CN216343672U - Electromechanical device damping device - Google Patents

Abstract

The utility model relates to the technical field of electromechanical equipment, in particular to a damping device for electromechanical equipment, wherein a first spring is respectively arranged between an output end of a first electric telescopic rod and a first sliding block; the supporting frame is movably arranged in the opening on the mounting plate; the connecting rods are correspondingly staggered left and right in pairs, one end of each connecting rod is hinged with the first sliding block, the other end of each connecting rod is hinged with the support frame, and the left and right corresponding connecting rods are connected in a rotating mode through rotating shafts; the fixing ring is fixed at the bottom of the mounting plate; the balls are respectively and movably arranged at the bottom of the fixed ring in an equal round angle manner; the movable frame is movably arranged on the outer side of the fixed ring, and the ball is movably attached to the bottom of the inner cavity of the movable frame; the second spring is respectively arranged between the fixed ring and the inner cavity wall of the movable frame in an equal round angle manner; the secondary protection mechanisms are respectively arranged at four corners of the bottom of the support frame; the limiting mechanism is correspondingly arranged on the supporting frame left and right respectively, and is reasonable in design, convenient to install, good in damping effect and provided with a secondary protection structure, and a transverse damping structure is provided.

Description

Electromechanical device damping device

Technical Field

The utility model relates to the technical field of electromechanical equipment, in particular to a damping device for electromechanical equipment.

Background

At present, industrial production in a plurality of areas in China is increasing, automatic electromechanical equipment is adopted in the industrial production process, wherein the electromechanical equipment mostly refers to mechanical and electrical integration, and in the building industry, the electromechanical automatic equipment is adopted for carrying, assembly line engineering and other projects. However, in the current social stage, in the use process of the electromechanical device, due to the self-reason of the device, the noise is high during the work, so that a damping device is added to the electromechanical device in a factory to reduce the noise, and the damping device is too single in structure and needs to be installed at the bottom of the electromechanical device, so that part of the electromechanical device is heavy, inconvenient to install and does not have a transverse damping structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and shortcomings of the prior art, and provides a damping device for electromechanical equipment, which is reasonable in design, convenient to install, good in damping effect and provided with a secondary protection structure, and has a transverse damping structure.

In order to achieve the purpose, the utility model adopts the following technical scheme: the device comprises a mounting plate and an inclined plate, wherein the inclined plate is screwed on the side wall of the mounting plate by using a hinge; it also includes:

the electric telescopic rods are a plurality of and are respectively arranged in the mounting plate in a left-right corresponding mode, and the electric telescopic rods are externally connected with a power supply;

the first sliding blocks are a plurality of and are respectively movably arranged in the mounting plate in a left-right corresponding manner;

the first springs are multiple and are respectively arranged between the output end of the first electric telescopic rod and the first sliding block;

the support frame is movably arranged in the opening on the mounting plate;

the connecting rods are a plurality of and are correspondingly staggered in pairs left and right, one end of each connecting rod is hinged with the first sliding block, the other end of each connecting rod is hinged with the support frame, and the left and right corresponding connecting rods are connected in a rotating mode through rotating shafts;

the fixing ring is fixed at the bottom of the mounting plate;

the balls are provided in plurality and are respectively movably arranged at the bottom of the fixing ring in an equal round angle manner;

the movable frame is movably arranged on the outer side of the fixed ring, and the ball is movably attached to the bottom of the inner cavity of the movable frame;

the second springs are multiple and are respectively arranged between the fixed ring and the inner cavity wall of the movable frame at equal filleted corners;

four secondary protection mechanisms are arranged and are respectively arranged at four corners of the bottom of the support frame;

and the two limiting mechanisms are respectively arranged on the support frame in a left-right corresponding mode.

Preferably, a rubber anti-slip cushion layer is fixed at the bottom of the movable frame.

Preferably, the secondary protection mechanisms each comprise:

the sleeve is fixed at the bottom of the supporting frame;

the telescopic rod is movably arranged in the sleeve by utilizing the linear sealing bearing;

the rubber floor is fixed at one end of the telescopic rod, which is positioned at the outer side of the sleeve;

the piston plate is fixed at one end of the telescopic rod, which is positioned at the inner side of the sleeve, and a through hole is formed in the piston plate;

and the third spring is arranged between the piston plate and the top of the inner cavity of the sleeve.

Preferably, the limiting mechanisms all comprise:

the two electric telescopic rods are respectively fixed on the front side wall and the rear side wall of the support frame and are externally connected with a power supply;

the two second sliding blocks are movably arranged in the sliding grooves in the front side wall and the rear side wall of the supporting frame respectively, and the two second sliding blocks are fixed with the output ends of the second electric telescopic rods in a one-to-one correspondence manner;

and the two limiting plates are respectively screwed on the second sliding block by using hinges, and the front and rear corresponding limiting plates are fixed by using hasps.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides an electromechanical equipment damping device which is reasonable in design, convenient to install, good in damping effect and provided with a secondary protection structure, and has a transverse damping structure.

Drawings

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

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of a connection structure of the stopper plate according to the present invention.

Description of reference numerals:

mounting panel 1, swash plate 2, electric telescopic handle 3, slider 4, spring 5, hold in the palm frame 6, connecting rod 7, solid fixed ring 8, ball 9, movable frame 10, No. two springs 11, secondary protection mechanism 12, stop gear 13, sleeve pipe 14, telescopic link 15, rubber floor 16, piston plate 17, through-hole 18, No. three spring 19, No. two electric telescopic handle 20, slider 21, limiting plate 22, rubber skid resistant course 23.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings, and the preferred embodiments in the description are only examples, and all other embodiments obtained by those skilled in the art without any inventive work belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment: the device comprises a mounting plate 1 and an inclined plate 2, wherein the inclined plate 2 is rotatably connected to the side wall of the mounting plate 1 by a hinge; it also includes:

the electric telescopic rods 3 are a plurality of electric telescopic rods 3, the electric telescopic rods 3 are correspondingly arranged in the mounting plate 1 in pairs at the left and right, and the electric telescopic rods 3 are externally connected with a power supply;

the first sliding blocks 4 are multiple and are respectively movably arranged in the mounting plate 1 in a left-right corresponding mode;

the first springs 5 are multiple and are respectively arranged between the output end of the first electric telescopic rod 3 and the first sliding block 4;

the support frame 6 is movably arranged in an opening on the mounting plate 1;

the connecting rods 7 are provided with a plurality of connecting rods 7, the connecting rods 7 are correspondingly staggered in pairs left and right, one end of each connecting rod 7 is hinged with the first sliding block 4, the other end of each connecting rod 7 is hinged with the support frame 6, and the corresponding connecting rods 7 on the left and right are connected in a rotating mode through rotating shafts;

the fixing ring 8 is riveted and fixed at the bottom of the mounting plate 1;

the balls 9 are provided with a plurality of balls 9, and the balls 9 are respectively movably arranged at the bottom of the fixing ring 8 with equal round angles;

the movable frame 10 is movably arranged on the outer side of the fixed ring 8, and the ball 9 is movably attached to the bottom of the inner cavity of the movable frame 10;

the second springs 11 are a plurality of springs 11, and are respectively arranged between the fixed ring 8 and the inner cavity wall of the movable frame 10 in an equi-circular angle manner;

four secondary protection mechanisms 12 are arranged at four corners of the bottom of the supporting frame 6;

and two limiting mechanisms 13 are arranged on the support frame 6 respectively in a left-right corresponding mode.

Preferably, a rubber anti-slip pad layer 23 is bonded and fixed to the bottom of the movable frame 10.

Preferably, the secondary protection mechanisms 12 each include:

the sleeve 14, the said sleeve 14 is riveted and fixed on the bottom of the supporting frame 6;

the telescopic rod 15 is movably arranged in the sleeve 14 by utilizing a linear sealing bearing;

the rubber floor 16 is riveted and fixed at one end of the telescopic rod 15, which is positioned at the outer side of the sleeve 14;

the piston plate 17 is riveted and fixed at one end of the telescopic rod 15, which is positioned at the inner side of the sleeve 14, and the piston plate 17 is provided with a through hole 18;

and a third spring 19, wherein the third spring 19 is arranged between the piston plate 17 and the top of the inner cavity of the sleeve 14.

Preferably, the limiting mechanisms 13 each include:

the two electric telescopic rods 20 are respectively riveted and fixed on the front side wall and the rear side wall of the supporting frame 6, and the two electric telescopic rods 20 are externally connected with a power supply;

the two second sliding blocks 21 are movably arranged in sliding grooves in the front side wall and the rear side wall of the supporting frame 6 respectively, and the two second sliding blocks 21 are riveted and fixed with the output ends of the second electric telescopic rod 20 in a one-to-one correspondence manner;

and two limiting plates 22 are arranged, the two limiting plates 22 are respectively screwed on the second sliding block 21 by hinges, and the front and rear corresponding limiting plates 22 are fixed by hasps.

The working principle of the specific embodiment is as follows: turning over a limiting plate 22 to a limiting plate 22 and attaching the limiting plate 22 to the front side wall and the rear side wall of a supporting frame 6, moving an electromechanical device to the supporting frame 6 through an inclined plate 2, then resetting the limiting plate 22, putting on a buckle, starting a second electric telescopic rod 20 to drive a second sliding block 21 to move towards the middle position, attaching the limiting plate 22 to the electromechanical device, limiting the electromechanical device, starting a first electric telescopic rod 3 to drive a first sliding block 4 to move towards the middle position, driving the supporting frame 6 to ascend, adjusting the height of the supporting frame 6, when the electromechanical device generates vibration in the operation process, moving the supporting frame 6 up and down, pressing the first sliding block 4 to move towards two sides, longitudinally cushioning a first spring 5, moving a fixing ring 8 in the horizontal direction in a movable frame 10 to cushion the vibration in the horizontal direction, injecting shear thickening liquid into a cavity where a third spring 19 is located, and when the supporting frame 6 falls, buffering the shear thickening liquid, the electromechanical device is prevented from being too heavy, the third spring 19 cannot support the electromechanical device, after primary buffering is completed, the shear thickening liquid flows down through the through hole 18, and the third spring 19 performs buffering again.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the mounting plate 1, the inclined plate 2, the first electric telescopic rod 3, the first sliding block 4, the first spring 5, the supporting frame 6, the connecting rod 7, the fixing ring 8, the rolling balls 9, the movable frame 10, the second spring 11, the secondary protection mechanism 12 and the limiting mechanism 13 are matched, so that the mounting is convenient, a transverse shock absorption structure is provided, a good shock absorption effect is achieved, and the secondary protection structure is provided;

2. the sleeve 14, the telescopic rod 15, the rubber floor 16, the piston plate 17, the through hole 18 and the third spring 19 are matched, so that heavy weight buffering can be performed;

3. the position of the electromechanical device can be limited by the cooperation of the second electric telescopic rod 20, the second sliding block 21 and the limiting plate 22;

4. the rubber skid layer 23 increases friction.

It will be appreciated by those skilled in the art that modifications and equivalents may be made to the embodiments described above, and that various modifications, equivalents, improvements and the like may be made without departing from the spirit and scope of the utility model.

Claims (4)

1. A shock-absorbing device for electromechanical equipment comprises a mounting plate (1) and an inclined plate (2), wherein the inclined plate (2) is screwed on the side wall of the mounting plate (1) by using a hinge; it is characterized in that it also comprises:

the electric telescopic rods (3) are multiple, the electric telescopic rods (3) are correspondingly arranged in the mounting plate (1) in pairs at the left and right, and the electric telescopic rods (3) are externally connected with a power supply;

the first sliding blocks (4) are multiple and are respectively movably arranged in the mounting plate (1) in a left-right corresponding mode;

the first springs (5) are multiple and are respectively arranged between the output end of the first electric telescopic rod (3) and the first sliding block (4);

the support frame (6), the said support frame (6) is set up in the opening on the mounting panel (1) movably;

the connecting rods (7) are provided in a plurality, the connecting rods (7) are correspondingly staggered in pairs, left and right, one end of each connecting rod (7) is hinged with the first sliding block (4), the other end of each connecting rod (7) is hinged with the support frame (6), and the corresponding connecting rods (7) on the left and right are connected in a rotating mode through rotating shafts;

the fixing ring (8), the said fixing ring (8) is fixed on the bottom of the mounting plate (1);

the balls (9) are multiple, and the balls (9) are respectively movably arranged at the bottom of the fixing ring (8) in an equal-fillet manner;

the movable frame (10) is movably arranged on the outer side of the fixed ring (8), and the ball (9) is movably attached to the bottom of the inner cavity of the movable frame (10);

the springs (11) are a plurality of springs (11), and are respectively arranged between the fixed ring (8) and the inner cavity wall of the movable frame (10) in an equi-circular angle manner;

four secondary protection mechanisms (12), wherein the four secondary protection mechanisms (12) are respectively arranged at four corners of the bottom of the support frame (6);

the two limiting mechanisms (13) are respectively and correspondingly arranged on the support frame (6) from left to right.

2. The electromechanical device damping apparatus according to claim 1, wherein: the bottom of the movable frame (10) is fixed with a rubber anti-skid cushion layer (23).

3. The electromechanical device damping apparatus according to claim 1, wherein: the secondary protection mechanisms (12) each comprise:

the sleeve (14), the said sleeve (14) is fixed on the bottom of the support frame (6);

the telescopic rod (15), the said telescopic rod (15) utilizes the linear seal bearing to set up in the thimble (14) movably;

the rubber floor (16), the said rubber floor (16) is fixed on one end that the telescopic link (15) locates at the outside of the thimble (14);

the piston plate (17) is fixed at one end of the telescopic rod (15) positioned at the inner side of the sleeve (14), and a through hole (18) is formed in the piston plate (17);

and the third spring (19) is arranged between the piston plate (17) and the top of the inner cavity of the sleeve (14).

4. The electromechanical device damping apparatus according to claim 1, wherein: the limiting mechanisms (13) all comprise:

the two electric telescopic rods (20) are respectively fixed on the front side wall and the rear side wall of the support frame (6), and the two electric telescopic rods (20) are externally connected with a power supply;

the two second sliding blocks (21) are movably arranged in sliding grooves in the front side wall and the rear side wall of the supporting frame (6) respectively, and the two second sliding blocks (21) are fixed with the output ends of the second electric telescopic rods (20) in a one-to-one correspondence manner;

the number of the limiting plates (22) is two, the two limiting plates (22) are respectively screwed on the second sliding block (21) through hinges, and the limiting plates (22) corresponding to the front and the back are fixed through hasps.

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