CN221221999U - Anti-seismic support and electromechanical equipment - Google Patents

Abstract

The utility model relates to the technical field of electromechanical equipment, in particular to an anti-seismic bracket and electromechanical equipment, which comprises a support frame, two support plates, two sliding plates and two telescopic devices, wherein the support frame is provided with a plurality of sliding plates; two fixing plates are arranged at the upper end of the support frame side by side; the bottom surface of each sliding plate is provided with two first sliding blocks for sliding friction with two sliding grooves, each sliding plate is provided with a plurality of heat dissipation holes, and the two sliding plates are provided with clamping assemblies; two ends of each telescopic device are respectively connected with each fixed plate and each sliding plate; both support plates are arranged on the bottom surface of the support frame. According to the utility model, the buffer cushion is used for clamping and protecting the electromechanical equipment body, so that the mounting stability of the electromechanical equipment body is improved; because the electromechanical device body is located right above the through hole, the heat emitted by the electromechanical device body is conveniently and rapidly dissipated by the cooling fan, the flow efficiency of air between the two sliding plates is quickened by the plurality of cooling holes, and the cooling efficiency of the electromechanical device body is improved.

Description

Anti-seismic support and electromechanical equipment

Technical Field

The utility model relates to the technical field of electromechanical equipment, in particular to an anti-seismic bracket and electromechanical equipment.

Background

The electromechanical device is generally mechanical and electrical equipment and is electrically automated, along with the continuous improvement of the living standard of people, the electromechanical device is increasingly used in daily life, and in the installation process of the electromechanical device, the electromechanical device is required to be supported and installed by using a special installation support because the electromechanical device is directly placed on the ground to be affected by damp easily, but the electromechanical device support in the current market still has the following problems: the existing electromechanical equipment bracket cannot adapt to electromechanical equipment with different sizes when in use, and the practicability of the device is limited; the conventional electromechanical equipment support, the semi-package type heat dissipation support can normally dissipate heat affecting electromechanical equipment, and the support has no vibration buffering effect.

The Chinese patent with the authorized bulletin number of CN218564855U discloses an electromechanical device anti-seismic bracket, which comprises a supporting plate, wherein the upper surface of the supporting plate is connected with a buffer mechanism, the top end of the supporting plate is connected with a mounting plate through the buffer mechanism, and a shell of the mounting plate is connected with a clamping mechanism; the clamping mechanism comprises screw rods which are connected with the lower surface of the mounting plate through bearing blocks and are crossed with each other to form a cross shape, and clamping assemblies connected with two ends of the screw rods; the clamping assembly comprises a clamping block connected with the outer surface of the screw rod, a sliding block connected with the clamping block in a sliding mode, and a shock absorber connected with one side, away from the sliding block at the opposite end, of the sliding block. The utility model can buffer the electromechanical equipment in the process of clamping the electromechanical equipment so as to improve the stability of the electromechanical equipment.

The defects of the prior art are as follows: the electromechanical equipment cannot be subjected to heat radiation protection, and the protection effect of the device is poor.

Disclosure of utility model

The utility model aims at solving the problems in the background technology and provides an anti-seismic bracket and electromechanical equipment, wherein the anti-seismic bracket is convenient for carrying out heat dissipation protection on the electromechanical equipment.

The technical scheme of the utility model is as follows: an anti-seismic bracket and electromechanical equipment comprise a support frame, two support plates, two sliding plates and two telescopic devices;

The middle part of the support frame is provided with a through hole, and the upper end surface of the support frame is provided with two sliding grooves side by side; the two sliding grooves are positioned on two sides of the through hole, and two fixing plates are arranged at the upper end of the support frame side by side;

The two sliding plates are positioned between the two fixed plates, the bottom surface of each sliding plate is provided with two first sliding blocks for sliding friction with the two sliding grooves, each sliding plate is provided with a plurality of heat dissipation holes, and the end surfaces of the two sliding plates, which are close to each other, are provided with clamping assemblies for clamping the electromechanical equipment body; two ends of each telescopic device are respectively connected with each fixed plate and each sliding plate;

both support plates are arranged on the bottom surface of the support frame.

Preferably, each clamping assembly comprises two clamping blocks, a threaded rod, two buffer pads and two second sliding blocks; the sliding plate is provided with a mounting groove; a driving motor is arranged in the mounting groove; one end of the threaded rod is connected with a driving motor, the other end of the threaded rod is rotatably arranged in the mounting insert, and threads with opposite screw threads are arranged on the threaded rod along the middle part towards the two ends; the two second sliding blocks are in threaded connection with the threaded rod, and are in sliding connection with the inner wall of the mounting groove; the two clamping blocks are respectively arranged on the two second sliding blocks, and each clamping block is L-shaped; two cushioning pads are mounted on the two clamping blocks, respectively.

Preferably, each clamping block and each second slider are of an integrally formed structure.

Preferably, the support frame and the two support plates are of an integrated structure.

Preferably, the heat dissipation device further comprises a heat dissipation fan; the radiator fan is installed on one of them backup pad, and radiator fan's air-out direction is towards the through-hole.

An electromechanical device comprising an anti-vibration mount according to any one of the preceding claims, comprising an outer housing and a plurality of electromechanical elements; a plurality of electromechanical elements are each mounted within the outer housing; the outer shell is provided with a plurality of heat dissipation through holes; both sliding plates are pressed against the outer circumferential surface of the outer housing.

Preferably, the four corners of the outer shell are provided with anti-slip layers.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial technical effects:

The user pushes the two sliding plates to move through the telescopic device, so that the two sliding plates clamp the outer peripheral surface of the electromechanical equipment body, then the motor drives the threaded rod to rotate, and further the clamping blocks are pressed on the electromechanical equipment body, the buffer pad clamps and protects the electromechanical equipment body, and the installation stability of the electromechanical equipment body is improved; because the electromechanical device body is located right above the through hole, the heat emitted by the electromechanical device body is conveniently and rapidly dissipated by the cooling fan, the flow efficiency of air between the two sliding plates is quickened by the plurality of cooling holes, and the cooling efficiency of the electromechanical device body is improved.

The plurality of anti-slip layers are tightly pressed with the plurality of buffer cushions, so that stable clamping of the electromechanical equipment is realized.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is an enlarged partial schematic view at a in fig. 1.

Fig. 3 is a schematic structural view of a support frame according to the present utility model.

Reference numerals: 1. an electromechanical device body; 2. a support frame; 201. a chute; 202. a through hole; 3. a first slider; 4. a support plate; 5. a fixing plate; 6. a sliding plate; 601. a heat radiation hole; 7. a telescoping device; 8. a clamping block; 9. a threaded rod; 10. a cushion pad; 11. and a second slider.

Detailed Description

Example 1

As shown in fig. 1-3, the anti-seismic bracket provided by the utility model comprises a supporting frame 2, two supporting plates 4, two sliding plates 6 and two telescopic devices 7;

The middle part of the support frame 2 is provided with a through hole 202, and the upper end surface of the support frame 2 is provided with two sliding grooves 201 side by side; the two sliding grooves 201 are positioned on two sides of the through hole 202, and the upper end of the support frame 2 is provided with two fixing plates 5 side by side;

The two sliding plates 6 are positioned between the two fixed plates 5, the bottom surface of each sliding plate 6 is provided with two first sliding blocks 3 for sliding friction with the two sliding grooves 201, each sliding plate 6 is provided with a plurality of heat dissipation holes 601, and the end surfaces of the two sliding plates 6, which are close to each other, are provided with clamping assemblies for clamping the electromechanical equipment body 1; each clamping assembly comprises two clamping blocks 8, a threaded rod 9, two buffer pads 10 and two second sliding blocks 11; the sliding plate 6 is provided with a mounting groove; a driving motor is arranged in the mounting groove; one end of the threaded rod 9 is connected with a driving motor, the other end of the threaded rod 9 is rotatably arranged in the installation insert, and threads with opposite screw threads are arranged at the two ends of the threaded rod 9 along the middle part; the two second sliding blocks 11 are in threaded connection with the threaded rod 9, and the two second sliding blocks 11 are in sliding connection with the inner wall of the mounting groove; the two clamping blocks 8 are respectively arranged on the two second sliding blocks 11, and each clamping block 8 is L-shaped; two cushioning pads 10 are mounted on the two clamping blocks 8, respectively; each clamping block 8 and each second sliding block 11 are of an integrated structure; two ends of each telescopic device 7 are respectively connected with each fixed plate 5 and each sliding plate 6;

Both support plates 4 are arranged on the bottom surface of the support frame 2; the support frame 2 and the two support plates 4 are of an integrated structure. The heat dissipation fan is also included; the cooling fan is mounted on one of the support plates 4, and the air outlet direction of the cooling fan is directed toward the through hole 202.

In the utility model, when in use, a user pushes the two sliding plates 6 to move through the telescopic device 7, so that the two sliding plates 6 clamp the outer peripheral surface of the electromechanical equipment body 1, then the motor drives the threaded rod 9 to rotate, and a plurality of clamping blocks 8 are pressed on the electromechanical equipment body 1, and the buffer pad 10 clamps and protects the electromechanical equipment body 1, thereby improving the installation stability of the electromechanical equipment body 1; because the electromechanical device body 1 is located right above the through hole 202, the heat emitted by the electromechanical device body 1 is conveniently and rapidly dissipated by the heat dissipating fan, the flow efficiency of air between the two sliding plates 6 is quickened by the plurality of heat dissipating holes 601, and the heat dissipating efficiency of the electromechanical device body 1 is improved.

Example two

In the electromechanical device according to the present utility model, compared to the first embodiment, the present embodiment includes an outer housing and a plurality of electromechanical elements; a plurality of electromechanical elements are each mounted within the outer housing; the outer shell is provided with a plurality of heat dissipation through holes, and the four corners of the outer shell are respectively provided with an anti-slip layer; both sliding plates 6 are pressed against the outer peripheral surface of the outer housing.

In the present utility model, the plurality of anti-slip layers are compressed with the plurality of cushioning pads 10, thereby achieving stable clamping of the electromechanical device.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. An anti-seismic bracket is characterized by comprising a support frame (2), two support plates (4), two sliding plates (6) and two telescopic devices (7);

A through hole (202) is arranged in the middle of the support frame (2), and two sliding grooves (201) are arranged on the upper end surface of the support frame (2) side by side; the two sliding grooves (201) are positioned at two sides of the through hole (202), and two fixing plates (5) are arranged at the upper end of the supporting frame (2) side by side;

The two sliding plates (6) are positioned between the two fixed plates (5), the bottom surface of each sliding plate (6) is provided with two first sliding blocks (3) for sliding and rubbing the two sliding grooves (201), each sliding plate (6) is provided with a plurality of heat dissipation holes (601), and the end surfaces of the two sliding plates (6) close to each other are provided with clamping assemblies for clamping the electromechanical equipment body (1); two ends of each telescopic device (7) are respectively connected with each fixed plate (5) and each sliding plate (6);

the two support plates (4) are both arranged on the bottom surface of the support frame (2).

2. An anti-shock bracket according to claim 1, characterized in that each clamping assembly comprises two clamping blocks (8), a threaded rod (9), two cushioning pads (10) and two second sliding blocks (11); the sliding plate (6) is provided with a mounting groove; a driving motor is arranged in the mounting groove; one end of the threaded rod (9) is connected with a driving motor, the other end of the threaded rod (9) is rotatably arranged in the installation insert, and threads with opposite screwing directions are arranged on the threaded rod (9) along the middle part towards the two ends; the two second sliding blocks (11) are in threaded connection with the threaded rod (9), and the two second sliding blocks (11) are in sliding connection with the inner wall of the mounting groove; the two clamping blocks (8) are respectively arranged on the two second sliding blocks (11), and each clamping block (8) is L-shaped; two cushioning pads (10) are mounted on the two clamping blocks (8), respectively.

3. An anti-shock bracket according to claim 2, characterized in that each clamping block (8) is of integral construction with each second slider (11).

4. An anti-seismic bracket according to claim 1, characterized in that the support (2) is of integral construction with the two support plates (4).

5. An anti-vibration mount according to claim 1, further comprising a radiator fan; the cooling fan is arranged on one of the supporting plates (4), and the air outlet direction of the cooling fan faces to the through hole (202).

6. An electromechanical device comprising a shock-resistant support according to any one of claims 1 to 5, characterized by comprising an outer casing and a plurality of electromechanical elements; a plurality of electromechanical elements are each mounted within the outer housing; the outer shell is provided with a plurality of heat dissipation through holes; both sliding plates (6) are pressed against the outer circumference of the outer housing.

7. An electromechanical device according to claim 6, characterised in that the outer casing is provided with anti-slip layers at each of the four corners.