CN114094482A

CN114094482A - Modular double-layer prefabricated cabin of primary and secondary equipment

Info

Publication number: CN114094482A
Application number: CN202010746032.1A
Authority: CN
Inventors: 丁丽平; 韩付申; 郭胜军; 丁妍妍; 娄连英; 徐利明; 张月霞; 谢春洋; 陈园利
Original assignee: Xuji Group Co Ltd
Current assignee: Xuji Group Co Ltd
Priority date: 2020-07-29
Filing date: 2020-07-29
Publication date: 2022-02-25

Abstract

A modular primary and secondary equipment double-layer prefabricated cabin is characterized by comprising an upper-layer prefabricated cabin, a lower-layer prefabricated cabin, a wiring unit and an environment control system; the upper prefabricated cabin is a plurality of modular secondary cabin bodies and comprises a plurality of modular cabin bodies; the lower prefabricated cabin is a plurality of modular primary cabin bodies and also comprises a plurality of modular cabin bodies; the wiring unit is a multi-channel three-dimensional wiring unit; the environment control system comprises an upper layer environment control system and a lower layer environment control system. The upper layer and the lower layer of the double-layer cabin body adopt a modularized split structure, the cost reduction of the large-scale production, the integrated debugging and the modularized distribution in a factory is realized, and the problems of large nonstandard processing amount, long construction period, large occupied area, high cost and large field operation and maintenance workload of the original cabin body are solved.

Description

Modular double-layer prefabricated cabin of primary and secondary equipment

Technical Field

The invention relates to the technical field of standard distribution type intelligent substations, in particular to a modular primary and secondary equipment double-layer prefabricated cabin.

Background

With the rapid development of national grid intelligent substations, the prefabricated cabin is an important carrier of a standard distribution type intelligent substation, and the cabin body of the prefabricated cabin directly influences the safe operation of the substation. Along with the shortage of global resources, the area for a transformer substation is more and more limited, the existing single-layer prefabricated cabin station building mode not only occupies a large area, but also has large workload of civil engineering and later-period operation and maintenance, the station building period is long, the modular division design of the single-layer cabin body is not beneficial to the standardized design, and the mutual compatibility and the universality of different series of product modules are not strong. The actual processing and production are difficult, the product quality is unstable, the manufacturing cost is high, and the factors cannot meet the popularization and application requirements of prefabricated cabin products and the rapid development requirements of transformer substations. The modular high-performance prefabricated cabin with a double-layer structure is urgently needed to be developed to solve the problems of large nonstandard processing amount, long construction period, large occupied area, high cost and large field operation and maintenance workload of the original cabin body.

Disclosure of Invention

The invention aims to provide a modular primary and secondary equipment double-layer prefabricated cabin structure, wherein the upper layer and the lower layer of a double-layer cabin body adopt a modular split structure, the cost reduction of the large-scale production, the integrated debugging and the modular distribution in a factory is realized, and the problems of large nonstandard processing amount, long construction period, large occupied area, high cost and large field operation and maintenance workload of the original cabin body are solved.

The invention is realized by the following technical scheme:

the invention provides a modular primary and secondary equipment double-layer prefabricated cabin, which comprises an upper-layer prefabricated cabin 100, a lower-layer prefabricated cabin 200, a wiring unit and an environment control system, wherein the wiring unit is arranged on the upper-layer prefabricated cabin;

the upper prefabricated cabin 100 is a plurality of modular secondary cabins and comprises a plurality of modular cabins;

the lower prefabricated cabin 200 is a plurality of modular primary cabin bodies and also comprises a plurality of modular cabin bodies;

the wiring unit is a multi-channel three-dimensional wiring unit;

the environment-controlled control system comprises an upper layer environment-controlled control system and a lower layer environment-controlled control system, wherein the upper layer environment-controlled control system is used for ensuring the temperature in the upper layer prefabricated cabin 100 to be 18-25 ℃, and the lower layer environment-controlled control system is used for ensuring the temperature in the lower layer prefabricated cabin 200 to be 18-25 ℃;

further, an auxiliary device 300 is included, wherein the auxiliary device 300 includes a landing 310, a guardrail 320 and a staircase 330.

Further, the upper prefabricated cabin 100 is arranged at the upper layer, and the lower prefabricated cabin 200 is arranged at the lower layer;

a wiring unit is arranged between the upper-layer prefabricated cabin 100 and the lower-layer prefabricated cabin 200, the upper-layer prefabricated cabin 100 is arranged at the upper part of the wiring unit, and the wiring unit is arranged at the upper part of the lower-layer prefabricated cabin 200.

Further, the number of the module body bodies of the lower prefabricated cabin 200 is more than that of the module body bodies of the upper prefabricated cabin 100.

Further, the number of the lower prefabricated cabin 200 is 2 more than that of the modular cabin bodies of the upper prefabricated cabin 100.

Further, the two more modular cabin bodies of the lower prefabricated cabin 200 than the upper prefabricated cabin 100 are respectively located at two ends of the lower cabin body 200, and the two more modular cabin bodies are used for assembling and supporting the guard rails 320, the stairs 330 and the transfer platforms 210 of the upper and lower cabin bodies.

Further, the top of the two module cabin bodies at the two ends of the lower prefabricated cabin 200 is provided with a guardrail 320, and the front part is provided with a stair 330.

Further, the lengths L1 of the two module bodies corresponding to the upper prefabricated cabin 100 and the lower prefabricated cabin 200 are the same.

Further, the top cover of the lower prefabricated cabin 200 is a flat top, and the top cover of the upper prefabricated cabin 100 is a herringbone top.

Further, the upper-level environmental control system includes: the system comprises an LED lamp, a smoke sensor, a temperature sensor, a fan and a camera which are arranged at the top of an upper-layer prefabricated cabin 100, an air conditioner, an emergency lighting lamp, a safety outlet, a manual alarm controller, a temperature and humidity controller, a telephone and a control switch which are arranged on the wall of the upper-layer prefabricated cabin 100, and a metal plate wiring channel which is arranged around a composite plate at the top of the upper-layer prefabricated cabin 100; the lower layer environment control system comprises: the LED lamp, the smoke sensor, the temperature sensor, the fan and the camera are arranged at the top of the lower prefabricated cabin 200, the air conditioner, the emergency lighting lamp, the safety exit, the manual alarm controller, the temperature and humidity controller, the telephone and the control switch are arranged on the wall of the lower prefabricated cabin 200, and the metal plate wiring channel is arranged on the periphery of a composite plate at the top of the lower prefabricated cabin 200.

Compared with a single-layer prefabricated cabin of a traditional intelligent station, the technical scheme of the invention can realize the following beneficial technical effects:

(1) three-dimensional placement and space saving: the secondary cabin is arranged at the upper part of the primary cabin, which can save 15% compared with the traditional station building and further reduce the floor area of the cabin;

(2) the cabin body has high structural strength and is safe and reliable: each cabin unit module divided in the double-layer cabin is of an integral steel welding type structure, so that the structural strength is high, and the cabin unit modules are safe and reliable;

(3) reduce on-the-spot civil engineering work volume and cable length: the secondary cabin is arranged on the second layer, so that civil construction of a second-layer foundation and a cable trench is reduced, the cost is reduced, and the reliability of signal transmission is improved;

(4) and energy consumption is reduced: the double-layer building station can effectively reduce the area of solar radiation of the lower-layer prefabricated cabin, reduce heat consumption and improve the heat insulation performance of the cabin body;

(5) the cost is reduced, and the period is shortened: the upper layer and the lower layer of the double-deck cabin body adopt a modular split structure, so that the cost reduction of the large-scale production, the integrated debugging and the modular distribution in a factory is realized. The invention mainly solves the problems of large nonstandard processing amount, long construction period, large occupied area, high cost and large field operation and maintenance workload of the original cabin body. The double-deck cabin provides powerful support for realizing an innovative three-dimensional station building mode, breaks through the bottleneck of intelligent substation development, and further promotes the rapid forward development of the state network intelligent substation.

Drawings

FIG. 1 is a schematic view of the assembly of an upper deck module according to the present invention;

FIG. 2 is a schematic view of the assembly of the lower deck module of the present invention;

fig. 3 is a schematic view of the assembly of the double-deck prefabricated cabin of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The invention provides a modular primary and secondary equipment double-layer prefabricated cabin which comprises an upper-layer prefabricated cabin 100, a lower-layer prefabricated cabin 200, a wiring unit (not shown in the figure) and an environment control system. The upper prefabricated cabin 100 is a plurality of modular secondary cabins and comprises a plurality of modular cabins; the lower prefabricated cabin 200 is a plurality of modular primary cabin bodies and also comprises a plurality of modular cabin bodies; the wiring unit is a multi-channel three-dimensional wiring unit, the environment-controlled control system comprises an upper environment-controlled control system and a lower environment-controlled control system, the upper environment-controlled control system is used for ensuring that the temperature in the upper prefabricated cabin 100 is 18-25 ℃, and the lower environment-controlled control system is used for ensuring that the temperature in the lower prefabricated cabin 200 is 18-25 ℃.

The upper-level environmental control system comprises: the intelligent control system comprises an LED lamp, a smoke sensor, a temperature sensor, a fan and a camera which are arranged at the top of an upper-layer prefabricated cabin 100, an air conditioner, an emergency lighting lamp, a safety exit, a manual alarm controller, a temperature and humidity controller, a telephone and a control switch which are arranged on the wall of the upper-layer prefabricated cabin 100, and further comprises a metal plate wiring channel which is arranged on the periphery of a composite plate at the top of the upper-layer prefabricated cabin 100, so that the temperature in the upper-layer prefabricated cabin 100 is ensured to be 18-25 ℃.

The lower layer environment control system comprises: the intelligent control system comprises an LED lamp, a smoke sensor, a temperature sensor, a fan and a camera which are arranged at the top of the lower prefabricated cabin 200, an air conditioner, an emergency lighting lamp, a safety exit, a manual alarm controller, a temperature and humidity controller, a telephone and a control switch which are arranged on the wall of the lower prefabricated cabin 200, and further comprises a metal plate wiring channel which is arranged on the periphery of a composite plate at the top of the lower prefabricated cabin 200, so that the temperature in the lower prefabricated cabin 200 is ensured to be 18-25 ℃.

The wiring of the environmental control system in the cabin is beautiful, safe and reliable, and convenient to overhaul, transport and maintain, the comfort level in the cabin is improved greatly, and the solid guarantee is provided for the safe operation of the prefabricated cabin of the whole station.

The primary equipment is electrical equipment which is used for producing and using electric energy and has higher voltage than a control loop (secondary equipment), and a cabin provided with the primary equipment is called a primary equipment prefabricated cabin, namely a primary cabin body for short; the auxiliary equipment for monitoring, measuring, controlling, protecting and adjusting the primary equipment in the power system is called secondary equipment, and a cabin with pre-assembled secondary equipment is called a secondary equipment prefabricated cabin, and is called a secondary cabin body for short.

The upper-layer prefabricated cabin 100 is arranged on the upper layer, the lower-layer prefabricated cabin 200 is arranged on the lower layer, the wiring unit is arranged between the upper-layer prefabricated cabin 100 and the lower-layer prefabricated cabin 200, the upper-layer prefabricated cabin 100 is arranged on the upper portion of the wiring unit, and the wiring unit is arranged on the upper portion of the lower-layer prefabricated cabin 200;

the wire inlet and outlet holes of the upper prefabricated cabin 100 correspond to the wire inlet and outlet holes of the lower prefabricated cabin 200 in position and size, and the wiring unit is directly communicated with the foundation and used for the integral wire inlet and outlet holes of the double-layer cabin.

The number of the module body of the lower prefabricated cabin 200 is two more than that of the module body split from the upper prefabricated cabin 100, in an embodiment of the present invention, the lower prefabricated cabin 200 has two more module body than that of the upper prefabricated cabin 100, the lower prefabricated cabin 200 has 7 module body, the upper prefabricated cabin 100 has 5 module body, the two more module body of the lower prefabricated cabin 200 than that of the upper prefabricated cabin 100 are respectively located at two ends of the upper cabin body 200, and the two more module body are used for assembling and supporting a guardrail 320, a stair 330 and a transfer platform 310 of the upper and lower cabin bodies.

The top parts of the two module cabin bodies at the two ends of the lower prefabricated cabin 200 are provided with guardrails 320, and the front parts of the two module cabin bodies are provided with stairs 330; the lengths L1 (as shown in fig. 1) of the corresponding two module bodies of the upper prefabricated cabin 100 and the lower prefabricated cabin 200 are the same. Specifically, the length dimension is a transverse dimension of each module body.

Specifically, the length L1 (transverse dimension) of each module cabin body does not exceed 3 meters, and the requirements of different intelligent station overall dimensions can be met by reducing the number of modules according to the actual transformer substation requirements.

Specifically, the upper prefabricated cabin 100 and the lower prefabricated cabin 200 are both of a welded structure, that is, adjacent module cabin bodies of the upper prefabricated cabin 100 are welded together, and adjacent module cabin bodies of the lower prefabricated cabin 200 are welded together. The top cover of the lower prefabricated cabin 200 is a flat top, and the top cover of the upper prefabricated cabin 100 is a herringbone top; the width of the upper prefabricated cabin 100 is 57.5mm larger than the width L2 (as shown in fig. 2) of the lower prefabricated cabin 200, and the extra width (57.5mm) of the upper prefabricated cabin 100 is used for the rain-proof edge of the lower prefabricated cabin 200.

In summary, the invention provides a modular primary and secondary equipment double-layer prefabricated cabin, which is characterized by comprising an upper-layer prefabricated cabin, a lower-layer prefabricated cabin, a wiring unit and an environment control system; the upper prefabricated cabin is a plurality of modular secondary cabin bodies and comprises a plurality of modular cabin bodies; the lower prefabricated cabin is a plurality of modular primary cabin bodies and also comprises a plurality of modular cabin bodies; the wiring unit is a multi-channel three-dimensional wiring unit; the environment-controlled control system comprises an upper layer environment-controlled control system and a lower layer environment-controlled control system, wherein the upper layer environment-controlled control system is used for ensuring that the temperature in the upper layer prefabricated cabin is 18-25 ℃, and the lower layer environment-controlled control system is used for ensuring that the temperature in the lower layer prefabricated cabin is 18-25 ℃. The upper layer and the lower layer of the double-layer cabin body adopt a modularized split structure, the cost reduction of the large-scale production, the integrated debugging and the modularized distribution in a factory is realized, and the problems of large nonstandard processing amount, long construction period, large occupied area, high cost and large field operation and maintenance workload of the original cabin body are solved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims

1. A modular primary and secondary equipment double-layer prefabricated cabin is characterized by comprising an upper-layer prefabricated cabin (100), a lower-layer prefabricated cabin (200), a wiring unit and an environment control system;

the upper-layer prefabricated cabin (100) is a plurality of modular secondary cabin bodies and comprises a plurality of modular cabin bodies;

the lower prefabricated cabin (200) is a plurality of modular primary cabin bodies and also comprises a plurality of modular cabin bodies;

the wiring unit is a multi-channel three-dimensional wiring unit;

the environment-controlled control system comprises an upper-layer environment-controlled control system and a lower-layer environment-controlled control system, the upper-layer environment-controlled control system is used for ensuring that the temperature in the upper-layer prefabricated cabin 100 is 18-25 ℃, and the lower-layer environment-controlled control system is used for ensuring that the temperature in the lower-layer prefabricated cabin 200 is 18-25 ℃.

2. The modular primary and secondary equipment bi-level prefabricated cabin according to claim 1, further comprising auxiliary equipment (300), wherein the auxiliary equipment (300) comprises a transfer platform (310), a guardrail (320) and a staircase (330).

3. The modular primary and secondary equipment double deck prefabricated cabin according to claim 2, wherein the upper deck prefabricated cabin (100) is arranged at an upper deck, and the lower deck prefabricated cabin (200) is arranged at a lower deck;

a wiring unit is arranged between the upper-layer prefabricated cabin (100) and the lower-layer prefabricated cabin (200), the upper-layer prefabricated cabin (100) is arranged on the upper portion of the wiring unit, and the wiring unit is arranged on the upper portion of the lower-layer prefabricated cabin (200).

4. The modular primary and secondary equipment double deck module according to claim 3, wherein the number of module bodies of the lower deck module (200) is greater than the number of module bodies of the upper deck module (100).

5. Modular primary and secondary equipment double deck module according to claim 4, characterized in that the lower deck module (200) is 2 more than the number of module body of the upper deck module (100).

6. The modular primary and secondary equipment double-deck prefabricated cabin according to claim 5, wherein two more modular cabins of the lower prefabricated cabin (200) than the upper prefabricated cabin (100) are respectively arranged at two ends of the lower cabin (200), and are used for assembling and supporting a guardrail (320), a stair (330) and a transfer platform (310) of the upper and lower cabins.

7. The modular primary and secondary equipment double deck prefabricated cabin according to claim 6, wherein the top of the two module cabins at both ends of the lower deck prefabricated cabin (200) is provided with guardrails (320), and the front part is provided with stairs (330).

8. The modular primary and secondary equipment double deck prefabricated cabin according to claim 7, wherein the lengths L1 of the two corresponding modular cabin bodies of the upper prefabricated cabin (100) and the lower prefabricated cabin (200) are the same.

9. The modular primary and secondary equipment double deck module according to claim 8, wherein the roof of the lower deck module (200) is a ceiling and the roof of the upper deck module (100) is a gable roof.

10. The modular primary and secondary equipment double-deck prefabricated cabin according to claim 9, wherein the upper-deck environmental control system comprises: the system comprises an LED lamp, a smoke sensor, a temperature sensor, a fan and a camera which are arranged at the top of an upper-layer prefabricated cabin 100, an air conditioner, an emergency lighting lamp, a safety outlet, a manual alarm controller, a temperature and humidity controller, a telephone and a control switch which are arranged on the wall of the upper-layer prefabricated cabin 100, and a metal plate wiring channel which is arranged around a composite plate at the top of the upper-layer prefabricated cabin 100; the lower layer environment control system comprises: the LED lamp, the smoke sensor, the temperature sensor, the fan and the camera are arranged at the top of the lower prefabricated cabin 200, the air conditioner, the emergency lighting lamp, the safety exit, the manual alarm controller, the temperature and humidity controller, the telephone and the control switch are arranged on the wall of the lower prefabricated cabin 200, and the metal plate wiring channel is arranged on the periphery of a composite plate at the top of the lower prefabricated cabin 200.