CN214652933U - Be used for laboratory with hoist and mount system - Google Patents

Abstract

The utility model discloses a hoisting system for laboratory, which comprises an adjusting device arranged on the supporting frame, a rotating device arranged on the adjusting device, and hoisting equipment arranged on the rotating device; the rotating device comprises a rotating motor arranged on the adjusting device, a rotating part arranged at the output end of the rotating motor is arranged on a first rotating disc arranged on the rotating part, at least two support rods and at least three groups of connecting rods arranged on the first rotating disc are arranged on the support rods and on the connecting rods, and a second rotating disc arranged on the second rotating disc is arranged on the connecting rods. This device can drive lifting device and begin to rotate, and then pivoted lifting device can adjust the position of instrument, and then even also can accomplish the position adjustment work to the instrument in narrow and small laboratory, and then accomplish the hoist and mount work to the instrument.

Description

Be used for laboratory with hoist and mount system

Technical Field

The utility model belongs to the technical field of laboratory hoist and mount system, concretely relates to be used for laboratory hoist and mount system.

Background

Hoisting device need be used when installing some equipment to the laboratory, and then hoisting device's use is for the installation that artifical transport conveniently carries out the equipment more.

However, the existing hoisting device has some problems in carrying, and because instruments used in a laboratory are easy to damage compared with traditional instruments, extra care is needed in the carrying process of the instruments, the instruments can not be collided with other equipment, and the instruments can not be damaged due to vibration generated in the carrying process.

Therefore, how to complete the lifting and carrying work of the laboratory instrument is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a be used for laboratory hoist and mount system to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a hoist system for a laboratory, comprising:

the lifting device comprises a support frame, an adjusting device positioned on the support frame, a rotating device arranged on the adjusting device, and lifting equipment positioned on the rotating device;

the rotating device comprises a rotating motor positioned on the adjusting device, a rotating part positioned at the output end of the rotating motor is arranged on a first rotating disc on the rotating part, at least two support rods and at least three groups of connecting rods are uniformly arranged on the first rotating disc, the second rotating disc is connected to the support rods and the connecting rods, and a connecting piece on the second rotating disc is arranged on the connecting piece, and then the second rotating disc can be driven to start moving through the connecting piece, so that the smooth operation of the rotating work is guaranteed. Or the first rotating disc and the first rotating disc are locked in the circumferential direction through the supporting rod and the connecting rod, a preset moving space is formed in the axial direction of the connecting rod, and the first rotating disc can drive the supporting rod and the connecting rod to start moving when moving.

In a further embodiment, one end of the connecting rod is also provided with a limiting block and a limiting ball connected with the limiting block; at least when the installation state, spacing ball and lifting device butt, the connecting piece is connected with lifting device, can accomplish the shock attenuation work to the device, and then can guarantee the safety of instrument, avoids the damage of instrument.

In a further embodiment, at least three groups of through grooves are formed in the second rotating disc, the connecting rod penetrates through the through grooves, and the limiting block and the limiting ball are located on the same side of the second rotating disc.

In a further embodiment, the adjusting device comprises a group of slide rails symmetrically mounted on the support frame, a slide block positioned on the slide rails, a sliding frame for connecting the slide block, a driving device arranged on the sliding frame, and a driving rack positioned on one of the slide rails; the driving device is abutted to the driving rack, the rotating motor is located on the sliding frame, the sliding frame can be driven to move on the sliding rail under the matching of the sliding block, and then the position of an instrument can be adjusted.

In a further embodiment, the hoisting equipment comprises a limiting seat connected with the rotating device, a driving motor arranged on the limiting seat, and a first connecting arm positioned at the output end of the driving motor, wherein the first connecting arm is rotatably connected with the limiting seat, so that the driving work of the first connecting arm can be completed, and the workpiece can be lifted to a certain height.

In a further embodiment, the lifting device is further including setting up hoist and mount motor on the spacing seat is located the driving frame of hoist and mount motor output, and set up second linking arm on the driving frame, first linking arm is located the driving frame, second linking arm and spacing seat rotatable coupling accomplish the lifting work to the instrument, guarantee going on smoothly of transportation.

In a further embodiment, the other ends of the first connecting arm and the second connecting arm are further provided with a connecting frame and an adsorption device positioned on the connecting frame, so that the instrument can be prevented from falling off in the process of moving the instrument, and further the instrument can be prevented from being damaged.

Has the advantages that: the utility model relates to a hoisting system for laboratory, in order to accomplish the handling work of the fragile instrument in the laboratory, and then the device is provided with a rotating device, when the adsorption device finishes the adsorption work of the instrument, then the hoisting equipment starts working, and then the moving hoisting equipment lifts the part to a certain height, and then the rotating motor starts working, and then the moving rotating motor drives the rotating part to start moving, and then the moving rotating part can drive the first rotating disk to start moving, and then the moving first rotating disk can drive the support rod and the connecting rod to start working, and then the moving support rod and the connecting rod can drive the second rotating disk to start moving, and then the moving second rotating disk can drive the connecting piece to start working, and then the moving connecting piece can drive the hoisting equipment to start working, and then the rotating hoisting equipment can adjust the position of the instrument, and then the position adjustment work of the instrument can be finished even in a narrow laboratory, and the hoisting work of the instrument can be further finished.

Drawings

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

Fig. 2 is a schematic view of the middle rotating device of the present invention.

Figure 3 is the utility model discloses well lifting device schematic diagram.

The figures are numbered: the device comprises a support frame 1, a sliding rail 2, a driving device 3, a sliding block 4, a sliding frame 5, a rotating device 6, a hoisting device 7, a connecting frame 8, an adsorption device 9, a driving rack 10, a rotating motor 61, a rotating part 62, a first rotating disc 63, a supporting rod 64, a connecting rod 65, a second rotating disc 66, a limiting block 67, a limiting ball 68, a connecting piece 69, a limiting seat 71, a driving motor 72, a hoisting motor 73, a transmission frame 74, a first connecting arm 75 and a second connecting arm 76.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (because the laboratory space is small, and if a moving device is adopted, a large space is occupied, and the moving device cannot move flexibly in the laboratory, and further the failure of the instrument placing work is caused) is that instruments used in the laboratory are easy to damage compared with traditional instruments, so that extra care is needed in the process of carrying the instruments, the instruments cannot collide with other equipment, and the instruments cannot be damaged due to vibration generated in the carrying process, and most of the existing hoisting devices are installed on the moving device, and the positions of the instruments can be adjusted through the movement of the moving device, so that the instrument placing work is finished. In order to complete the carrying work of fragile instruments in laboratories, a rotating device is further arranged in the device, when the adsorbing device finishes the adsorbing work of the instruments, the hoisting equipment starts to work, then the moving hoisting equipment lifts parts to a certain height, then a rotating motor starts to work, further the moving rotating motor drives a rotating part to start to move, further the moving rotating part can drive a first rotating disc to start to move, further the moving first rotating disc can drive a supporting rod and a connecting rod to start to work, further the moving supporting rod and the moving connecting rod can drive a second rotating disc to start to move, further the moving second rotating disc can drive a connecting piece to start to work, further the moving connecting piece can drive the hoisting equipment to start to work, further the rotating hoisting equipment can adjust the position of the instruments, and further the position adjusting work of the instruments can be completed even in narrow laboratories, and then the hoisting work of the instrument is completed.

A hoist system for a laboratory, comprising: the device comprises a support frame 1, a sliding rail 2, a driving device 3, a sliding block 4, a sliding frame 5, a rotating device 6, a hoisting device 7, a connecting frame 8, an adsorption device 9, a driving rack 10, a rotating motor 61, a rotating part 62, a first rotating disc 63, a supporting rod 64, a connecting rod 65, a second rotating disc 66, a limiting block 67, a limiting ball 68, a connecting piece 69, a limiting seat 71, a driving motor 72, a hoisting motor 73, a transmission frame 74, a first connecting arm 75 and a second connecting arm 76.

The lifting device comprises a support frame 1, an adjusting device arranged on the support frame 1, a rotating device 6 arranged on the adjusting device, and lifting equipment 7 arranged on the rotating device 6.

The rotating device 6 comprises a rotating motor 61 positioned on the adjusting device, a rotating part 62 positioned at the output end of the rotating motor 61, a first rotating disc 63 arranged on the rotating part 62, at least two support rods 64 and at least three groups of connecting rods 65 which are uniformly arranged on the first rotating disc 63, a second rotating disc 66 positioned on the support rods 64 and on the connecting rods 65, and a connecting piece 69 arranged on the second rotating disc 66, wherein when the adsorption device 9 finishes the adsorption work on the instrument, the hoisting equipment 7 starts to work, then the moving hoisting equipment 7 lifts the part to a certain height, then the rotating motor 61 starts to work, then the moving rotating motor 61 drives the rotating part 62 to start to move, then the moving rotating part 62 can drive the first rotating disc 63 to start to move, and then the moving first rotating disc 63 can drive the support rods 64 and the connecting rods 65 to start to work, and then the bracing piece 64 and the connecting rod 65 that move can drive second rolling disc 66 and begin to move, and then the second rolling disc 66 that moves can drive connecting piece 69 and begin work, and then can drive second rolling disc 66 and begin to move through the connecting piece 69 that sets up, and then guarantee the smooth operation of rotatory work.

One end of the connecting rod 65 is also provided with a limiting block 67 and a limiting ball 68 connected with the limiting block 67; at least when the installation state, spacing ball 68 and hoisting equipment 7 butt, connecting piece 69 is connected with hoisting equipment 7, stopper 67 and spacing ball 68 have predetermined elasticity, and then when the device received the impact force, and then improve the deformation of stopper 67 and spacing ball 68, and then can accomplish the shock attenuation work to the device, and then can guarantee the safety of instrument, avoid the damage of instrument.

At least three groups of through grooves are formed in the second rotating disc 66, the connecting rod 65 penetrates through the through grooves, and the limiting block 67 and the limiting ball 68 are located on the same side of the second rotating disc 66.

The adjusting device comprises a group of slide rails 2 symmetrically arranged on the support frame 1, a slide block 4 positioned on the slide rails 2, a sliding frame 5 used for connecting the slide block 4, a driving device 3 arranged on the sliding frame 5, and a driving rack 10 positioned on one of the slide rails 2; the driving device 3 abuts against the driving rack 10, the rotating motor 61 is located on the sliding frame 5, when the position of the instrument needs to be adjusted, the driving device 3 starts to move at the moment, the moving driving device 3 can start to move on the rack, the sliding frame 5 can be driven to move on the sliding rail 2 under the matching of the sliding block 4, and the position of the instrument can be adjusted.

The hoisting equipment 7 comprises a limiting seat 71 connected with the rotating device 6, a driving motor 72 arranged on the limiting seat 71 and located at a first connecting arm 75 at the output end of the driving motor 72, the first connecting arm 75 is rotatably connected with the limiting seat 71, and the driving motor 72 is arranged and then starts to move when the driving motor 72 starts to move, so that the driving work of the first connecting arm 75 can be completed, and further a workpiece can be lifted to a certain height.

Hoisting equipment 7 is still including setting up hoist and mount motor 73 on the spacing seat 71 is located the driving frame 74 of hoist and mount motor 73 output, and set up second connecting arm 76 on the driving frame 74, first connecting arm 75 is located driving frame 74, second connecting arm 76 and spacing seat 71 rotatable coupling, when hoist and mount motor 73 begins to move, and then the hoist and mount motor 73 of motion can drive first connecting arm 75 and second connecting arm 76 and begin to move, and then mutually supports with driving motor 72, accomplishes the lifting and lowering work to the instrument, guarantees going on smoothly of transportation.

The other end of first linking arm 75 and second linking arm 76 still is equipped with link 8, and is located adsorption equipment 9 on the link 8, through the adsorption equipment 9 that sets up, and then can accomplish the absorption work to the instrument, and then can avoid carrying out the in-process that removes to the instrument, dropping of instrument, and then avoid the damage of instrument.

Description of the working principle: after the adsorption device 9 finishes the adsorption work on the instrument, the hoisting device 7 starts to work, the moving hoisting device 7 lifts the part to a certain height, the rotating motor 61 starts to work, the moving rotating motor 61 drives the rotating part 62 to start to move, the moving rotating part 62 can drive the first rotating disc 63 to start to move, the moving first rotating disc 63 can drive the supporting bar 64 and the connecting bar 65 to start to work, the moving supporting bar 64 and the connecting bar 65 can drive the second rotating disc 66 to start to move, the moving second rotating disc 66 can drive the connecting piece 69 to start to work, the moving connecting piece 69 can drive the hoisting device 7 to start to work, the rotating hoisting device 7 can adjust the position of the instrument, and the position adjustment work of the instrument can be finished even in a narrow laboratory, the hoisting work of the instrument is further completed, when the position of the instrument needs to be adjusted, the driving device 3 starts to move at the moment, and then the moving driving device 3 can start to move on the rack, so that the sliding frame 5 can be driven to move on the sliding rail 2 under the matching of the sliding block 4, and the position of the instrument can be adjusted; when the hoisting motor 73 starts to move, the moving hoisting motor 73 can drive the first connecting arm 75 and the second connecting arm 76 to start to move, and then the first connecting arm 75 and the second connecting arm 76 are matched with the driving motor 72, so that the lifting work of the instrument is completed, and the smooth operation of the transportation process is ensured.

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 (7)

1. The utility model provides a be used for laboratory hoist and mount system, characterized by includes:

the lifting device comprises a support frame, an adjusting device positioned on the support frame, a rotating device arranged on the adjusting device, and lifting equipment positioned on the rotating device;

the rotating device comprises a rotating motor positioned on the adjusting device, a rotating part connected with the output end of the rotating motor is arranged on a first rotating disc arranged on the rotating part, at least two support rods and at least three groups of connecting rods are uniformly arranged on the first rotating disc, a second rotating disc arranged on the support rods and on the connecting rods is arranged, and a connecting piece arranged on the second rotating disc is arranged.

2. A hoist system for a laboratory according to claim 1 characterized in that: one end of the connecting rod is also provided with a limiting block and a limiting ball connected with the limiting block;

at least when the lifting device is in an installation state, the limiting ball is abutted to the lifting device, and the connecting piece is connected with the lifting device.

3. A hoist system for a laboratory according to claim 2, characterized in that: at least three groups of through grooves are formed in the second rotating disc, the connecting rod penetrates through the through grooves, and the limiting blocks and the limiting balls are located on the same side of the second rotating disc.

4. A hoist system for a laboratory according to claim 3, characterized in that: the adjusting device comprises a group of slide rails symmetrically arranged on the support frame, a slide block positioned on the slide rails, a sliding frame used for connecting the slide block, driving equipment arranged on the sliding frame, and a driving rack positioned on one slide rail;

the driving device is abutted to the driving rack, and the rotating motor is located on the sliding frame.

5. A hoist system for laboratory use according to claim 4, characterized in that: the hoisting equipment comprises a limiting seat connected with the rotating device, a driving motor arranged on the limiting seat, and a first connecting arm positioned at the output end of the driving motor, wherein the first connecting arm is rotatably connected with the limiting seat.

6. A hoist system for laboratory use according to claim 5, characterized in that: the hoisting equipment further comprises a hoisting motor arranged on the limiting seat, a transmission frame arranged at the output end of the hoisting motor, and a second connecting arm arranged on the transmission frame, wherein the first connecting arm is arranged on the transmission frame, and the second connecting arm is rotatably connected with the limiting seat.

7. A hoist system for laboratory use according to claim 6, characterized in that: the other ends of the first connecting arm and the second connecting arm are also provided with a connecting frame and an adsorption device positioned on the connecting frame.

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