CN110729636A

CN110729636A - Prefabricated cabin and base thereof

Info

Publication number: CN110729636A
Application number: CN201910912385.1A
Authority: CN
Inventors: 闫凯; 杨宁; 樊占峰; 刘志文; 张发刚; 徐玉洁; 曹松山; 郭维凯; 胡慧婧; 姬文利; 龙勇; 陈晓民
Original assignee: Xuji Group Co Ltd; XJ Electric Co Ltd
Current assignee: Xuji Group Co Ltd; XJ Electric Co Ltd
Priority date: 2019-09-25
Filing date: 2019-09-25
Publication date: 2020-01-24

Abstract

The invention relates to a prefabricated cabin and a base thereof, wherein the prefabricated cabin base comprises an underframe, a floor frame fixedly supported on the upper side of the underframe and arranged at an interval with the underframe, and a wiring channel between the underframe and the floor frame; the edge of the underframe is provided with an outer support leg supported between the underframe and the floor frame, an operation opening is enclosed by the adjacent outer support leg, the underframe and the floor frame, and the side sealing door is arranged at the operation opening and used for sealing the operation opening. The operation opening for operating the cables in the wiring channel is arranged between the bottom frame and the floor frame of the prefabricated cabin base, the side sealing door is arranged at the operation opening, the cables in the wiring channel can be operated outside the prefabricated cabin, the operation space is large, the floor in the prefabricated cabin does not need to be disassembled, the on-site construction efficiency of the cables is improved, and compared with the existing base for wiring in the prefabricated cabin, the problem that the on-site construction efficiency of the cables is low due to the fact that the floor on the prefabricated cabin base needs to be disassembled to perform wiring in the prefabricated cabin when the cables are laid in the existing prefabricated cabin is solved.

Description

Prefabricated cabin and base thereof

Technical Field

The invention relates to a prefabricated cabin and a base thereof.

Background

The secondary equipment prefabricated cabin is a replacement product of a secondary equipment room of a transformer substation, and is widely applied to the transformer industry in recent years. In the existing prefabricated cabin of secondary equipment, the wiring of the screen cabinets is divided into two types, one type is the cable wiring between the screen cabinets, and the other type is the wiring between the screen cabinets and equipment outside the cabin. The connection between the screen cabinets in the cabin is completed on site in the prefabricated cabin, and the construction period is long due to narrow space and complex structure. Cables for connecting the prefabricated cabin and external equipment are completed on site, and the cables are usually accessed in a mode of opening a hole in the bottom of the cabin. During field wiring, the floor in the prefabricated cabin needs to be dismantled, cables are arranged in wiring grooves in the prefabricated cabin base, the floor in the prefabricated cabin is installed after wiring is completed, operation is difficult, and the layout period is long. For example, the chinese utility model patent that the bulletin number of authorizing is CN208738612U, the bulletin date of authorizing is 2019.04.12 discloses a prefabricated cabin of secondary equipment and base thereof, and the bottom of base is provided with two cable inlets, and the antistatic movable floor downside of base is provided with the cable groove box, and movable floor and rectangular pipe releasable connection make things convenient for laying of cable and optical cable, the easy access. The wiring channel is arranged in the prefabricated cabin base, wiring is convenient, the space utilization rate of the base in height is improved, but when the prefabricated cabin base is used for wiring cables, the floor on the prefabricated cabin base needs to be detached, and operation in a narrow cabin space is needed, so that the cable field construction efficiency is low.

Disclosure of Invention

The invention aims to provide a prefabricated cabin base, which aims to solve the problem that the field construction efficiency of cables is low because the floor on the prefabricated cabin base needs to be disassembled and the cables need to be operated in a narrow cabin space when the cables are laid in the existing prefabricated cabin; in addition, the invention also aims to provide a prefabricated cabin.

In order to realize the purpose, the technical scheme of the prefabricated cabin base is as follows:

the prefabricated cabin base includes:

a chassis;

the floor frame is fixedly supported on the upper side of the underframe and is arranged at an interval with the underframe up and down;

the wiring channel is positioned between the underframe and the floor frame;

the edge of the underframe is provided with an outer supporting piece which is supported between the underframe and the floor frame;

the operation port is arranged between the underframe and the floor frame and is used for carrying out wiring operation on cables in the wiring channel, the operation port is arranged on the outer supporting piece, or the outer supporting piece is an outer supporting leg, a plurality of outer supporting legs are arranged, and the operation port is surrounded by the adjacent outer supporting legs, the underframe and the floor frame;

and the side sealing door is arranged at the operation opening and used for sealing the operation opening.

The invention has the beneficial effects that: the operation opening for operating the cables in the wiring channel is arranged between the bottom frame and the floor frame of the prefabricated cabin base, the side sealing door is arranged at the operation opening, when the prefabricated cabin base is used, the cables in the wiring channel can be operated outside the prefabricated cabin by opening the side sealing door, the operation space is large, the floor in the prefabricated cabin does not need to be disassembled, the on-site construction efficiency of the cables is improved, and compared with the existing base for wiring in the prefabricated cabin, the problems that the floor on the prefabricated cabin base needs to be disassembled when the cables are laid in the existing prefabricated cabin, and the on-site construction efficiency of the cables is low due to the fact that the cables need to be operated in a narrow cabin space are solved.

Further, at least one part of the routing channel is an outer routing part which is adjacent to the outer support and is positioned at the inner side of the outer support. The distance between the operation opening and the wiring channel is shortened by the adjacent of the wiring channel and the outer supporting piece, and the operation is convenient.

Furthermore, an inner support leg positioned at the inner side of the outer wiring part is arranged between the floor frame and the underframe. The inner support legs can ensure the strength of two sides of the wiring channel.

Further, the distance between two adjacent inner support legs in the extending direction of the outer wiring part is smaller than the distance between two adjacent outer support legs in the extending direction of the wiring channel. The operation opening is ensured to have a large enough size as much as possible, and the operation is convenient.

Furthermore, a cable support arm for layering cables in the cable routing channel is arranged in the outer side cable routing part, and the cable support arm is horizontally suspended on the inner support leg. The cable is convenient to carry out layering operation.

Furthermore, the wiring channel is adjacent to the outer support and located on the inner side of the outer support, the wiring channel comprises an outer cable wiring part for external cables to be wired in a U shape and an inner cable wiring part for cables in the U shape, a wire inlet for external cables to enter on the chassis is communicated with the outer cable wiring part, and the outer cable wiring part is opposite to the inner cable wiring part and enables the wiring channel to be in a ring shape. The wiring channel is arranged in a partitioning mode, and distinguishing is convenient.

Furthermore, a cable support for layering cables in the wiring channel is arranged in the wiring channel. The cable is convenient to carry out layering operation.

Furthermore, the floor frame or the outer supporting piece is hinged with a swing rod capable of swinging up and down, and one end of the swing rod, which is far away from the floor frame or the outer supporting piece, is hinged with the side sealing door, so that the side sealing door swings upwards to be opened. The side seal door is upwards opened and can be let out the space of operation opening, convenient operation.

Furthermore, the two ends of the swing rod are bent upwards to avoid the bent rod of the floor frame, so that the interference between the side sealing door and the floor frame is avoided.

In order to realize the purpose, the technical scheme of the prefabricated cabin is as follows:

prefabricated cabin includes cabin body and base, and the base includes:

a chassis;

the wiring channel is positioned between the underframe and the floor frame;

the edge of the bottom frame is provided with an outer supporting piece which is supported between the bottom frame and the floor frame,

the operation port is arranged between the underframe and the floor frame and is used for carrying out wiring operation on cables in the wiring channel, the operation port is arranged on the outer supporting piece, or the outer supporting piece is an outer supporting piece, a plurality of outer supporting pieces are arranged, the operation port is enclosed by the adjacent outer supporting pieces, the underframe and the floor frame,

The invention has the beneficial effects that: be provided with the operation mouth to the cable operation in the line passageway between the chassis of base and the floor frame, operation mouth department is equipped with the side and seals the door, through opening the side and seal the door during use, can operate the cable in the line passageway outside the prefabricated cabin, operating space is big and need not dismantle the floor in the prefabricated cabin, the on-the-spot efficiency of construction of cable has been improved, compare with the present base of laying wire in the prefabricated cabin, the problem that the floor on the prefabricated cabin base need be dismantled and need lead to the on-the-spot efficiency of construction of cable to operate at narrow and small cabin space when laying the cable in present prefabricated cabin has been solved.

Drawings

FIG. 1 is a schematic structural view of a prefabricated cabin when a side sealing door is opened according to an embodiment of the prefabricated cabin;

FIG. 2 is a schematic view of the structure of the base in the embodiment of the prefabricated cabin of the present invention;

FIG. 3 is a schematic view of a partial structure of a base in an embodiment of the prefabricated cabin of the present invention;

FIG. 4 is a schematic diagram of the layout of cables in the base of an embodiment of the prefabricated capsule of the present invention;

in the figure: 1-a cabin body; 2-a base; 21-a chassis; 211-a backbone; 212-a closing plate; 213-wire inlet; 214-a hanger; 215-ground net connection; 216-a backplane; 22-floor frames; 23-routing channels; 24-outer legs; 25-inner leg; 26-an operation port; 27-cable arm; 28-side sealing door; 281-sealing the door step; 291-swing rod; 292-telescoping hydraulic cylinder.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

In the embodiment of the prefabricated cabin of the present invention, as shown in fig. 1 to 4, the prefabricated cabin comprises a cabin body 1 and a base 2, and the base 2 comprises a bottom frame 21 and a floor frame 22 which are arranged in layers. The chassis 21 comprises a framework 211 formed by enclosing channel steel end to end and a closing plate 212 arranged on the framework 211, wherein the closing plate 212 is welded on the top surface of the framework 211. The chassis 21 is provided with a wire inlet 213 for a cable to enter the base 2, and the outer vertical surface of the channel steel of the chassis 21 is provided with a hanging foot 214 for hanging the base 2 and a grounding grid connection 215 for grounding. The bottom of the framework 211 is welded with a bottom plate 216, and the bottom plate 216 can reduce the corrosion speed of the framework 211. In other embodiments, only a sealing plate may be provided.

As shown in fig. 1 and 2, the floor frame 22 is fixedly supported on the upper side of the bottom frame 21 and is spaced from the bottom frame 21, a routing channel 23 is provided between the floor frame 22 and the bottom frame 21, the routing channel 23 in this embodiment is annular, and the routing channel 23 is disposed near the edge of the bottom frame 21. The edge of the underframe 21 is provided with an outer support leg 24 supported between the underframe 21 and the floor frame 22 and an inner support leg 25 positioned at the inner side of the outer support leg 24, the wiring channel 23 is positioned between the inner support leg 25 and the outer support leg 24, the inner support leg 25 is positioned at the inner side of the wiring channel 23, and the outer support leg 24 is positioned at the outer side of the wiring channel 23. The adjacent outer supporting legs 24, the underframe 21 and the floor frame 22 enclose an operation opening 26 for wiring operation of cables in the wiring channel 23, the operation opening 26 is communicated with the wiring channel 23, the operation openings 26 are circumferentially arranged along the base 2, and the cables in the wiring channel 23 can be operated through the operation openings 26, so that wiring is facilitated. The inner supporting leg 25 and the outer supporting leg 24 in the embodiment are supporting rods, and the structure is simple and convenient to mount.

In order to facilitate the operation and increase the size of the operation opening 26 as much as possible, in this embodiment, the number of the inner supporting legs 25 is greater than the number of the outer supporting legs 24, in the extending direction of the routing channel 23, the distance between two adjacent inner supporting legs 25 is smaller than the distance between two adjacent outer supporting legs 24, and the greater number of the inner supporting legs can also improve the strength of the base 2. In other embodiments, according to actual needs, the distance between two adjacent inner legs in the extending direction of the routing channel may also be equal to or even greater than the distance between two adjacent outer legs.

In order to facilitate the classification of the cables in the routing channel 23, in this embodiment, the inner supporting leg 25 is provided with the cable supporting arm 27, one end of the cable supporting arm 27 is fixed to the inner supporting leg 25, the other end of the cable supporting arm 27 is suspended in the routing channel 23, and the same inner supporting leg 25 is provided with the two cable supporting arms 27, so that different types of cables can be placed on different cable supporting arms 27 according to needs during use, and the classification of the cables is realized. In addition, the cable arm 27 is suspended from the inner leg 25 to facilitate cable handling from the access opening 26. In addition, because the inner support legs 25 are small in distance, the distance between the adjacent cable support arms 27 can be reduced when the inner support legs 25 are arranged, and the cable layering effect is good. The cable arm 27 in this embodiment forms a routing bracket disposed within the routing channel 23, but in other embodiments, the routing bracket may be a clamp or the like fixed to the chassis or to the outer leg.

The operation opening 26 is movably provided with a side sealing door 28 for sealing the operation opening 26, the side sealing door 28 is provided with a plurality of side sealing doors (only one side sealing door 28 is shown in fig. 1 and fig. 2), in the embodiment, the floor frame 22 is provided with a pair of swing rods 291 capable of swinging up and down, one end of each swing rod 291 is hinged on the floor frame 22, the other end of each swing rod 291 is hinged on the side sealing door 28, and the swing rods 291 swing up to enable the side sealing doors 28 to swing up and open. In order to open the side sealing door 28 conveniently, a hydraulic power-assisted rod 292 is connected to the swing rod 291, a driving rod of the hydraulic power-assisted rod is hinged to the swing rod 291, the swing rod 291 is driven by the hydraulic power-assisted rod 292 to swing, the side sealing door 28 can be opened, a lock for locking the side sealing door 28 is arranged at the operation opening 26, the side sealing door cannot be jacked up by the hydraulic power-assisted rod when the side sealing door 28 is closed, and the side sealing door 28 can be opened after the lock is unlocked. The hydraulic boosting rod is a mature product in the prior art and is widely applied to opening a trunk cover of an automobile and the like. In order to avoid the interference between the swing link 291 and the floor frame 22, the swing link 291 in this embodiment has two ends bent upward and a middle portion recessed to avoid the floor frame 22, so that the side-sealing door 28 can completely open the operation opening 26, thereby providing a larger operation space. In this embodiment, the side sealing door 28 is provided with a plurality of and distributes along base 2 circumference, and the side sealing door 28 is all opened during the use, makes the line passageway 23 expose, makes things convenient for the wiring operation. In other embodiments, the side-sealing door can be opened by a pure hand.

As shown in fig. 3, in the present embodiment, the sealing plate 212 of the bottom frame 21 and the frame 211 form a step of the bottom frame 21, the bottom of the side sealing door 28 is provided with a door sealing step 281 adapted to the step, the door sealing step 281 includes a first step surface facing downward when the side sealing door 28 is closed and a second step surface facing the inside of the base 2 when the side sealing door 28 is closed, the first step surface is in clearance fit with the sealing plate on the frame 211, and the second step surface is in stop fit with the sealing plate, so that rainwater can be prevented from entering the base 2 through the bottom of the air door.

In this embodiment, the circumferential dimension of the floor frame 22 is smaller than the circumferential dimension of the bottom frame 21, so as to facilitate the installation of the floor frame 22.

The wiring channel 23 in this embodiment is annular, wherein one half is an external cable wiring portion for external cable wiring, the other half is an internal cable wiring portion for internal cable wiring, both the external cable wiring portion and the internal cable wiring portion are U-shaped, and the wire inlet 213 is communicated with the external cable wiring channel. The external cables can be routed to the left and right sides after entering the routing channel 23 through the wire inlet 213, and the internal cables can also be laid to the target position along the routing channel 23 after entering the routing channel 23 of the base 2 from the cabin, for example, can be arranged in a U-shape around the routing channel 23. In other embodiments, the two routing channels may be arranged in parallel, the routing channels are not annular, the routing channels may also be in other shapes such as U-shaped, and the routing channels may also be arranged inside the base, but the difficulty of wiring may be increased at this time.

When the prefabricated cabin in the embodiment is used, after cables between the screen cabinets in the prefabricated cabin are installed in a factory, the prefabricated cabin is integrally seated on the base 2, the side sealing door 28 is opened, the side sealing door 28 is lifted upwards and suspended, and the operation space of the side vertical surface of the base 2 is completely reserved. External cables are fed from the cable trench into the base 2 through the cable inlet 213 of the base 2. The cable is placed in the wiring channel 23 according to the position of the target screen and the number of cable laying layers, and enters the target screen cabinet vertically upwards after entering the lower part of the screen cabinet to finish the wiring operation.

The base 2 can also be used for internal cables to walk the line, and the internal cable import has been seted up to the position that corresponds the screen cabinet on the base 2, and screen cabinet internal connection cable gets into base 2's away line passageway 23 back by the internal cable import of screen cabinet bottom, lays to the target screen cabinet back along walking line passageway 23, gets into the target screen cabinet again perpendicularly.

According to the base with the open cable arrangement function, the cable arrangement space in the cabin is opened outwards, the original cable arrangement mode in the cabin is changed, the problems of small space, inconvenience in operation and long construction period faced by cable installation in the cabin are solved, the field construction difficulty is reduced, the construction process is guaranteed, in addition, the base can simplify the field civil foundation, and the civil construction cost is reduced. Particularly, in final long-term reconstruction and extension or cable maintenance work, the extravehicular cable arrangement mode greatly simplifies the field operation flow, reduces the construction period and improves the reconstruction and extension operation efficiency.

The routing channel in this embodiment is adjacent with outer support leg, and in other embodiments, the routing channel can set up that the outside is walked line part and is adjacent with outer support leg, and a part of routing channel can be in the middle of the base, but the wiring degree of difficulty can increase this moment.

In this embodiment, an inner supporting leg located inside the outer wiring portion is further disposed between the floor frame and the bottom frame, and in other embodiments, a horizontally extending strip-shaped supporting plate or a supporting beam or the like may be disposed instead of the inner supporting leg.

The swing rod in the embodiment is a bent rod, in other embodiments, the swing rod can also be a straight rod, and the swing rod can also be arranged on the outer support leg.

The telescopic hydraulic cylinder in the embodiment constitutes a telescopic driving mechanism, and in other embodiments, the telescopic driving mechanism may be a telescopic electric push rod or the like. In other embodiments, the side sealing plate can be buckled at the operation opening and can be detached when in use.

Other embodiments may provide side seals only on opposite sides of the base.

In this embodiment, the side sealing doors correspond to the operation ports one to one, and in other embodiments, one side sealing door may correspond to two or more operation ports.

In other embodiments, the operation opening may not be enclosed by the outer leg, the bottom frame, or the floor frame, for example, the outer leg may be replaced by a supporting plate or a supporting beam, and the operation opening is disposed on the supporting plate or the supporting beam, and the supporting plate or the supporting beam forms the outer support; in other embodiments, the outer support may be formed using an outer foot in combination with a support plate.

In the specific embodiment of the prefabricated cabin base, the structure of the prefabricated cabin base in the embodiment is the same as that of the base in the specific embodiment of the prefabricated cabin, and the detailed description is omitted.

Claims

1. Prefabricated cabin base, its characterized in that includes:

a chassis;

the wiring channel is positioned between the underframe and the floor frame;

the operation port is used for carrying out wiring operation on cables in the wiring channel and is arranged on the outer supporting piece, or the outer supporting piece is an outer supporting leg, a plurality of outer supporting legs are arranged, and the operation port is formed by surrounding adjacent outer supporting legs, the underframe and the floor frame;

2. The pod base of claim 1, wherein at least a portion of the routing channel is an outer routing portion adjacent to the outer support and inside the outer support.

3. The pod base of claim 2, further comprising an inner leg disposed inwardly of the outer routing portion between the floor frame and the chassis.

4. The pod base of claim 3, wherein a distance between two inner legs adjacent in a direction of extension of the outer routing portion is less than a distance between two outer legs adjacent in a direction of extension of the routing channel.

5. The pod base of claim 3, wherein the outer routing portion includes a cable arm for layering cables within the routing channel, the cable arm being horizontally suspended from the inner leg.

6. The prefabricated cabin base of claim 2, wherein the routing channel is adjacent to and inside the outer support member, the routing channel includes an outer cable routing portion in a U-shape for routing an outer cable and an inner cable routing portion in a U-shape for routing an intra-cabin cable, a wire inlet on the chassis for entering an outer cable is communicated with the outer cable routing portion, and the outer cable routing portion is opposite to the inner cable routing portion and makes the routing channel in a ring shape.

7. The prefabricated cabin base of any one of claims 1 to 4, wherein a cable support for layering cables within the routing channel is provided within the routing channel.

8. The prefabricated cabin base of any one of claims 1 to 6, wherein the floor frame or the outer support member is hinged with a swing rod capable of swinging up and down, and one end of the swing rod, which is far away from the floor frame or the outer support member, is hinged with the side sealing door, so that the side sealing door swings up and opens.

9. The pod base of claim 8, wherein the rocker is a bent bar having two ends bent upward to avoid the floor frame.

10. A prefabricated cabin comprising a cabin body and a base, wherein the base is the prefabricated cabin base according to any one of claims 1 to 9.