CN213541698U - Switch board shock-resistant structure - Google Patents

Abstract

The utility model discloses a switch board shock-resistant structure, including supporting base, cushion socket and shock attenuation post, the cushion socket is located support the base top, and be provided with a plurality of shock attenuation posts between the two, all install on the wall of both sides around the cushion socket with support the antitorque arm-tie that the base is connected, just the upper end of antitorque arm-tie through the round pin axle with the cushion socket rotates the connection, the lower extreme of antitorque arm-tie is provided with the spout of rectangular shape, the fixed columniform guiding axle that is provided with on the support base, just the guiding axle stretches into in the spout. Has the advantages that: the shock in the vertical direction of the ground can be absorbed through the shock absorption column, the shock absorption seat is prevented from horizontally twisting through the anti-torsion pulling plate, and the shock absorption seat is prevented from inclining through the anti-inclination ejector rod, so that the installation stability of the control cabinet is ensured; the four sides of the control cabinet are tightly fixed through the horizontal jacking component.

Description

Switch board shock-resistant structure

Technical Field

The utility model relates to a switch board installation field, concretely relates to switch board shock-resistant structure.

Background

The control cabinet is an indispensable part for normal operation of the electromechanical equipment, and all parts of the mechanical equipment are controlled to orderly act through the control cabinet, so that ordered production is realized.

The applicant finds that at least the following technical problems exist in the prior art: the switch board is when using, and direct placing is usually subaerial, and when the switch board was in the great environment of vibration amplitude for a long time during operation, the vibrations that come from all directions will lead to the fact the influence to the inside components and parts sensitivity of switch board, still can cause the connecting wire to drop simultaneously to make the unable normal operating of equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a switch board shock-resistant structure just in order to solve above-mentioned problem to the vibrations of ground cause technical problem such as influence to the normal work of switch board easily among the solution prior art. The utility model provides an among a great deal of technical scheme preferred technical scheme have: the control cabinet can be supported, and the vibration from all directions on the ground can be absorbed, so that the technical effects of normal operation and the like of the control cabinet are ensured, and the details are explained below.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a control cabinet anti-seismic structure, including supporting base, cushion socket and shock absorber post, the cushion socket is located above the supporting base, and is provided with a plurality of shock absorber posts between the two, all install on the wall of both sides around the cushion socket with the antitorque arm-tie that the supporting base is connected, and the upper end of antitorque arm-tie through the round pin axle with the cushion socket rotates to be connected, the lower extreme of antitorque arm-tie is provided with rectangular shape's spout, the fixed cylindrical guiding axle that is provided with on the supporting base, and the guiding axle stretches into in the spout;

the left side wall and the right side wall of the shock absorption seat are respectively provided with an anti-inclination ejector rod connected with the support base, and the upper end and the lower end of the anti-inclination ejector rod are respectively hinged with the shock absorption seat and the support base through hinge seats;

the upper surface of cushion socket is provided with and is used for carrying out the tight subassembly in level top of horizontal spacing to the switch board.

By adopting the anti-seismic structure of the control cabinet, the supporting base is fixedly arranged on the ground through the expansion bolt, the control cabinet is placed on the shock absorption seat, the periphery of the control cabinet is limited by the horizontal jacking component, the top plate of the horizontal jacking component can be fixed on the side wall of the control cabinet by bolts, thereby improving the stability of the connection between the control cabinet and the shock absorption seat, when the ground vibrates in the vertical direction, the shock absorption column can absorb the vibration in the direction, thereby avoiding influencing the control cabinet, effectively preventing the shock absorption seat from horizontally sliding when the ground is in a horizontal position, meanwhile, the anti-inclination ejector rods on the two sides can also greatly improve the stability of the shock absorption seat, and the shock absorption seat is prevented from inclining, so that the installation stability of the control cabinet above the shock absorption seat is guaranteed to be fixed.

Preferably, a dome is arranged in the middle of the bottom of the supporting base.

Preferably, the shock absorption column comprises a limiting sleeve and a shock absorption spring, the limiting sleeve is cylindrical, the bottom of the limiting sleeve is welded on the support base, the lower end of the shock absorption spring is inserted into the limiting sleeve, and the upper end of the shock absorption spring abuts against the bottom surface of the shock absorption seat.

Preferably, the shock-absorbing seat and the support base have the same width.

Preferably, the number of the anti-torsion pulling plates is four, and the two anti-torsion pulling plates positioned on the same side of the shock absorption seat are arranged in an inverted splayed shape.

Preferably, the anti-inclination ejector rods are dampers, and the anti-inclination ejector rods positioned on two sides of the shock absorption seat are arranged in a splayed manner.

Preferably, the horizontal jacking components are at least provided with four groups and are respectively positioned on two sides of the shock absorption seat in the length direction and two sides of the shock absorption seat in the width direction; the horizontal jacking component comprises a fixed plate, a sliding rod and a top plate, the fixed plate is vertically welded on the shock absorption seat, the sliding rod is perpendicular to the fixed plate and is in sliding connection with the fixed plate, the top plate is fixedly installed at the end part of the sliding rod, the top plate is located above the shock absorption seat, a jacking spring is sleeved on the sliding rod and is located between the fixed plate and the top plate, an adjusting nut is installed on the sliding rod through threads, and the adjusting nut is located at one side of the top plate, which is far away from the fixed plate.

Has the advantages that: 1. the utility model can absorb the vibration in the vertical direction of the ground through the shock absorption column, prevent the shock absorption seat from horizontally twisting through the anti-torsion pulling plate, and prevent the shock absorption seat from inclining through the anti-inclination ejector rod, thereby ensuring the stability of the installation of the control cabinet;

2. the four sides of the control cabinet are tightly fixed through the horizontal jacking component.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of the present invention;

fig. 2 is a right side view of the present invention;

fig. 3 is an enlarged view of the structure of the horizontal tightening component of the present invention.

The reference numerals are explained below:

1. a support base; 101. a guide shaft; 2. anti-torsion pulling plates; 201. a chute; 3. a horizontal jacking assembly; 301. a top plate; 302. the spring is tightly propped; 303. a fixing plate; 304. adjusting the nut; 305. a slide bar; 4. a shock absorbing seat; 5. a shock-absorbing post; 501. a limiting sleeve; 502. a damping spring; 6. anti-tilt ejector pin.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the utility model provides a control cabinet anti-seismic structure, including supporting base 1, cushion socket 4 and shock absorber post 5, cushion socket 4 is located above supporting base 1, and is provided with a plurality of shock absorber posts 5 between the two, all install the antitorque arm-tie 2 that is connected with supporting base 1 on the wall of both sides around cushion socket 4, and the upper end of antitorque arm-tie 2 through round pin axle with cushion socket 4 rotation connection, the lower extreme of antitorque arm-tie 2 is provided with rectangular spout 201, the fixed cylindrical guiding axle 101 that is provided with on supporting base 1, and guiding axle 101 stretches into in the spout 201;

the left side wall and the right side wall of the shock absorption seat 4 are respectively provided with an anti-inclination ejector rod 6 connected with the support base 1, and the upper end and the lower end of the anti-inclination ejector rod 6 are respectively hinged with the shock absorption seat 4 and the support base 1 through hinge seats;

the upper surface of cushion socket 4 is provided with and is used for carrying out the tight subassembly 3 in level top of horizontal spacing to the switch board.

Preferably, the supporting base 1 is provided with a dome in the middle of the bottom, so that the supporting strength and stability of the supporting base 1 are improved.

Shock attenuation post 5 includes stop collar 501 and damping spring 502, stop collar 501 is the cylinder, and the bottom welding support on the base 1, damping spring 502 lower extreme is pegged graft in the stop collar 501, the upper end top on the bottom surface of cushion socket 4, so set up, be convenient for lead spacing damping spring 502 through stop collar 501, make damping spring 502 keep vertical state to absorb the vertical vibrations on ground through damping spring 502.

The width of the shock absorption seat 4 is equal to that of the support base 1, so that the installation of the anti-torsion pulling plate 2 is facilitated, and the sliding fit between the anti-torsion pulling plate 2 and the guide shaft 101 is ensured.

The anti-torsion pulling plates 2 are four in number and located on the same side of the shock absorption seat 4, the anti-torsion pulling plates 2 are arranged in an inverted splayed mode, and the anti-torsion pulling plates 2 are arranged so that the shock absorption seat 4 is limited to slide left and right through the two anti-torsion pulling plates 2.

Anti ejector pin 6 that inclines is the attenuator, and is located 4 both sides of cushion socket anti ejector pin 6 that inclines is the splayed setting, so sets up, is convenient for support cushion socket 4 through anti ejector pin 6 that inclines, and the wave vibrations on ground can be absorbed to the anti ejector pin 6 that inclines that the splayed set up simultaneously to improve cushion socket 4's stability.

The horizontal jacking components 3 are at least provided with four groups and are respectively positioned on two sides of the shock absorption seat 4 in the length direction and two sides of the shock absorption seat in the width direction; the horizontal tightening assembly 3 comprises a fixed plate 303, a sliding rod 305 and a top plate 301, the fixed plate 303 is vertically welded on the shock absorption seat 4, the sliding rod 305 is perpendicular to the fixed plate 303 and is slidably connected with the fixed plate 303, the top plate 301 is fixedly installed at the end of the sliding rod 305, the top plate 301 is located above the shock absorption seat 4, a tightening spring 302 is sleeved on the sliding rod 305, the tightening spring 302 is located between the fixed plate 303 and the top plate 301, an adjusting nut 304 is installed on the sliding rod 305 through threads, and the adjusting nut 304 is located at one side of the fixed plate 303 far away from the top plate 301, so that when the control cabinet is installed, the sliding rod 305 is pulled outwards, the top plate 301 compresses the tightening spring 302, the control cabinet is conveniently placed on the shock absorption seat 4, and after the control cabinet is placed, the sliding rod 305 is loosened, so that the top plate 301 is pressed on the side wall of the control cabinet by the elastic force of the jacking spring 302, the control cabinet is limited, and the stability of the control cabinet placed on the shock absorption seat 4 is improved.

By adopting the structure, the supporting base 1 is fixedly arranged on the ground through expansion bolts, the control cabinet is placed on the shock absorption seat 4, the periphery of the control cabinet is limited through the horizontal jacking component 3, the top plate 301 of the horizontal tightening assembly 3 can be fixed on the side wall of the control cabinet through bolts, thereby improving the stability of the connection between the control cabinet and the shock-absorbing seat 4, when the ground vibrates in the vertical direction, the shock-absorbing column 5 can absorb the vibration in the direction, thereby avoiding influencing the control cabinet, when the ground is positioned in the horizontal direction, the torsion-resistant pulling plate 2 can effectively prevent the shock-absorbing seat 4 from horizontally sliding, meanwhile, the anti-inclination ejector rods 6 on the two sides can also greatly improve the stability of the shock absorption seat 4, and the shock absorption seat 4 is prevented from inclining, so that the installation stability of the control cabinet above the shock absorption seat 4 is guaranteed to be fixed.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. The utility model provides a switch board shock-resistant structure which characterized in that: the damping device comprises a supporting base (1), a damping seat (4) and damping columns (5), wherein the damping seat (4) is positioned above the supporting base (1), a plurality of damping columns (5) are arranged between the damping seat (1) and the damping seat (4), anti-torsion pull plates (2) connected with the supporting base (1) are arranged on the front side wall and the rear side wall of the damping seat (4), the upper ends of the anti-torsion pull plates (2) are rotatably connected with the damping seat (4) through pin shafts, strip-shaped sliding grooves (201) are formed in the lower ends of the anti-torsion pull plates (2), cylindrical guide shafts (101) are fixedly arranged on the supporting base (1), and the guide shafts (101) extend into the sliding grooves (201); anti-inclination ejector rods (6) connected with the supporting base (1) are mounted on the left side wall and the right side wall of the shock absorption seat (4), and the upper end and the lower end of each anti-inclination ejector rod (6) are hinged with the shock absorption seat (4) and the supporting base (1) through hinge seats respectively; the upper surface of the shock absorption seat (4) is provided with a horizontal jacking assembly (3) for horizontally limiting the control cabinet;

the middle of the bottom of the supporting base (1) is provided with a vault; the number of the anti-torsion pulling plates (2) is four, and the two anti-torsion pulling plates (2) which are positioned on the same side of the shock absorption seat (4) are arranged in an inverted splayed shape.

2. The anti-seismic structure of the control cabinet according to claim 1, wherein: the shock absorption column (5) comprises a limiting sleeve (501) and a shock absorption spring (502), the limiting sleeve (501) is cylindrical, the bottom of the limiting sleeve is welded on the support base (1), the lower end of the shock absorption spring (502) is inserted into the limiting sleeve (501), and the upper end of the shock absorption spring abuts against the bottom surface of the shock absorption seat (4).

3. The anti-seismic structure of the control cabinet according to claim 2, wherein: the width of the shock absorption seat (4) is equal to that of the support base (1).

4. The anti-seismic structure of the control cabinet according to claim 1, wherein: the anti-inclination ejector rods (6) are dampers, and the anti-inclination ejector rods (6) located on two sides of the shock absorption seat (4) are arranged in a splayed mode.

5. The anti-seismic structure of the control cabinet according to claim 4, wherein: the horizontal jacking components (3) are at least provided with four groups and are respectively positioned on two sides of the shock absorption seat (4) in the length direction and two sides of the shock absorption seat in the width direction; tight subassembly (3) in horizontal top includes fixed plate (303), slide bar (305) and roof (301), the vertical welding of fixed plate (303) is in on cushion socket (4), slide bar (305) perpendicular to fixed plate (303), and with fixed plate (303) sliding connection, roof (301) fixed mounting be in the tip of slide bar (305), just roof (301) are located cushion socket (4) top, tight spring (302) in the top has been cup jointed on slide bar (305), just tight spring (302) in the top is located fixed plate (303) with between roof (301), install adjusting nut (304) through the screw thread on slide bar (305), just adjusting nut (304) are located fixed plate (303) is kept away from one side of roof (301).

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