CN105863317A - Energy-saving environmentally-friendly type distribution room based on quick construction technique - Google Patents

Abstract

The invention discloses an energy-saving and environment-friendly power distribution room based on rapid construction technology, which includes a civil foundation, a steel structure frame of the power distribution room body, a door of the power distribution room and a window of the power distribution room, and each component of the steel structure frame Fasteners are used for detachable fixation. The steel structure frame is detachably fixed on the civil foundation through fasteners. Several combined walls are arranged on the side of the steel structure frame. The top of the steel structure frame There are several combined roofs on the surface, the doors and windows of the power distribution room are set on the combined wall, and the top surface of the civil foundation in the steel structure frame is also equipped with pre-installed cable trenches. The power distribution room of the present invention adopts a steel structure frame, and each part of the steel structure frame is detachably fixed by fasteners, which reduces the dependence on welding equipment and personnel qualifications, and is not limited by the construction geographical environment, and has advantages in construction in remote areas more obvious.

Description

An energy-saving and environment-friendly power distribution room based on rapid construction technology

technical field

The invention relates to an energy-saving and environment-friendly power distribution room based on rapid construction technology, and belongs to the technical field of intelligent substation construction.

Background technique

With the implementation of the concept of full life cycle construction of State Grid smart substations, the construction of smart substations should strictly follow the coordinated and unified principles of "safety, applicability, versatility, and economy", and follow the "two types and one modernization" (resource-saving, Environmentally friendly, industrialized) requirements, and gradually formed a smart substation construction idea of "standardized design, factory processing, prefabricated construction", and implemented prefabricated power distribution rooms in new substations. Adopting the construction mode of prefabricated power distribution room can reduce on-site "wet work", increase the application scope of mechanized construction, reduce on-site labor input, shorten the construction period, reduce on-site safety risks, and improve the quality and technological level of engineering construction.

Under normal circumstances, when building a substation power distribution room, the enclosure structure, decorative panels, door and window installation structure, canopy components, etc. are directly laid out, measured, cut, opened, bulk spliced and post-processed at the substation site; power distribution There is a lot of welding work in the indoor steel structure; the construction quality is greatly affected by the environment, the production efficiency is not high, the construction period is long, and the requirements for construction equipment, machinery, materials, and personnel are high. At present, the power distribution room mainly uses cement fiberboard as the outer wall enclosure structure. This kind of board is prone to deformation and cracks under high and low temperature conditions. The thermal insulation effect and impermeability are poor, and it is difficult to repair after damage. The thermal insulation material is usually a single type of rock wool, which has a general thermal insulation effect and poor environmental protection performance, and its life cycle cannot meet the design life requirements of the substation power distribution room.

Contents of the invention

In order to solve the above technical problems, the present invention provides an energy-saving and environment-friendly power distribution room based on rapid construction technology.

In order to achieve the above object, the technical scheme adopted in the present invention is:

An energy-saving and environment-friendly power distribution room based on rapid construction technology, including the civil engineering foundation, the steel structure frame of the power distribution room body, the door of the power distribution room and the window of the power distribution room. parts are detachably fixed, the steel structure frame is detachably fixed on the civil foundation through fasteners, several combined walls are arranged on the side of the steel structure frame, and the top surface of the steel structure frame is provided with For several combined roofs, the doors and windows of the power distribution room are set on the combined walls, and prefabricated cable trenches are also arranged on the civil foundation in the steel structure frame.

The steel structure frame is fixed to the civil foundation through pre-embedded anchor bolts, and each component of the steel structure frame is fixed with torsional shear type high-strength bolts.

Each part of the steel structure frame adopts welded section steel.

The steel frame is also provided with gutters and downspouts.

The composite wall and the composite roof have the same structure, and are composed of several autoclaved lightweight concrete slabs, and the joints of adjacent autoclaved lightweight concrete slabs are coated with two-component polyurethane sealant.

Both the composite wall and the composite roof are fixed by connecting angle steel and steel structure frame.

Phase-change materials are installed at the joints of adjacent composite walls, and phase-change materials are installed at the joints of adjacent composite roofs.

The prefabricated cable trench is composed of several U-shaped waterproof reinforced concrete structures successively connected.

A canopy is arranged above the door of the power distribution room.

The beneficial effects achieved by the present invention: the power distribution room of the present invention adopts a steel structure frame, and each part of the steel structure frame is detachably fixed by fasteners, which reduces the dependence on welding equipment and personnel qualifications, and is not affected by the construction geographical environment Compared with the existing masonry technology, the combined wall, combined roof and prefabricated cable trench can shorten the construction period, reduce the cost of paving, improve work efficiency and improve the appearance quality ; The phase change material is extremely beneficial to the temperature stability of the power distribution room and the stability of the air conditioning system, reducing the load of the air conditioner and automatically adjusting the temperature, which is energy-saving and environmentally friendly.

Description of drawings

Fig. 1 is a schematic diagram of the mechanism of the present invention.

Fig. 2 is a schematic diagram of the frame structure of the steel structure of the present invention.

Figure 3 is a schematic diagram of the connection nodes of the steel structure frame.

Fig. 4 is a structural schematic diagram of pre-embedded anchor bolts.

Fig. 5 is a schematic diagram of connection of adjacent composite walls.

Fig. 6 is a structural schematic diagram of the prefabricated cable trench.

detailed description

The present invention will be further described below in conjunction with the accompanying drawings. The following examples are only used to illustrate the technical solution of the present invention more clearly, but not to limit the protection scope of the present invention.

As shown in Figure 1, an energy-saving and environment-friendly power distribution room based on rapid construction technology includes the civil foundation E, the steel structure frame A of the power distribution room body, the door H of the power distribution room, the window J of the power distribution room, and the gutter F, canopy I, downpipe G, prefabricated cable trench D, several composite walls B and several composite roofs K.

As shown in Figures 2, 3 and 4, the steel structure frame A includes steel columns A1, steel beams A2 and purlins A3. All parts are made of welded section steel, and are processed in the factory according to the design requirements, and the surface layer is protected against fire, which avoids on-site drilling, welding and surface treatment; all parts are detachably fixed by fasteners, and twist The shear-type high-strength bolts are fixed with A5, which can effectively control the accuracy of the installation project, and eliminate high-altitude welding operations, reduce the probability of dangerous incidents involving personnel, tools, equipment, and steel structures, shorten installation time, and reduce labor intensity.

The steel structure frame A is detachably fixed on the civil foundation E through fasteners, and here it is fixed with the civil foundation E through pre-embedded anchor bolts A4.

A number of combined walls B are set on the side of the steel structure frame A, and all the combined walls B together form the wall of the power distribution room. Several combined roofs K are set on the top surface of the steel structure frame A, and all the combined roofs K together form the power distribution room. room roof.

The combined wall B and the combined roof K have the same structure, as shown in Figure 5, both of which are composed of several autoclaved lightweight concrete slabs B1, and the joints of adjacent autoclaved lightweight concrete slabs B1 are coated with two-component Polyurethane sealant B3, composite wall B and composite roof K are all fixed to steel frame A by connecting angle steel B2.

The phase change material C is installed at the joint of the adjacent composite wall B, and the phase change material C is installed at the joint of the adjacent composite roof K. The phase change material C has a heat capacity that cannot be compared with ordinary materials. , producing a phase change from solid to liquid, absorbing and storing a large amount of latent heat; in a low temperature state, the stored heat of phase change material C is automatically dissipated to the environment within a certain temperature range, realizing the reverse phase change from liquid to solid To achieve the purpose of absorbing heat from the environment or releasing heat to the environment under different temperature conditions, the use of phase change material C is extremely beneficial to the stability of the temperature in the distribution room and the stability of the air conditioning system, reducing the load of the air conditioner and automatically adjusting the temperature. Energy saving and environmental protection.

The door H of the power distribution room and the window J of the power distribution room are set on the composite wall B, the canopy I is set above the door H of the power distribution room, and the gutter F and the downpipe G are set on the steel structure frame A. Specifically, the roof The ditch F is set on the steel beam A2, and the downspout G is set on the steel column A1.

As shown in Figure 6, the prefabricated cable trench D is composed of several U-shaped waterproof reinforced concrete structures connected in sequence. The prefabricated cable trench D is set on the civil foundation E located in the steel structure frame A. It is used to arrange cables, etc. The prefabricated cable trench D and the civil foundation E are designed and constructed as a whole. There is no need to consider the cable trench masonry work of the power distribution room on site, and only the interface between the power distribution room and the external cable is reserved, which is efficient and efficient. beautiful.

The above power distribution room adopts steel structure frame A, and all parts of steel structure frame A are detachably fixed by fasteners, which reduces the dependence on welding equipment and personnel qualifications, and is not limited by the geographical environment of the construction. It has advantages in construction in remote areas It is more obvious; compared with the existing masonry technology, the combined wall B, combined roof K and prefabricated cable trench D have the effects of shortening the construction period, reducing paving costs, improving work efficiency and improving appearance quality.

The above is only a preferred embodiment of the present invention, it should be pointed out that for those of ordinary skill in the art, without departing from the technical principle of the present invention, some improvements and modifications can also be made. It should also be regarded as the protection scope of the present invention.

Claims (9)

1. an energy saving and environment friendly switchgear house based on rapid build technology, it is characterized in that: include foundation of civil work, the steel structure frame of switchgear house room body, switchgear house door and switchgear house window, the all parts of described steel structure frame all uses securing member detachable fixing, described steel structure frame is fixed on foundation of civil work by securing member is detachable, some assembled walls it are provided with on the side of described steel structure frame, some built-up roofings it are provided with on the end face of described steel structure frame, described switchgear house door and switchgear house window are all opened on assembled wall, it is positioned on the foundation of civil work of steel structure frame and is additionally provided with prepackage type cable duct.

A kind of energy saving and environment friendly switchgear house based on rapid build technology the most according to claim 1, it is characterized in that: described steel structure frame is fixed with foundation of civil work by pre-embedded anchoring bolts, all parts of described steel structure frame all uses torque-shear type high-strength bolt to fix.

A kind of energy saving and environment friendly switchgear house based on rapid build technology the most according to claim 2, it is characterised in that: all parts of described steel structure frame all uses welding shaped steel.

4. according to a kind of based on rapid build technology the energy saving and environment friendly switchgear house described in claim 1-3 any one, it is characterised in that: described steel structure frame is additionally provided with gutter and downpipe.

A kind of energy saving and environment friendly switchgear house based on rapid build technology the most according to claim 1, it is characterized in that: described assembled wall is consistent with built-up roofing structure, being put together by some blocks of ALC plates, the junction of adjacent block ALC plate scribbles dual-component polyurethane fluid sealant.

A kind of energy saving and environment friendly switchgear house based on rapid build technology the most according to claim 5, it is characterised in that: described assembled wall and built-up roofing are all fixed with steel structure frame by angle cleat.

7. according to a kind of based on rapid build technology the energy saving and environment friendly switchgear house described in claim 1,5 or 6 any one, it is characterised in that: the joint of adjacent assembled wall installs phase-change material, and the joint of adjacent built-up roofing installs phase-change material.

A kind of energy saving and environment friendly switchgear house based on rapid build technology the most according to claim 1, it is characterised in that: the waterproof armored concrete construct that described prepackage type cable duct is U-shaped by multistage cross section connects successively and forms.

A kind of energy saving and environment friendly switchgear house based on rapid build technology the most according to claim 1, it is characterised in that: described switchgear house door be provided above awning.