CN214812093U

CN214812093U - Air supply structure of robot paint spraying chamber

Info

Publication number: CN214812093U
Application number: CN202022618205.XU
Authority: CN
Inventors: 沈利; 苏悦; 金长华; 李西恩; 沈国方; 金子健; 郑小艳; 宋娜; 万秀林
Original assignee: China United Engineering Corp Ltd
Current assignee: China United Engineering Corp Ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2021-11-23
Anticipated expiration: 2030-11-13

Abstract

The utility model provides a paint spray booth air feed structure of robot can effectively send to air exhaust to robot arrangement room region, prevents that the torrent from forming. The circulating air supply main pipe is connected with a circulating air outlet of the circulating air conditioner; the inlet of one of the circulating air supply branch pipes is connected with the circulating air supply main pipe, the outlet of the circulating air supply branch pipe is connected with the dynamic and static pressure chamber, the inlets of the other two circulating air supply branch pipes are connected with the circulating air supply main pipe, and the outlets of the other two circulating air supply branch pipes are respectively connected with the two transition sections; the inlet of the circulating air return pipe is connected with the Venturi chamber, and the outlet of the circulating air return pipe is connected with the circulating air inlet of the circulating air conditioner; the robot placing chamber is provided with an air inlet and an air outlet; the inlet of the self-circulation air supply pipe is connected with the air outlet of the self-circulation fan, and the outlet of the self-circulation air supply pipe is connected with the air inlet of the robot accommodating chamber; the self-circulation air valve is arranged on the self-circulation air supply pipe; the inlet of the self-circulation air return pipe is connected with the air outlet of the robot placing chamber, and the outlet of the self-circulation air return pipe is connected with the air inlet of the self-circulation fan.

Description

Air supply structure of robot paint spraying chamber

Technical Field

The utility model relates to a robot paint spray booth air feed structure.

Background

For the air supply volume that reduces the paint spray booth, traditional robot paint spray booth robot arrangement room region does not supply air, but discover in the in-service use process, this region can produce the torrent, cause the coating cloud that spouts into the robot arrangement room to beat and change in the robot arrangement room, make the coating cloud detention time overlength, can not in time subside by filtration system entrapment, thereby the coating cloud granule forms the quality that the impurity produced the product and influences, workpiece surface particle increases, the product yield is not high, rework work load is big, and further cause paint pollution to the observation window glass inner wall of room body, can't in time observe the spraying state. If the air supply is carried out, the air supply quantity of the circulating air conditioner of the spray booth is increased, so that the energy consumption and the equipment investment are increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a rational in infrastructure design's robot paint spray booth air feed structure, can effectively send the air exhaust to robot arrangement room region, prevent that the torrent from forming.

The utility model provides a technical scheme that above-mentioned problem adopted is: a robot paint spray booth air supply structure comprises a paint spray booth, a circulating air conditioner, a circulating air main supply pipe, a circulating air branch supply pipe and a circulating air return pipe; the paint spraying chamber comprises a robot placing chamber, a transition section, a dynamic and static pressure chamber and a Venturi chamber; the circulating air supply main pipe is connected with a circulating air outlet of the circulating air conditioner; the inlet of one of the circulating air supply branch pipes is connected with the circulating air supply main pipe, the outlet of the circulating air supply branch pipe is connected with the dynamic and static pressure chamber, the inlets of the other two circulating air supply branch pipes are connected with the circulating air supply main pipe, and the outlets of the other two circulating air supply branch pipes are respectively connected with the two transition sections; the inlet of the circulating air return pipe is connected with the Venturi chamber, and the outlet of the circulating air return pipe is connected with the circulating air inlet of the circulating air conditioner; the method is characterized in that: the self-circulation air supply system also comprises a self-circulation fan, a self-circulation air return pipe, a self-circulation air supply pipe and a self-circulation air valve; the robot placing chamber is provided with an air inlet and an air outlet; the inlet of the self-circulation air supply pipe is connected with the air outlet of the self-circulation fan, and the outlet of the self-circulation air supply pipe is connected with the air inlet of the robot accommodating chamber; the self-circulation air valve is arranged on the self-circulation air supply pipe; the inlet of the self-circulation air return pipe is connected with the air outlet of the robot placing chamber, and the outlet of the self-circulation air return pipe is connected with the air inlet of the self-circulation fan.

The utility model discloses still include circulation air house steward blast gate, circulation air house steward blast gate is installed on circulation air supply house steward.

The utility model discloses still include circulated air branch pipe blast gate, all install circulated air branch pipe blast gate on three circulated air supply branch pipes.

The utility model discloses still include the fire prevention blast gate, the fire prevention blast gate is installed on the self-loopa return air pipe.

The utility model discloses still include fresh air import blast gate, fresh air import blast gate is installed on the fresh air import of circulated air conditioner.

Robot arrangement room's top be provided with the air intake, the bottom is provided with the air outlet.

Compared with the prior art, the utility model, have following advantage and effect: the utility model discloses be different from robot arrangement room not air feed in the past, or from the form of circulated air conditioner air feed, and adopt independent self-loopa to supply to air exhaust to robot arrangement room, can reach the purpose that can avoid the torrent can reduce the energy consumption again, the air supply of air supply unit is compared to the energy consumption and is reduced 25%, equipment one-time investment reduces 30%, make the coating cloud can in time subside by the filtration system entrapment, the quality of product has been guaranteed, prevent to observe the paint pollution of window glass inner wall.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

The utility model discloses a paint spray booth, circulated air conditioner 1, circulated air supply house steward 2, circulated air supply branch pipe 3, circulated air return duct 4, self-looper fan 5, self-looper return duct 6, self-looper air supply duct 7, self-looper blast gate 12, circulated air branch pipe blast gate 13, circulated air house steward blast gate 14, fire prevention blast gate 15 and fresh air import blast gate 16.

The spray booth comprises a robot installation room 8, a transition section 9, a dynamic and static pressure room 10 and a venturi room 11, which are common knowledge in the field, and the specific structure of the spray booth is not described again.

And the circulating air supply main pipe 2 is connected with a circulating air outlet of the circulating air conditioner 1. And a circulating air main pipe air valve 14 is arranged on the circulating air supply main pipe 2.

The number of the circulating air supply branch pipes 3 is three. The inlet of one of the circulating air supply branch pipes 3 is connected with the circulating air supply main pipe 2, and the outlet is connected with the top of the dynamic and static pressure chamber 10; the inlets of the other two circulating air supply branch pipes 3 are connected with the circulating air supply main pipe 2, and the outlets are respectively connected with the tops of two transition sections 9 at two sides of the dynamic and static pressure chamber 10. And the three circulating air supply branch pipes 3 are provided with circulating air branch pipe air valves 13.

The inlet of the circulating air return pipe 4 is connected with the venturi chamber 11, and the outlet is connected with the circulating air inlet of the circulating air conditioner 1.

The top of the robot placing chamber 8 is provided with an air inlet, and the bottom is provided with an air outlet.

The inlet of the self-circulation air supply pipe 7 is connected with the air outlet of the self-circulation fan 5, and the outlet of the self-circulation air supply pipe is connected with the air inlet of the robot placing chamber 8. The self-circulation air valve 12 is arranged on the self-circulation air supply pipe 7.

The inlet of the self-circulation air return pipe 6 is connected with the air outlet of the robot placing chamber 8, and the outlet of the self-circulation air return pipe is connected with the air inlet of the self-circulation fan 5. The fireproof air valve 15 is arranged on the self-circulation air return pipe 6.

The fresh air inlet air valve 16 is installed on the fresh air inlet of the circulating air conditioner 1.

The utility model discloses the operation divide into the mode of spraying paint and maintains the mode:

1. when the air conditioner is in a paint spraying state, the self-circulation air valve 12, the circulation air branch pipe air valve 13 and the circulation air main pipe air valve 14 are opened, and the circulation air conditioner 1 and the self-circulation fan 5 are opened; the air supply is divided into circulating air supply and self-circulating air supply, which respectively enter a robot placing chamber 8, a transition section 9 and a dynamic and static pressure chamber 10, and are sent into areas of a paint spraying room and the robot placing chamber through a filtering system, and paint mist is pressed to a bottom paint mist Venturi filtering and dry filtering system for collection.

2. When the air conditioner is in a maintenance state, the self-circulation air valve 12 is closed, the circulation air branch pipe air valve 13 and the circulation air main pipe air valve 14 are opened, the self-circulation fan 5 is closed, and the circulation air conditioner 1 is in low-frequency operation, so that fresh air input during maintenance of workers can be guaranteed, and corresponding energy consumption can be reduced.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the utility model are included in the protection scope of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. A robot paint spray booth air supply structure comprises a paint spray booth, a circulating air conditioner, a circulating air main supply pipe, a circulating air branch supply pipe and a circulating air return pipe; the paint spraying chamber comprises a robot placing chamber, a transition section, a dynamic and static pressure chamber and a Venturi chamber; the circulating air supply main pipe is connected with a circulating air outlet of the circulating air conditioner; the inlet of one of the circulating air supply branch pipes is connected with the circulating air supply main pipe, the outlet of the circulating air supply branch pipe is connected with the dynamic and static pressure chamber, the inlets of the other two circulating air supply branch pipes are connected with the circulating air supply main pipe, and the outlets of the other two circulating air supply branch pipes are respectively connected with the two transition sections; the inlet of the circulating air return pipe is connected with the Venturi chamber, and the outlet of the circulating air return pipe is connected with the circulating air inlet of the circulating air conditioner; the method is characterized in that: the self-circulation air supply system also comprises a self-circulation fan, a self-circulation air return pipe, a self-circulation air supply pipe and a self-circulation air valve; the robot placing chamber is provided with an air inlet and an air outlet; the inlet of the self-circulation air supply pipe is connected with the air outlet of the self-circulation fan, and the outlet of the self-circulation air supply pipe is connected with the air inlet of the robot accommodating chamber; the self-circulation air valve is arranged on the self-circulation air supply pipe; the inlet of the self-circulation air return pipe is connected with the air outlet of the robot placing chamber, and the outlet of the self-circulation air return pipe is connected with the air inlet of the self-circulation fan.

2. The air supply structure of a robot paint spray booth according to claim 1, wherein: the circulating air main pipe air valve is arranged on the circulating air supply main pipe.

3. The air supply structure of a robot paint spray booth according to claim 1, wherein: the circulating air branch pipe air valves are arranged on the three circulating air supply branch pipes.

4. The air supply structure of a robot paint spray booth according to claim 1, wherein: the fire-proof air valve is arranged on the self-circulation air return pipe.

5. The air supply structure of a robot paint spray booth according to claim 1, wherein: the fresh air inlet air valve is arranged on a fresh air inlet of the circulating air conditioner.

6. The air supply structure of a robot paint spray booth according to claim 1, wherein: the top of the robot placing chamber is provided with an air inlet, and the bottom of the robot placing chamber is provided with an air outlet.