the rotating part.