CN214404486U - Shock isolation device for side part of fixing equipment - Google Patents

Abstract

The utility model relates to a shock isolation device for fixed equipment lateral part, including first support, second support, first wire rope shock isolator and second wire rope shock isolator all set up by fixed equipment side upper portion, first wire rope shock isolator is located second wire rope shock isolator top, first wire rope shock isolator links firmly with the outside through first support, second wire rope shock isolator passes through the second support and links firmly with the outside. The utility model has the advantages of simple and reasonable structure, simple to operate, the cost of manufacture is low, and is few to the weight gain of equipment during the use, can be applicable to the shock insulation of the less equipment of large screen and front and back thickness according to the position relation about two wire rope shock insulators of the thickness adjustment of equipment.

Description

Shock isolation device for side part of fixing equipment

Technical Field

The utility model relates to an equipment shock insulation technique specifically is a shock isolation device for fixed equipment lateral part.

Background

There are many important equipments in the command engineering, such as the combined large screen of the information system, the master control console, the wired and wireless communication equipments, the control console of the automation system, the distribution switch cabinet of the power system, the standby generator set, and the air conditioning unit of the ventilation system, and these important equipments play a crucial role in the control and management of the engineering, the life safety of the personnel in the engineering, the information collection of the battlefield during the battle, the smoothness of the battle command system, etc., and should take necessary shock insulation measures.

At present, the shock insulation measures of important equipment in engineering are very limited, and even if some equipment adopts the shock insulation measures, the shock insulation measures also aim at the periodic mechanical vibration of the equipment in the operation process. For example: the combined rubber shock isolators are used for shock isolation on the base of the generator set, the steel spring shock isolators are used for shock isolation on the base of the air conditioning unit, canvas soft joints are used for shock isolation between the air conditioning unit and the ventilating duct, and the like. Except for the fact that other important equipment uses more shock insulation floors in the engineering, no data report of taking relevant shock insulation measures is found. The shock insulation floor is only a single-layer plane shock insulation measure and is suitable for shock insulation of equipment with a certain area and relatively low gravity center. For equipment which has a relatively high center of gravity and is easy to destabilize and overturn when being vibrated, such as a combined large screen, a three-dimensional combined shock insulation measure from the vertical direction and the left and right lateral directions must be adopted.

The prior art is relatively perfect about the shock insulation measures of the vertical direction of the equipment, but the prior art is applied to the shock insulation measures of the left side and the right side of the equipment, and no relevant published technical data is found.

Therefore, it is necessary to design and develop a seismic isolation apparatus having a lateral seismic isolation function.

Disclosure of Invention

To the problem in the background art, the utility model aims at providing a shock isolation device for side direction shock insulation for install at the equipment lateral part, when playing the fixed action to equipment, can weaken or even eliminate the influence of vibrations to equipment when taking place vibrations, the utility model relates to a rational in infrastructure has comparatively ideal shock insulation effect, can be applied to the equipment that needs carry out the lateral part and fix and require the shock insulation.

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

a shock isolation device for the side part of a fixed device comprises a first support, a second support, a first steel wire rope shock isolator and a second steel wire rope shock isolator, wherein the first steel wire rope shock isolator and the second steel wire rope shock isolator are both arranged on the upper part of the side surface of the fixed device;

the first steel wire rope shock isolator is composed of a mounting plate A, a fixing plate A and a steel wire rope A, the fixing plate A is integrally of a rectangular plate-shaped structure, the axis of the fixing plate A in the width direction is vertical to the horizontal plane, the axis of the fixing plate A in the length direction is parallel to the horizontal plane, the right end of the fixing plate A in the length direction is fixedly connected with the side face of the fixed equipment, the included angle between the axis of the fixing plate A in the length direction and the side face of the fixed equipment is theta, and theta is more than or equal to 15 degrees and less than or equal to 45 degrees; the mounting plate A is parallel to the fixing plate A, the steel wire rope A is wound between the mounting plate A and the fixing plate A along the length direction of the fixing plate A, and the mounting plate A is fixedly connected with the first support;

the second steel wire rope shock isolator is composed of a mounting plate B, a fixing plate B and a steel wire rope B, the fixing plate B is integrally of a rectangular plate-shaped structure, the axis of the fixing plate B in the width direction is vertical to the horizontal plane, the axis of the fixing plate B in the length direction is parallel to the horizontal plane, the left end of the fixing plate B in the length direction is fixedly connected with the side face of the fixed equipment, the included angle between the axis of the fixing plate B in the length direction and the side face of the fixed equipment is beta, and beta is theta; the mounting plate B is parallel to the fixing plate B, the steel wire rope B is wound between the mounting plate B and the fixing plate B along the length direction of the fixing plate B, and the mounting plate B is fixedly connected with the second support.

The first support comprises a bottom plate A and a side plate A, the bottom plate A is used for being fixedly connected with the outside of the fixed equipment, the side plate A is arranged at the right end of the bottom plate A, the right end of the mounting plate A is fixedly connected with the side plate A, and the left end of the mounting plate A is fixedly connected with the left end of the bottom plate A.

The second support comprises a bottom plate B and a side plate B, the bottom plate B is used for being fixedly connected with the outside of the fixed equipment, the side plate B is arranged at the left end of the bottom plate B, the left end of the mounting plate B is fixedly connected with the side plate B, and the right end of the mounting plate B is fixedly connected with the right end of the bottom plate B.

The fixed plate A is fixedly connected with the fixed equipment through a connecting plate A, and the connecting plate A is arranged at the right end of the fixed plate A in the length direction.

The fixed plate B is fixedly connected with the fixed equipment through a connecting plate B, and the connecting plate B is arranged at the left end of the fixed plate B in the length direction.

The included angle theta is 30 degrees.

The principle of the utility model is as follows: the lateral shock insulation device should consider the left and right tipping moment and the front and back tipping moment of the equipment, therefore, the shock insulators arranged laterally adopt a transverse double-row and oblique crossing mode, at the moment, most of the axial rigidity of the shock insulators resists the left and right tipping moment of the combined large screen, and the small part resists the front and back tipping moment of the combined large screen.

The utility model has the advantages that: the utility model has the advantages of simple and reasonable structure, simple to operate, the cost of manufacture is low, and is few to the weight gain of equipment during the use, can be applicable to the shock insulation of the less equipment of large screen and front and back thickness according to the position relation about two wire rope shock insulators of the thickness adjustment of equipment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of a positional relationship between two wire rope isolators in embodiment 1.

Fig. 3 is a schematic view of a positional relationship between two wire rope isolators in embodiment 2.

Fig. 4 is a schematic view of a positional relationship between two wire rope isolators in embodiment 3.

In the figure, 1, a first support, 11, bottom plates A, 12 and side plates A; 2. a second support 21, a bottom plate B, 22 and a side plate B; 3. the shock absorber comprises a first steel wire rope shock absorber 31, mounting plates A and 32, fixing plates A and 33, steel wire ropes A and 34 and a connecting plate A; 4. a second wire rope vibration isolator 41, mounting plates B and 42, fixing plates B and 43, wire ropes B and 44 and a connecting plate B; 5. the device to be secured.

Detailed Description

The technical solution of the present invention will be further fully and clearly described below with reference to the drawings and the specific embodiments. It should be noted that a specific embodiment represents only a specific technical solution of the present invention, and does not represent all technical solutions claimed by the present invention.

Example 1

As shown in fig. 1 and 2, a shock isolation device for fixing a side part of equipment comprises a first support 1, a second support 2, a first steel wire rope shock isolator 3 and a second steel wire rope shock isolator 4, wherein the first steel wire rope shock isolator 3 and the second steel wire rope shock isolator 4 are both arranged on the upper part of the side surface of the equipment to be fixed 5; the first steel wire rope shock isolator 3 is fixedly connected with the outside through a first support, and the second steel wire rope shock isolator 4 is fixedly connected with the outside through a second support 2;

the first wire rope shock isolator 3 is composed of a mounting plate A31, a fixing plate A32 and a wire rope A33, the fixing plate A32 is integrally of a rectangular plate-shaped structure, the axis of the fixing plate A32 in the width direction is vertical to the horizontal plane, the axis of the fixing plate A32 in the length direction is parallel to the horizontal plane, the right end of the fixing plate A32 in the length direction is fixedly connected with the side face of the fixed equipment 5, the included angle between the axis of the fixing plate A in the length direction and the side face of the fixed equipment 5 is theta, and theta is more than or equal to 15 degrees and less than or equal to 45 degrees; the mounting plate A31 is parallel to the fixing plate A32, the steel wire rope A33 is wound between the mounting plate A31 and the fixing plate A32, and the mounting plate A31 is fixedly connected with the first support 1;

the second wire rope shock isolator 4 is composed of a mounting plate B41, a fixing plate B42 and a wire rope B43, the fixing plate B42 is integrally of a rectangular plate-shaped structure, the axis of the fixing plate B42 in the width direction is vertical to the horizontal plane, the axis of the fixing plate B42 in the length direction is parallel to the horizontal plane, the left end of the fixing plate B42 in the length direction is fixedly connected with the side face of the fixed equipment 5, the included angle between the axis of the fixing plate B in the length direction and the side face of the fixed equipment 5 is beta, and the beta is equal to theta; the mounting plate B41 be on a parallel with fixed plate B42, wire rope B43 wind establish between mounting plate B41 and fixed plate B42, mounting plate B41 and second support 2 link firmly.

First support 1 include bottom plate A11 and curb plate A12, bottom plate A11 be used for with by the 5 outside links firmly of fixed equipment, curb plate A12 sets up at bottom plate A11 right-hand member, mounting panel A31 right-hand member link firmly with curb plate A12, the left end links firmly with bottom plate A11 left end.

The second support 2 include bottom plate B21 and curb plate B22, bottom plate B21 be used for with by the 5 outside links firmly of fixed equipment, curb plate B22 sets up at bottom plate B21 left end, mounting panel B41 left end and curb plate B22 link firmly, the right-hand member links firmly with bottom plate B21 right end.

The fixing plate A32 is fixedly connected with the fixed equipment 5 through a connecting plate A34, and the connecting plate A34 is arranged at the right end of the fixing plate A32 in the length direction.

The fixing plate B42 is fixedly connected with the fixed equipment 5 through a connecting plate B44, and the connecting plate B44 is arranged at the left end of the fixing plate B42 in the length direction.

The included angle theta is 30 degrees.

Example 2

This embodiment is largely the same as embodiment 1 except for the positional relationship of the first wire rope shock isolator 3 and the second wire rope shock isolator 4, and therefore, only this part will be described.

In this embodiment, since the thickness of the apparatus is small, the first wire rope shock absorber 3 is disposed above the right side of the second wire rope shock absorber 4, as shown in fig. 3, and after the installation, in the vertical direction, the projection of the first wire rope shock absorber 3 and the projection of the second wire rope shock absorber 4 partially interfere with each other structurally.

Example 3

This embodiment is largely the same as embodiment 1, and is different in the positional relationship of the first wire rope shock isolator 3 and the second wire rope shock isolator 4, and therefore, only this part will be described.

In this embodiment, since the thickness of the apparatus is smaller, the first wire rope shock absorber 3 is disposed directly above the second wire rope shock absorber 4, and after installation, as shown in fig. 4, in the vertical direction, the projection of the first wire rope shock absorber 3 and the projection of the second wire rope shock absorber 4 completely interfere in structure.

The part of the utility model not detailed is prior art.

Claims (6)

1. The utility model provides a seismic isolation device for fixed equipment lateral part, includes first support (1), second support (2), first wire rope shock absorber (3) and second wire rope shock absorber (4), characterized by: the first steel wire rope shock isolator (3) and the second steel wire rope shock isolator (4) are arranged on the upper portion of the side face of the fixed equipment (5), the first steel wire rope shock isolator (3) is located above the second steel wire rope shock isolator (4), the first steel wire rope shock isolator (3) is fixedly connected with the outside through a first support (1), and the second steel wire rope shock isolator (4) is fixedly connected with the outside through a second support (2);

the first steel wire rope shock isolator (3) is composed of a mounting plate A (31), a fixing plate A (32) and a steel wire rope A (33), the fixing plate A (32) is integrally of a rectangular plate-shaped structure, the axis of the fixing plate A in the width direction is vertical to the horizontal plane, the axis of the fixing plate A in the length direction is parallel to the horizontal plane, the right end of the fixing plate A in the length direction is fixedly connected with the side face of the fixed equipment (5), the included angle between the axis of the fixing plate A in the length direction and the side face of the fixed equipment (5) is theta, and theta is more than or equal to 15 degrees and less than or equal to 45 degrees; the mounting plate A (31) is parallel to the fixing plate A (32), the steel wire rope A (33) is wound between the mounting plate A (31) and the fixing plate A (32), and the mounting plate A (31) is fixedly connected with the first support (1);

the second steel wire rope shock isolator (4) is composed of a mounting plate B (41), a fixing plate B (42) and a steel wire rope B (43), the fixing plate B (42) is integrally of a rectangular plate-shaped structure, the axis of the fixing plate B in the width direction is vertical to the horizontal plane, the axis of the fixing plate B in the length direction is parallel to the horizontal plane, the left end of the fixing plate B in the length direction is fixedly connected with the side face of the fixed equipment (5), the included angle between the axis of the fixing plate B in the length direction and the side face of the fixed equipment (5) is beta, and the beta is theta; mounting panel B (41) be on a parallel with fixed plate B (42), wire rope B (43) around establishing between mounting panel B (41) and fixed plate B (42), mounting panel B (41) link firmly with second support (2).

2. A seismic isolation apparatus for a side of a fixture according to claim 1, wherein: first support (1) include bottom plate A (11) and curb plate A (12), bottom plate A (11) be used for with by fixed equipment (5) outside link firmly, curb plate A (12) set up at bottom plate A (11) right-hand member, mounting panel A (31) right-hand member link firmly with curb plate A (12), the left end links firmly with bottom plate A (11) left end.

3. A seismic isolation apparatus for a side of a fixture according to claim 1, wherein: second support (2) include bottom plate B (21) and curb plate B (22), bottom plate B (21) be used for with by fixed equipment (5) outside link firmly, curb plate B (22) set up at bottom plate B (21) left end, mounting panel B (41) left end link firmly with curb plate B (22), the right-hand member links firmly with bottom plate B (21) right-hand member.

4. A seismic isolation apparatus for a side of a fixture according to claim 1, wherein: the fixed plate A (32) is fixedly connected with the fixed equipment (5) through a connecting plate A (34), and the connecting plate A (34) is arranged at the right end of the fixed plate A (32) in the length direction.

5. A seismic isolation apparatus for a side of a fixture according to claim 1, wherein: the fixed plate B (42) is fixedly connected with the fixed equipment (5) through a connecting plate B (44), and the connecting plate B (44) is arranged at the left end of the fixed plate B (42) in the length direction.

6. A seismic isolation apparatus for a side of a fixture according to claim 1, wherein: the included angle theta is 30 degrees.

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