CN210562269U - Power equipment damping structure for basement heat exchange station - Google Patents

Abstract

The utility model discloses a power equipment shock-absorbing structure for basement heat exchange station, shock-absorbing structure comprises shock-absorbing foundation, air cushion type shock absorber, foundation base triplex, foundation base is by concrete placement, and the interior is joined in marriage crack control double-deck two-way reinforcing bar net, and foundation base and heat exchange station ground structure layer are connected through chemical bar planting, and foundation base exceeds heat exchange station ground surface layer 100 mm; the damping foundation is an outer frame consisting of channel steel and steel plates, a double-layer bidirectional reinforcing mesh is arranged in the damping foundation, and concrete is poured in the damping foundation; the shock absorption foundation is connected with the base through the air cushion type shock absorber, and a 40mm gap is reserved between the shock absorption foundation and the base. Compared with the prior art, the utility model the advantage lie in: the vibration of the power equipment to the original building structure is effectively reduced; the foundation base is higher than the ground of the heat exchange station, so that the influence of accumulated water on the ground on corrosion of metal components such as the shock absorber can be prevented.

Description

Power equipment damping structure for basement heat exchange station

Technical Field

The utility model relates to a power equipment shock-absorbing structure for basement heat transfer station.

Background

Vibration generated when power equipment in the heat exchange station operates, and vibration of pipelines and equipment connected with the vibration are one of main reasons for generating noise. Especially, the vibration of the underground heat exchange station in a high-rise building can be transmitted to the building through the ground of the heat exchange station, a pipeline connected with equipment, a supporting and hanging bracket and the like, and influences the building structure of the building and the inhabitant.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome above technical defect, provide a power equipment shock-absorbing structure for basement heat transfer station.

In order to solve the technical problem, the utility model provides a technical scheme does: a power equipment damping structure for a basement heat exchange station is composed of a damping foundation, an air cushion type shock absorber and a foundation base, wherein the foundation base is poured by concrete and internally provided with an anti-cracking double-layer bidirectional reinforcing mesh, the foundation base is connected with a ground structure layer of the heat exchange station through chemical steel planting, and the height of the foundation base is 100mm higher than that of the ground structure layer of the heat exchange station; the damping foundation is an outer frame consisting of channel steel and steel plates, a double-layer bidirectional reinforcing mesh is arranged in the damping foundation, and concrete is poured in the damping foundation; the shock absorption foundation is connected with the base through the air cushion type shock absorber, and a 40mm gap is reserved between the shock absorption foundation and the base.

As an improvement, the counterweight of the damping structure is not less than 1.5 times of the basis weight of the power equipment.

As an improvement, the air cushion type shock absorber comprises four air cushion type shock absorbers which are respectively arranged at four corners of a shock absorption foundation.

Compared with the prior art, the utility model the advantage lie in: the vibration of the power equipment to the original building structure is effectively reduced; the foundation base is higher than the ground of the heat exchange station, so that the influence of accumulated water on the ground on corrosion of metal components such as the shock absorber can be prevented.

Drawings

Fig. 1 is the utility model discloses a power equipment shock-absorbing structure's for basement heat transfer station structural schematic.

Fig. 2 is an elevation view of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

As shown in the figure: 1. the shock absorption foundation comprises a shock absorption foundation body 2, a foundation base 3, an air cushion type shock absorber 4, a chemical embedded steel bar 5, a channel steel 6, a steel plate 7, a double-layer two-way reinforcing steel bar net II and a double-layer two-way reinforcing steel bar net I8.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

With the combination of the attached drawings, the power equipment damping structure for the basement heat exchange station is composed of a damping foundation 1, an air cushion type shock absorber 3 and a foundation base 2, wherein the foundation base 2 is formed by pouring concrete and internally provided with an anti-cracking double-layer bidirectional reinforcing mesh I8, the foundation base 2 is connected with a ground structure layer of the heat exchange station through a chemical planting bar 4, and the foundation base 2 is 100mm higher than the ground surface layer of the heat exchange station so as to prevent the corrosion influence of ground accumulated water on metal components such as the shock absorber and the like; the damping foundation 1 is an outer frame consisting of channel steel 5 and steel plates 6, a two-layer bidirectional reinforcing mesh 7 is arranged in the damping foundation, and concrete is poured in the damping foundation; the damping base 1 and the base 2 are connected through an air cushion type shock absorber 3, a 40mm gap is reserved between the damping base 1 and the base 2, and the balance weight of the damping structure is not less than 1.5 times of the weight of the power equipment base; the model and the quantity of the air cushion type shock absorbers 3 are selected according to the weight calculation of different power equipment, and four air cushion type shock absorbers 3 are selected for general equipment foundations according to the principles of stress safety and convenient arrangement and are respectively arranged at four corners of the shock absorption foundation 1.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (3)

1. The utility model provides a power equipment shock-absorbing structure for basement heat exchange station which characterized in that: the shock absorption structure consists of a shock absorption foundation, an air cushion type shock absorber and a foundation base, wherein the foundation base is formed by pouring concrete and internally provided with an anti-cracking double-layer bidirectional reinforcing mesh, the foundation base is connected with a ground structure layer of the heat exchange station through chemical steel bars, and the foundation base is 100mm higher than the ground surface layer of the heat exchange station; the damping foundation is an outer frame consisting of channel steel and steel plates, a double-layer bidirectional reinforcing mesh is arranged in the damping foundation, and concrete is poured in the damping foundation; the shock absorption foundation is connected with the base through the air cushion type shock absorber, and a 40mm gap is reserved between the shock absorption foundation and the base.

2. The power equipment damping structure for the basement heat exchange station according to claim 1, wherein: the counterweight of the damping structure is not less than 1.5 times of the basic weight of the power equipment.

3. The power equipment damping structure for the basement heat exchange station according to claim 1, wherein: the air cushion type shock absorbers comprise four air cushion type shock absorbers which are respectively arranged at four corners of the shock absorption foundation.

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