CN214487547U - Distributed automatic switching air supply and exhaust system - Google Patents

Distributed automatic switching air supply and exhaust system Download PDF

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Publication number
CN214487547U
CN214487547U CN202022443857.4U CN202022443857U CN214487547U CN 214487547 U CN214487547 U CN 214487547U CN 202022443857 U CN202022443857 U CN 202022443857U CN 214487547 U CN214487547 U CN 214487547U
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China
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cabinet body
air supply
wind
air feed
exhaust system
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CN202022443857.4U
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Chinese (zh)
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严长志
许仕建
谢友铭
覃家望
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Guangdong Chuangzhi Intelligent Equipment Co ltd
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Guangdong Chuangzhi Intelligent Equipment Co ltd
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Abstract

The utility model relates to a distributing type automatic switch-over supplies exhaust system, including the main cabinet body of air feed and to the fan group of the main cabinet body air feed of air feed, still include the one-level air feed cabinet body and the second grade air feed cabinet body, there are a plurality of independent spaces at the interval respectively in the factory building, and the main cabinet body of air feed is connected to the one-level air feed cabinet body and realizes to its air feed through the branch pipeline, and the one-level air feed cabinet body is connected to the second grade air feed cabinet body and realizes to its air feed through the branch pipeline, the second grade air feed cabinet body is connected to each independent space and realizes to its air feed through the branch pipeline, all is equipped with first electronic blast gate on the pipeline that accesss to each independent space. The scheme adopts the distributed mode to carry out spatial arrangement, and each independent space all supplies air inwards through controlling electronic blast gate alone, can supply to the independent space that has the needs selectively and exhaust, has avoided generally, indiscriminate to supply air to whole space. The problems of high energy consumption and poor using effect are solved.

Description

Distributed automatic switching air supply and exhaust system
Technical Field
The utility model relates to a distributing type automatic switch-over supplies exhaust system.
Background
At present, air supply and exhaust systems with corresponding discharge capacities are selected according to the size of a workshop space. If the space is bigger and bigger, the air supply quantity of the air supply and exhaust system needs to be increased in a geometric grade, and under the condition that the space is overlarge, the air supply and exhaust system with overlarge air quantity needs to be selected, so that the energy consumption is quite high.
In particular for paint shops for railway carriages, which have lengths of up to 80 m, and some have buildings of more than 100 m, the height of the buildings is between 5 and 10 m. The adopted air supply and exhaust system supplies air to the space indiscriminately, the space is kept in full-power operation all the time, and due to the large space, a plurality of areas can not be reached by the air. Not only consumes energy, but also has poor using effect.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art, the utility model aims to provide a low power dissipation, excellent in use effect's distributed automatic switch-over supplies exhaust system.
The utility model discloses the technical scheme who adopts does:
the utility model provides a distributing type automatic switch supplies exhaust system which characterized in that: the wind supply system comprises a wind supply main cabinet body 1, a fan group for supplying wind to the wind supply main cabinet body 1, a primary wind supply cabinet body 2 and a secondary wind supply cabinet body 3, wherein a plurality of independent spaces are respectively arranged in a plant at intervals, the wind supply main cabinet body 1 is connected to the primary wind supply cabinet body 2 through branch pipelines and supplies wind to the primary wind supply cabinet body 2, the primary wind supply cabinet body 2 is connected to the secondary wind supply cabinet body 3 through branch pipelines and supplies wind to the secondary wind supply cabinet body 3, the secondary wind supply cabinet body 3 is connected to each independent space through branch pipelines and supplies wind to the independent spaces, and first electric air valves 4 are arranged on the pipelines leading to each independent space; each independent space is connected to the waste gas treatment device 8 through a branch pipeline in a unified mode, the waste gas treatment device 8 is treated and then discharged, and the pipelines leading to the waste gas treatment device 8 are provided with the second electric air valves 5.
Preferably, the independent space comprises an automatic spraying room 10, a transition room 9, a first manual spraying room 6 and a second manual spraying room 7; the secondary air supply cabinet body 3 is connected to the automatic spraying room 10, the transition room 9, the first manual spraying room 6 and the second manual spraying room 7 through branch pipelines, and the first electric air valve 4 is arranged on the branch pipelines.
Preferably, the primary air supply cabinet body 2 is provided with two units, and the secondary air supply cabinet body 3 is provided with four units; the total air supply rate of the main air supply cabinet body 1 is 25 ten thousand cubic meters per hour, the air supply rate of the primary air supply cabinet body 2 of each unit is 12.5 ten thousand cubic meters per hour, and the air supply rate of the secondary air supply cabinet body 3 of each unit is 6.25 ten thousand cubic meters per hour.
Preferably, the first electric air valve 4 and the second electric air valve 5 are independently controlled to be closed or pass through air volume.
Preferably, the total length of the automatic spraying room 10, the transition room 9, the first manual spraying room 6 and the second manual spraying room 7 is 60-80 meters.
Preferably, the pipeline connected to the waste gas treatment device 8 is connected with a gas-suction pump set, and the output end of the waste gas treatment device 8 is discharged at high altitude through the pipeline.
The beneficial effects of the utility model reside in that:
1. the scheme adopts the mode of distributing type to carry out spatial arrangement, later independently sets up a plurality of processing spaces in the factory building space, and each independent space all supplies wind alone to the inside through controlling electronic blast gate, can supply to the independent space that has the needs selectively and airs exhaust, has avoided generally, indiscriminate to supply wind to whole space. The problems of high energy consumption and poor using effect are solved.
Drawings
Fig. 1 is a schematic view of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Do the utility model discloses preferred embodiment's a distributing type automatic switch-over supplies exhaust system. In the embodiment, the air supply system comprises an air supply main pipeline 1 and a fan unit for supplying air to the air supply main cabinet body 1, wherein the air supply amount of the fan unit to the air supply main cabinet body is 25 ten thousand cubic meters per hour. In addition, the present case still sets up the one-level air feed cabinet body 2 and the second grade air feed cabinet body 3, and the one-level air feed cabinet body 2 is provided with two units, and the second grade air feed cabinet body 3 is provided with four units.
A plurality of independent spaces are respectively arranged in the plant at intervals, and each independent space is divided according to a functional area. The main air supply pipeline 1 is connected to the primary air supply cabinet bodies 2 through branch pipelines and supplies air to the primary air supply cabinet bodies 2, namely the main air supply pipeline 1 is divided into two pipelines which are respectively connected to two primary air supply cabinet body 2 units and evenly distributes the air volume of the main air supply pipeline 1, and the air volume of the primary air supply cabinet body 2 of each unit is 12.5 ten thousand cubic meters per hour. The primary air supply cabinet body 2 is connected to the secondary air supply cabinet body 3 through branch pipelines and supplies air to the secondary air supply cabinet body 3, namely the primary air supply cabinet body 2 is divided into four pipelines which are respectively connected to independent spaces, and the air supply quantity of the secondary air supply cabinet body 3 of each unit is 6.25 ten thousand cubic meters per hour. The second-level air supply cabinet body 3 is connected to each independent space through a branch pipeline and supplies air to the independent spaces, and first electric air valves 4 are arranged on pipelines leading to the independent spaces. In the present embodiment, the independent spaces are the automatic painting booth 10, the transition booth 9, the first manual painting booth 6, and the second manual painting booth 7, respectively. The spaces of the automatic spraying room 10, the transition room 9, the first manual spraying room 6, the second manual spraying room 7 and the like are uniformly connected to the waste gas treatment device 8 through branch pipelines to be treated and then discharged, and second electric air valves 5 are arranged on pipelines leading to the waste gas treatment device 8.
The secondary air supply cabinet body 3 is connected to the automatic spraying room 10, the transition room 9, the first manual spraying room 6 and the second manual spraying room 7 through branch pipelines, and the first electric air valve 4 is arranged on the branch pipelines. And the first electric air valve 4 and the second electric air valve 5 are independently controlled to be closed or pass through air volume.
In this case, the total length of the automatic spray booth 10, the transition booth 9, the first manual spray booth 6, and the second manual spray booth 7 is 60 to 80 meters. And the pipeline connected to the waste gas treatment device 8 is connected with a gas-suction pump set, and the output end of the waste gas treatment device 8 is discharged at high altitude through the pipeline.
Finally, the scheme adopts a distributed mode to arrange the space, then a plurality of processing spaces are independently arranged in the plant space, each independent space can supply air to the independent space with needs selectively by controlling the electric air valve to supply air to the independent space with needs, and the universal and undifferentiated air supply to the whole space is avoided. The problems of high energy consumption and poor using effect are solved.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a distributing type automatic switch supplies exhaust system which characterized in that: the wind power generation system comprises a wind supply main cabinet body (1), a fan unit for supplying wind to the wind supply main cabinet body (1), a primary wind supply cabinet body (2) and a secondary wind supply cabinet body (3), wherein a plurality of independent spaces are respectively arranged in a plant at intervals, the wind supply main cabinet body (1) is connected to the primary wind supply cabinet body (2) through branch pipelines and supplies wind to the primary wind supply cabinet body, the primary wind supply cabinet body (2) is connected to the secondary wind supply cabinet body (3) through branch pipelines and supplies wind to the secondary wind supply cabinet body, the secondary wind supply cabinet body (3) is connected to each independent space through branch pipelines and supplies wind to the independent spaces, and first electric air valves (4) are arranged on the pipelines leading to each independent space; each independent space is connected to the waste gas treatment device (8) through a branch pipeline in a unified mode and is discharged after treatment, and a second electric air valve (5) is arranged on a pipeline leading to the waste gas treatment device (8).
2. A distributed automatic switching air supply and exhaust system according to claim 1, characterized in that: the independent space comprises an automatic spraying room (10), a transition room (9), a first manual spraying room (6) and a second manual spraying room (7); the secondary air supply cabinet body (3) is connected to the automatic spraying room (10), the transition room (9), the first manual spraying room (6) and the second manual spraying room (7) through branch pipelines, and the first electric air valve (4) is arranged on the branch pipelines.
3. A distributed automatic switching air supply and exhaust system according to claim 2, characterized in that: the primary air supply cabinet body (2) is provided with two units, and the secondary air supply cabinet body (3) is provided with four units; the total air supply rate of the air supply main cabinet body (1) is 25 ten thousand cubic meters per hour, the air supply rate of the primary air supply cabinet body (2) of each unit is 12.5 ten thousand cubic meters per hour, and the air supply rate of the secondary air supply cabinet body (3) of each unit is 6.25 ten thousand cubic meters per hour.
4. A distributed automatic switching air supply and exhaust system according to claim 1 or 2, characterized in that: the first electric air valve (4) and the second electric air valve (5) are independently controlled to be closed or pass through air volume.
5. A distributed automatic switching air supply and exhaust system according to claim 3, characterized in that: the total length of the automatic spraying room (10), the transition room (9), the first manual spraying room (6) and the second manual spraying room (7) is 60-80 m.
6. A distributed automatic switching air supply and exhaust system according to claim 3, characterized in that: and the pipeline connected to the waste gas treatment device (8) is connected with a gas-suction pump set, and the output end of the waste gas treatment device (8) is discharged at high altitude through the pipeline.
CN202022443857.4U 2020-10-28 2020-10-28 Distributed automatic switching air supply and exhaust system Active CN214487547U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022443857.4U CN214487547U (en) 2020-10-28 2020-10-28 Distributed automatic switching air supply and exhaust system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022443857.4U CN214487547U (en) 2020-10-28 2020-10-28 Distributed automatic switching air supply and exhaust system

Publications (1)

Publication Number Publication Date
CN214487547U true CN214487547U (en) 2021-10-26

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022443857.4U Active CN214487547U (en) 2020-10-28 2020-10-28 Distributed automatic switching air supply and exhaust system

Country Status (1)

Country Link
CN (1) CN214487547U (en)

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