CN215950242U - Anti-seismic support for electromechanical equipment - Google Patents

Abstract

The utility model discloses an anti-seismic support for electromechanical equipment, which comprises a base, wherein the section of the base is concave, a vertical through hole is formed in the center of the lower surface of the bottom wall of the base, a support column a is arranged in the vertical through hole, a connecting plate is welded at the top end of the support column a, an independent spring a is sleeved on the column body of the support column a, the top end of the independent spring a is attached to the lower surface of the connecting plate, the bottom end of the independent spring a is attached to the upper surface of the bottom wall of the base, a support column b is vertically arranged in the connecting plate, an installation plate is welded at the top end of the support column b, the upper surface of the installation plate is fixedly connected with electromechanical equipment, and horizontal through holes are symmetrically formed in the upper ends of the left side wall and the right side wall of the base; the utility model can effectively buffer the vibration force in the vertical direction and the vibration force in the horizontal direction generated when the electromechanical equipment vibrates, thereby effectively preventing the vibration force from damaging the internal parts of the electromechanical equipment, being beneficial to the service life of the electromechanical equipment, effectively reducing the noise generated by the vibration of the electromechanical equipment and being beneficial to the life and study of people.

Description

Anti-seismic support for electromechanical equipment

Technical Field

The utility model relates to the field of electromechanical equipment, in particular to an anti-seismic support for electromechanical equipment.

Background

The electromechanical equipment generally refers to machinery, electrical equipment and electrical automation equipment, and in a building, the electromechanical equipment is generally called machinery and pipeline equipment except for earthwork, carpentry, reinforcing steel bars and muddy water. Different from hardware, the product can realize certain functions. The electromechanical devices can be divided into three major categories according to the application, namely industrial electromechanical devices, information electromechanical devices and civil electromechanical devices.

However, when the electromechanical equipment runs, the rotating inertia force and the disturbance force generated by eccentric unbalance can cause the equipment parts to generate forced vibration, vibration and noise are generated through the connection part of the equipment base, the pipeline and the building, so that adverse effects are brought to life and study of people, and meanwhile, the vibration of the electromechanical equipment can damage internal parts of the mechanical equipment, so that the service life of the mechanical equipment is influenced. To this end, we propose an anti-seismic support for electromechanical devices.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-seismic bracket for electromechanical equipment, which solves the problems in the background technology.

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

the utility model provides an antidetonation support for electromechanical device, the on-line screen storage device comprises a base, the base cross-section is the spill, and base diapire lower surface central point puts and is equipped with vertical through-hole, is equipped with support column a in the vertical through-hole, and support column a top welding has a connecting plate, and support column a shaft cover has independent spring an, and independent spring an top is laminated with the connecting plate lower surface mutually, and independent spring a bottom is laminated with base diapire upper surface mutually, and the inside vertical support column b that is equipped with of connecting plate, support column b top welding have a mounting panel, and fixed surface is connected with electromechanical device on the mounting panel, lateral wall upper end symmetry is equipped with horizontal through-hole about the base, and two inside all welds of horizontal through-hole have a limiting plate, and two limiting plate bodies all are equipped with spacing hole, and lateral wall symmetric welding has the gag lever about the mounting panel, and the outer end of two gag lever runs through corresponding spacing holes respectively.

As a further scheme of the utility model: each limiting rod body is sleeved with an independent spring b, the inner end of each independent spring b is attached to the side wall of the corresponding mounting plate, and the outer end of each independent spring b is attached to the side wall of the corresponding limiting plate.

As a further scheme of the utility model: the bottom end of the support column b is connected inside the connecting plate through a limiting sliding structure.

As a further scheme of the utility model: the left side wall and the right side wall of the bottom end of the support column b are symmetrically welded with limiting slide rods of limiting slide structures, and limiting slide grooves of the limiting slide structures are arranged in the connecting plate.

As a further scheme of the utility model: each limiting slide rod body is sleeved with an independent spring c, the inner end of each independent spring c is attached to the side wall of the bottom end of the corresponding supporting column b, and the outer end of each independent spring c is attached to the side wall of the corresponding limiting sliding chute.

As a further scheme of the utility model: the equal fixedly connected with universal wheel in four corners of base diapire lower surface.

As a still further scheme of the utility model: the handle is welded on the front side wall of the base.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, through the matched use of the base, the vertical through hole, the support pillar a, the connecting plate, the independent spring a, the support pillar b, the mounting plate, the electromechanical equipment, the horizontal through hole, the limiting plate, the limiting hole and the limiting rod, when the electromechanical equipment vibrates, the generated vibration force in the vertical direction can be effectively buffered by the independent spring a, so that the utility model can effectively prevent the vibration force from damaging the internal parts of the electromechanical equipment, is beneficial to the service life of the electromechanical equipment, effectively reduces the noise generated by the vibration of the electromechanical equipment and is beneficial to the life and study of people;

2. the bottom end of the supporting column b is connected inside the connecting plate through a limiting sliding structure, and the independent spring b, the limiting sliding rod, the limiting sliding chute and the independent spring c are matched for use, so that the vibration force in the horizontal direction generated by the electromechanical equipment can be effectively buffered by the independent spring b and the independent spring c when the electromechanical equipment vibrates, the vibration force in the vertical direction generated by the electromechanical equipment when the electromechanical equipment vibrates can be effectively buffered, and the vibration force in the horizontal direction generated by the electromechanical equipment when the electromechanical equipment vibrates can be effectively buffered, and the utility model has the advantages of novel structure, reasonable design, better anti-vibration effect and suitability for popularization and use;

3. the universal wheels are matched for use, so that the movable trolley can have a moving function, and is convenient and fast to use.

Drawings

Fig. 1 is a front sectional view of an anti-seismic bracket for an electromechanical device.

Fig. 2 is a front view of a structure of an anti-seismic bracket for an electromechanical device.

Fig. 3 is a structural left side view of the anti-seismic bracket for the electromechanical device.

In the figure: the device comprises a base 1, a vertical through hole 1-1, a horizontal through hole 1-2, a universal wheel 1-3, a support column 2-a, a connecting plate 3-3, a limiting chute 3-1, an independent spring 4-a, an independent support column 5-b, a limiting slide bar 5-1, a mounting plate 6-1, a limiting rod 6-1, electromechanical equipment 7, a limiting plate 8-8, a limiting hole 8-1, an independent spring b 9-10, an independent spring c and a handle 11.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1-3, an anti-seismic support for electromechanical devices comprises a base 1, wherein the cross section of the base 1 is concave, a vertical through hole 1-1 is formed in the center of the lower surface of the bottom wall of the base 1, and a support column a2 is arranged in the vertical through hole 1-1, so that the support column a2 can be limited by the vertical through hole 1-1, and the support column a2 can only move up and down and cannot tilt, a connecting plate 3 is welded at the top end of the support column a2, an independent spring a4 is sleeved on the body of the support column a2, the top end of the independent spring a4 is attached to the lower surface of the connecting plate 3, the bottom end of the independent spring a4 is attached to the upper surface of the bottom wall of the base 1, a support column b5 is vertically arranged in the connecting plate 3, a mounting plate 6 is welded at the top end of the support column b5, an electromechanical device 7 is fixedly connected to the upper surface of the mounting plate 6, and the electromechanical device 7 is driven by vertical vibration force generated by vibration of the electromechanical device 7 The supporting column b5 and the connecting plate 3 move downwards so as to drive the supporting column a2 to move downwards in the vertical through hole 1-1, when the connecting plate 3 moves downwards, the independent spring a4 can generate elastic deformation to generate an upward reaction force, so as to effectively buffer the vertical vibration force generated by the vibration of the electromechanical device 7, the upper ends of the left and right side walls of the base 1 are symmetrically provided with horizontal through holes 1-2, the limiting plates 8 are welded inside the two horizontal through holes 1-2, the plate bodies of the two limiting plates 8 are respectively provided with a limiting hole 8-1, the left and right side walls of the mounting plate 6 are symmetrically welded with a limiting rod 6-1, the outer ends of the two limiting rods 6-1 respectively penetrate through the corresponding limiting holes 8-1, so that when the electromechanical device 7 vibrates and the vertical vibration force can drive the mounting plate 6, the supporting column b5 and the connecting plate 3 to move downwards, the limiting rod 6-1 can move downwards in the limiting hole 8-1, can prevent the mounting plate 6, the supporting column b5 and the connecting plate 3 from tilting forwards and backwards when moving downwards, and ensures the stability of the mounting plate 6, the supporting column b5 and the connecting plate 3 when moving downwards by the limiting function of the vertical through hole 1-1 on the supporting column a 2;

every 6-1 pole body of gag lever post all overlaps has independent spring b9, and every independent spring b9 is inner laminates with corresponding mounting panel 6 lateral wall mutually, and every independent spring b9 outer end laminates with corresponding 8 lateral walls of limiting plate mutually, support column b5 bottom is connected inside connecting plate 3 by spacing sliding structure, lateral wall symmetric welding has spacing slide bar 5-1 of spacing sliding structure about support column b5 bottom, and connecting plate 3 is inside to be equipped with spacing spout 3-1 of spacing sliding structure, every 5-1 pole body of spacing slide bar all overlaps independent spring c10, and every independent spring c10 is inner laminates with corresponding support column b5 bottom lateral wall mutually, and every independent spring c10 outer end laminates with corresponding spacing spout 3-1 lateral wall mutually, and above-mentioned structure makes electromechanical device 7 take place the shaking power of the horizontal direction that vibrations produced can drive mounting panel 6, The supporting column b5 moves left and right, when the mounting plate 6 moves left and right, the independent spring b9 is elastically deformed to generate a reaction force, when the supporting column b5 moves left and right, the limit sliding rod 5-1 is driven to move left and right in the limit sliding groove 3-1, so that the independent spring c10 is elastically deformed to generate a reaction force, and under the reaction force generated by the independent spring b9 and the independent spring c10, the vibration force in the horizontal direction generated by vibration of the electromechanical device 7 can be effectively buffered, so that the vibration force in the vertical direction generated by the electromechanical device 7 when vibration occurs can be effectively buffered, and the vibration force in the horizontal direction generated by the electromechanical device 7 when vibration occurs can be effectively buffered, and the vibration damping device is novel in structure, reasonable in design, good in vibration resistance and suitable for popularization and use;

the four corners of the lower surface of the bottom wall of the base 1 are fixedly connected with universal wheels 1-3, so that the multifunctional mobile desk disclosed by the utility model can also have a mobile function and is convenient and fast to use, and the handle 11 is welded on the front side wall of the base 1, so that a worker can conveniently move the multifunctional mobile desk disclosed by the utility model.

The working principle of the utility model is as follows: when the electromechanical device 7 vibrates, the generated vertical vibration force can drive the mounting plate 6, the supporting column b5 and the connecting plate 3 to move downwards, so that the supporting column a2 is driven to move downwards in the vertical through hole 1-1, and when the connecting plate 3 moves downwards, the independent spring a4 can elastically deform to generate an upward reaction force, so that the vertical vibration force generated by the electromechanical device 7 vibrating is effectively buffered;

the generated vibration force in the horizontal direction drives the mounting plate 6 and the supporting column b5 to move left and right, when the mounting plate 6 moves left and right, the independent spring b9 generates elastic deformation to generate counterforce, when the supporting column b5 moves left and right, the limiting slide bar 5-1 is driven to move left and right in the limiting slide groove 3-1, so that the independent spring c10 generates elastic deformation and generates reaction force, therefore, under the reaction force generated by the independent spring b9 and the independent spring c10, the vibration force in the horizontal direction generated by the vibration of the electromechanical device 7 can be effectively generated, therefore, the vibration damping device can effectively buffer the vibration force in the vertical direction generated by the electromechanical device 7 when the electromechanical device 7 vibrates, and can also effectively buffer the vibration force in the horizontal direction generated by the electromechanical device 7 when the electromechanical device 7 vibrates, and the vibration damping device has the advantages of novel structure, reasonable design, better vibration damping effect and suitability for popularization and use.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (7)

1. An anti-seismic support for electromechanical equipment comprises a base (1) and is characterized in that the cross section of the base (1) is concave, a vertical through hole (1-1) is formed in the center of the lower surface of the bottom wall of the base (1), a support column a (2) is arranged in the vertical through hole (1-1), a connecting plate (3) is welded at the top end of the support column a (2), an independent spring a (4) is sleeved on the column body of the support column a (2), the top end of the independent spring a (4) is attached to the lower surface of the connecting plate (3), the bottom end of the independent spring a (4) is attached to the upper surface of the bottom wall of the base (1), a support column b (5) is vertically arranged inside the connecting plate (3), a mounting plate (6) is welded at the top end of the support column b (5), electromechanical equipment (7) is fixedly connected to the upper surface of the mounting plate (6), horizontal through holes (1-2) are symmetrically formed in the upper ends of the left side wall and the right side wall of the base (1), limiting plates (8) are welded inside the two horizontal through holes (1-2), limiting holes (8-1) are formed in the plate bodies of the two limiting plates (8), limiting rods (6-1) are symmetrically welded on the left side wall and the right side wall of the mounting plate (6), and the outer ends of the two limiting rods (6-1) penetrate through the corresponding limiting holes (8-1) respectively.

2. The anti-seismic support for the electromechanical device according to claim 1, wherein each of the limiting rods (6-1) is sleeved with an independent spring b (9), the inner end of each independent spring b (9) is attached to the corresponding side wall of the mounting plate (6), and the outer end of each independent spring b (9) is attached to the corresponding side wall of the limiting plate (8).

3. An anti-seismic support for electromechanical devices according to claim 1, characterized in that the bottom ends of said supporting columns b (5) are connected inside the connection plate (3) by a limiting sliding structure.

4. An anti-seismic support for electromechanical equipment according to claim 3, characterized in that limiting slide bars (5-1) of limiting slide structures are symmetrically welded to the left and right side walls of the bottom end of the supporting column b (5), and limiting sliding grooves (3-1) of the limiting slide structures are arranged inside the connecting plate (3).

5. The anti-seismic support for the electromechanical device according to claim 4, wherein each limiting slide bar (5-1) is sleeved with an independent spring c (10), the inner end of each independent spring c (10) is attached to the side wall of the bottom end of the corresponding supporting column b (5), and the outer end of each independent spring c (10) is attached to the side wall of the corresponding limiting chute (3-1).

6. An anti-seismic support for electromechanical devices according to claim 1, characterized in that universal wheels (1-3) are fixedly connected to four corners of the lower surface of the bottom wall of the base (1).

7. Anti-seismic support for electromechanical devices according to claim 6, characterized in that said base (1) has a handle (11) welded to its front side wall.

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