CN116474985A - Paint waste water collection intelligent system of spray booth - Google Patents

Abstract

The invention provides an intelligent paint wastewater collection system of a paint spray booth, which comprises a wastewater collection vehicle, a paint spray booth and a paint spray booth, wherein the wastewater collection vehicle is arranged in the paint spray booth and moves in the paint spray booth, and is provided with a collector for collecting paint wastewater; a waste water storage tank arranged outside the paint spray booth; the waste water storage pool is connected with the waste water collection vehicle and is used for receiving paint waste water from the waste water collection vehicle; the waste water storage pool is provided with a sewage discharge pipe; the paint wastewater collection intelligent system of the paint spray booth adopts the wastewater collection vehicle to collect and treat paint wastewater, and the paint wastewater is conveyed to a wastewater storage pool with larger storage capacity for storage so as to be delivered to a third party for uniform wastewater treatment; moreover, the waste water collection vehicle of this application can be in the paint spray booth free movement, rather than fix in a certain position of paint spray booth to when collecting paint waste water, make things convenient for the paint spray booth improvement in the future.

Description

Paint waste water collection intelligent system of spray booth

Technical Field

The invention relates to the technical field of paint wastewater collection, in particular to an intelligent paint wastewater collection system of a paint spray booth.

Background

Corresponding paint waste water is generated in the process of paint spraying operation of a paint spray booth, and the paint waste water needs to be subjected to corresponding waste water treatment according to the environmental protection requirement so as to prevent the paint waste water from being discharged in disorder and polluting the environment. In the prior art, paint waste water generally passes through a corresponding paint waste water treatment system after being collected, the system adopts a medicine treatment mode to enable paint residues in the paint waste water to float and coagulate, and then the paint residues are scraped and discharged through a scraper and other mechanisms.

However, the process of collecting the paint wastewater is very troublesome, the paint wastewater needs to be collected in a collecting tank, and then the paint wastewater in the collecting tank is transported to a paint wastewater treatment system for treatment, so that the collection of the paint wastewater is limited by the position of the collecting tank, the position cannot be changed after being fixed, and the paint wastewater is not suitable for the reconstruction of a paint spray booth in the future; the collecting tank contains paint slag, and the paint slag is required to be manually drawn out after the paint slag is used for a certain time so as to avoid blocking the collecting tank; the water content of the drawn paint slag is still very high, and special drying equipment is adopted for drying or naturally airing in the follow-up process, so that the equipment investment and the labor are additionally increased, and the operation cost is increased. In addition, the position of the paint waste water collecting vehicle in the prior art is fixed, so that the process of collecting paint waste water becomes troublesome.

Disclosure of Invention

The invention aims to provide an intelligent paint wastewater collection system for a paint spray booth, and aims to solve the technical problem of troublesome collection of paint wastewater in the background technology.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the invention provides an intelligent paint wastewater collection system of a paint spray booth, which comprises:

the waste water collecting vehicle is arranged in the paint spray booth and moves in the paint spray booth, and is provided with a collector for collecting paint waste water;

a waste water storage tank arranged outside the paint spray booth; the waste water storage pool is connected with the waste water collection vehicle and is used for receiving paint waste water from the waste water collection vehicle; the wastewater storage tank is provided with a drain pipe.

The paint wastewater collection intelligent system of the paint spray booth adopts the wastewater collection vehicle to collect and treat paint wastewater, and the paint wastewater is conveyed to a wastewater storage pool with larger storage capacity for storage so as to be delivered to a third party for uniform wastewater treatment; moreover, the waste water collection vehicle of this application can be in the paint spray booth free movement, rather than fix in a certain position of paint spray booth to when collecting paint waste water, make things convenient for the paint spray booth improvement in the future.

In one embodiment, a moving device is arranged at the bottom of the waste water collecting vehicle, and the waste water collecting vehicle moves on the ground of the spray booth through the moving device.

In one embodiment, a quick-dismantling mechanism is arranged in the paint spray booth and is connected with the wastewater storage tank;

the waste water collection vehicle is provided with a transmission hose, and the waste water collection vehicle is detachably connected with the quick-dismantling mechanism through the transmission hose.

In one embodiment, the wastewater collection vehicle is provided with a collection chamber, a filtering mechanism and a wastewater discharge end;

the filtering mechanism is arranged in the collecting cavity and divides the collecting cavity into a water inlet area and a water outlet area;

the waste water discharge end is arranged in the water outlet area and is connected with the transmission hose;

the collector is provided with an input end which is arranged in the water inlet area.

In one embodiment, the wastewater collection vehicle is further provided with a first liquid level detector and a drain valve, which are disposed in the collection chamber; the first liquid level detector is electrically connected with the drain valve and is used for controlling the drain valve to be opened when detecting that paint wastewater in the collecting cavity reaches a preset first liquid level.

In one embodiment, the wastewater collection vehicle is further provided with a first sludge interface instrument, which is used for generating an alarm signal when detecting that the paint slag height in the water inlet area reaches a preset first paint slag height;

the waste water collecting vehicle is also provided with a prompt mechanism which is arranged on the surface of the waste water collecting vehicle; the prompting mechanism is electrically connected with the first sludge interface instrument and is used for receiving and working according to the alarm signal.

In one embodiment, the wastewater collection vehicle is further provided with a drain, which communicates with the water intake zone.

In one embodiment, the collector comprises a primary collector and a secondary collector, wherein,

the main collector is provided with a collecting end which is arranged outside the wastewater collecting vehicle;

the secondary collector is connected with the paint spraying device and is used for receiving paint wastewater from the paint spraying device.

In one embodiment, the waste water storage tank is provided with a storage cavity and a second liquid level detector, wherein the second liquid level detector is arranged in the storage cavity and is used for generating a notification signal when detecting that paint waste water in the storage cavity reaches a preset second liquid level height.

In one embodiment, the waste water storage tank is further provided with an air stirring system and a second sludge interface instrument, and the second sludge interface instrument is used for controlling the air stirring system to stir paint waste water in the storage cavity when detecting that the paint slag height in the storage cavity reaches a preset second paint slag height.

For a better understanding and implementation, the present invention is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic diagram of a paint waste collection intelligent system of a spray booth of the present application;

FIG. 2 is a schematic illustration of a wastewater collection vehicle of the present application;

fig. 3 is a schematic view of the wastewater containing tank of the present application.

Reference numerals illustrate:

10 waste water collecting vehicle, 10a water inlet area, 10b water outlet area, 110 mobile device, 111 transmission hose, 120 drain valve, 130 first liquid level detector, 141 filter cotton, 142 grid, 151 backflushing device, 152 backflushing pipe, 153 backflushing valve, 160 first sludge interface instrument, 171 main collector, 172 auxiliary collector, 180 drain outlet, 20 waste water storage pool, 210 drain pipe, 220 storage cavity, 230 second liquid level detector, 241 air compressor, 242 aeration pipe, 250 second sludge interface instrument, 30 spray painting equipment, 40 spray booth, 410 quick-dismantling mechanism.

Detailed Description

In order to better illustrate the present invention, the present invention will be described in further detail below with reference to the accompanying drawings.

It should be understood that the described embodiments are merely some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the embodiments of the present application, are within the scope of the embodiments of the present application.

The terminology used in the embodiments of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the application. As used in this application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present application as detailed in the accompanying claims. In the description of this application, it should be understood that the terms "first," "second," "third," and the like are used merely to distinguish between similar objects and are not necessarily used to describe a particular order or sequence, nor should they be construed to indicate or imply relative importance. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

Furthermore, in the description of the present application, unless otherwise indicated, "a plurality" means two or more. "and/or", describes an association relationship of an association object, and indicates that there may be three relationships, for example, a and/or B, and may indicate: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship.

Referring to fig. 1 to 3, the present invention provides an intelligent paint waste water collection system for a paint spray booth, comprising: a waste water collecting vehicle 10 provided at a paint spray booth 40 and movable within the paint spray booth 40, the waste water collecting vehicle 10 being provided with a collector for collecting paint waste water; a waste water receiving tank 20 disposed outside the paint spray booth 40; the waste water storage tank 20 is connected with the waste water collection vehicle 10 and is used for receiving paint waste water from the waste water collection vehicle 10; the wastewater storage tank 20 is provided with a drain pipe 210.

Specifically, the paint waste water collecting intelligent system of the paint spray booth adopts the waste water collecting vehicle 10 to collect and treat paint waste water, and the paint waste water is conveyed into the waste water containing pool 20 with larger storage capacity for storage so as to be delivered to a third party for uniform waste water treatment; moreover, the waste water collection vehicle 10 of the present application can freely move within the paint spray booth 40, rather than being fixed at a location within the paint spray booth 40, so as to facilitate future modification of the paint spray booth 40 while collecting paint waste water.

It should be noted that, the paint spray booth mentioned in the present application is understood to be a paint spray booth having a plurality of paint spray stations, each of which corresponds to a paint spray apparatus, each of which is responsible for performing a color spray treatment on a certain workpiece, and the paint is an aqueous paint.

In one embodiment, a moving device 110 is provided at the bottom of the waste water collecting vehicle 10, and the waste water collecting vehicle 10 is moved on the floor of the spray booth 40 by the moving device 110. Preferably, the moving device 110 is a wheel arranged at the bottom of the waste water collecting vehicle 10, so as to facilitate moving the waste water collecting vehicle 10, and the wheel can be driven to rotate by adding a motor, so as to facilitate moving the waste water collecting vehicle 10 to various positions in the spray booth 40.

In one embodiment, a quick-release mechanism 410 is disposed in the spray booth 40, and the quick-release mechanism 410 is connected to the waste water tank 20; the waste water collecting vehicle 10 is provided with a transmission hose 111, and the waste water collecting vehicle 10 is detachably connected with the quick release mechanism 410 through the transmission hose 111. The waste water collection vehicle 10 of this application is owing to use transmission hose 111 to dismantle with quick detach mechanism 410 to waste water collection vehicle 10 can not receive traditional fixed pipeline position to restrict, and waste water collection vehicle 10's position can change at any time.

Preferably, the quick release mechanism 410 comprises a quick connector for waterways or a flanged connection.

Preferably, the transmission hose is a hose with a steel wire on the periphery or a hose made of a polymeric material such as polyurethane.

In one embodiment, the wastewater collection vehicle 10 is provided with a collection chamber, a filtering mechanism, and a wastewater discharge end; the filtering mechanism is arranged in the collecting cavity and divides the collecting cavity into a water inlet area 10a and a water outlet area 10b; the waste water discharge end is provided in the water discharge area 10b and connected to the transfer hose 111; the collector is provided with an input which is arranged in the water inlet zone 10 a. The utility model provides a pass through filtering mechanism will collect the chamber and separate into water inflow district 10a and play water district 10b to carry out filtration treatment to paint waste water, avoid some large granule impurity to block up the pipeline, perhaps input to in the waste water accomodate pond 20 and deposit in the waste water accomodate pond 20. Specifically, the paint wastewater collected by the collector is input into the water inlet area 10a through the input end, and the paint wastewater in the water inlet area 10a enters the water outlet area 10b through the filtering mechanism and then is input into the wastewater storage tank 20 through the wastewater discharge end and the pipeline.

In one embodiment, the wastewater collection vehicle 10 is further provided with a first level detector 130 and a drain valve 120 disposed in the collection chamber; the first liquid level detector 130 is electrically connected to the drain valve 120, and is configured to control the drain valve 120 to be opened when detecting that the paint wastewater in the collection cavity reaches a preset first liquid level. The drain valve 120 is disposed at the bottom of the water outlet area 10b, and the paint wastewater in the water outlet area 10b is input into the wastewater storage tank 20 through the transmission hose 111 from the bottom of the water outlet area 10b through the drain valve 120.

Preferably, the drain valve 120 is a submersible sewage pump adapted to deliver liquids containing hard solids, fiber materials, and particularly dirty, sticky, slippery liquids, such as paint waste water of the present application.

Preferably, the submersible sewage pump is selected from a floating ball with an on-off function, the liquid level is limited by the aid of the floating ball, and once the liquid level in the collecting cavity reaches a designated liquid level, the submersible sewage pump is started to conveniently discharge paint wastewater.

Further, the filtering mechanism comprises filter cotton 141; the waste water collection vehicle 10 is further provided with a backflushing device 151 and a backflushing pipe 152, the backflushing device 151 is arranged in the second area, the output end of the backflushing device 151 is arranged close to the filter cotton 141, and the input end of the backflushing device 151 is connected with the drain valve 120 through the backflushing pipe 152; the recoil pipe 152 is provided with a recoil valve 153. This application is passed through filter cotton 141 is right some impurity in the paint waste water filters, and when filterable time is long, the greasy dirt in the paint waste water will be stopped up filter cotton 141's pore, lead to filter cotton 141's filtration efficiency reduces. And the backflushing device 151 is used for backflushing the filter cotton 141, so that the greasy dirt of the filter cotton 141 is washed out, and the filtering efficiency of the filter cotton 141 is ensured. The input end of the backflushing device 151 is connected with the drain valve 120 through the backflushing pipe 152, so that when the drain valve 120 discharges paint wastewater, part of paint wastewater can flow back into the backflushing device 151 through the backflushing pipe 152, and backflushing of the filter cotton 141 is achieved.

Preferably, the recoil valve 153 is controlled by a time relay so that the recoil valve 153 is opened for a set time to achieve timed recoil.

Preferably, the filtering mechanism further includes a grating 142, and the grating 142 is disposed in the water inlet area 10a and between the filter cotton 141 and the input end, so that paint wastewater input from the input end must pass through the rear of the grating 142 to contact with the filter cotton 141, and large-particle impurities can be filtered by means of the grating 142.

In one embodiment, the wastewater collection truck 10 is further provided with a first sludge interface meter 160 for generating an alarm signal when detecting that the paint slag height in the water inlet zone 10a reaches a preset first paint slag height; the wastewater collection vehicle 10 is also provided with a prompt mechanism which is arranged on the surface of the wastewater collection vehicle 10; the prompting mechanism is electrically connected with the first sludge interface instrument 160, and is configured to receive and operate according to the alarm signal. Paint slag exists in paint wastewater, the mud-water interface is continuously monitored through the first sludge interface instrument 160, the precipitated paint slag distribution and paint water interface data in the collecting cavity are measured in real time, excessive paint slag in the water inlet area 10a is avoided, and when the paint slag height in the water inlet area 10a reaches the preset first paint slag height, the current paint slag height of the wastewater collecting vehicle 10 is prompted by the prompting mechanism so as to timely inform the staff of slag removal treatment.

Wherein, because the wastewater collection vehicle 10 can freely move, the staff can remove the wastewater collection vehicle 10 to a designated place and then perform uniform deslagging treatment.

Preferably, the first sludge interface instrument 160 and the second sludge interface instrument 250 are ultrasonic sludge face-cleaning instruments, and the prompting mechanism is a signal lamp or a buzzer.

Further, the wastewater collection vehicle 10 is further provided with a sewage outlet 180, and the sewage outlet 180 is communicated with the water inlet area 10 a. After the worker moves the wastewater collection vehicle 10 to a designated place, the sewage outlet 180 is opened to perform a uniform deslagging process. Preferably, the waste water collecting vehicle 10 is further provided with a cleaning opening provided at the upper side of the waste water collecting vehicle 10, so that a worker scrapes paint residues to the drain 180 by means of a scraper by extending the scraper into the collecting chamber through the cleaning opening. Moreover, the staff can also change the filter mechanism through the clearance mouth.

Preferably, the cleaning opening can be provided with a cover plate for covering, so that paint residues are not cleaned by the cleaning opening

The cover plate is covered on the position, so that the gas of paint wastewater is prevented from escaping, and the environment is prevented from being polluted.

In one embodiment, the collector comprises a primary collector 171 and a secondary collector 172, wherein the primary collector 171 has a collection end that is externally disposed to the wastewater collection vehicle 10; the secondary collector 172 is connected to the paint spraying apparatus 30 for receiving paint waste water from the paint spraying apparatus 30. Because paint spraying apparatus 30 itself can produce certain paint waste water (for example change the in-process of other paint front row clear last time paint) according to the user demand, this application passes through the auxiliary collector 172 is collected the paint waste water of paint spraying apparatus 30, also can collect the paint waste water of spray booth 40 through main collector 171, perhaps collect the paint waste water of washing the spray gun, perhaps collect the paint waste water of wasing frock clamp etc. realization is collected the paint waste water comprehensively.

Preferably, the main collector 171 is detachably connected to the waste water collecting truck 10 so as to provide for uniform deslagging of the subsequent waste water collecting truck 10 by moving the waste water collecting truck 10 after detachment.

In one embodiment, the waste water storage tank 20 is provided with a storage cavity 220 and a second liquid level detector 230, the second liquid level detector 230 is disposed in the storage cavity 220, and the second liquid level detector 230 is used for generating a notification signal when detecting that paint waste water in the storage cavity 220 reaches a preset second liquid level. The present application detects the liquid level in the storage through the second liquid level detector 230, and generates a notification signal after the liquid level reaches a preset second liquid level, where the notification signal may be directly sent to a client of a third party, so that a worker of the third party goes to the place of the wastewater storage tank 20, and discharges paint wastewater onto a transport vehicle of the third party through the drain pipe 210, so as to perform unified wastewater treatment by the third party; the notification signal may also be sent to the manager's client so that the manager may notify the third party for processing.

The transmission process and means of the notification signal may be that the notification signal is sent to a computer or a control chip, and then the relevant signal is sent to the client by a router or the like, or may be processed by other conventional technical means.

In one embodiment, the waste water storage tank 20 is further provided with an air stirring system and a second sludge interface meter 250, and the second sludge interface meter 250 is used for controlling the air stirring system to stir the paint waste water in the storage cavity 220 when detecting that the paint slag height in the storage cavity 220 reaches a preset second paint slag height. The application is that the muddy water interface is continuously monitored through the second sludge interface instrument 250, and the paint slag distribution and the paint water interface data of the sediment in the storage cavity 220 are measured in real time, so that the air stirring system is controlled to work, and the paint wastewater in the storage cavity 220 is stirred.

In one embodiment, the wastewater storage tank 20 is further provided with an air stirring system, which includes an air compressor 241 and an aeration pipe 242 connected to the air compressor 241, and the aeration pipe 242 is disposed in the storage chamber 220. Although the waste water collecting vehicle 10 is provided with a filtering mechanism for filtering the large-particle impurities, a part of small paint residues still exist in the waste water containing tank 20, and gradually increase with time, the paint residues are deposited at the bottom of the storage cavity 220, and are difficult to be discharged to a third-party carrier vehicle through the drain pipe 210. For this reason, this application passes through air compressor 241 among the air stirring system produces the air to through aeration tube 242 is in produce the bubble in the bin 220, make the paint waste water in the bin 220 flow, conveniently discharge through blow off pipe 210 after forming the mud water mixture, just so can avoid paint slag to take place to deposit in the bin 220 bottom.

In order to further increase the storage capacity, the number of the wastewater storage tanks 20 is two, and the two wastewater storage tanks 20 are communicated through a normally open isolation valve.

Further, this paint waste water collection intelligent system of spray booth still sets up the camera and comes right waste water is accomodate pond 20 and third party's paint waste water collection process and is shot to monitor the running situation.

Variations and modifications to the above would be obvious to persons skilled in the art to which the invention pertains from the foregoing description and teachings. Therefore, the invention is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the invention should be also included in the scope of the claims of the invention. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present invention in any way.

Claims (10)

1. Paint waste water collection intelligent system of spray booth, its characterized in that includes:

the waste water collecting vehicle is arranged in the paint spray booth and moves in the paint spray booth, and is provided with a collector for collecting paint waste water;

a waste water storage tank arranged outside the paint spray booth; the waste water storage pool is connected with the waste water collection vehicle and is used for receiving paint waste water from the waste water collection vehicle; the wastewater storage tank is provided with a drain pipe.

2. The intelligent paint waste collection system for a paint spray booth according to claim 1, wherein:

the bottom of waste water collection car is provided with mobile device, waste water collection car passes through mobile device is in subaerial the spray booth.

3. The intelligent paint waste collection system for a paint spray booth according to claim 1, wherein:

a quick-dismantling mechanism is arranged in the paint spray booth and is connected with the wastewater storage pool;

the waste water collection vehicle is provided with a transmission hose, and the waste water collection vehicle is detachably connected with the quick-dismantling mechanism through the transmission hose.

4. A paint waste collection intelligent system for a paint spray booth according to claim 3, wherein:

the waste water collecting vehicle is provided with a collecting cavity, a filtering mechanism and a waste water discharge end;

the filtering mechanism is arranged in the collecting cavity and divides the collecting cavity into a water inlet area and a water outlet area;

the waste water discharge end is arranged in the water outlet area and is connected with the transmission hose;

the collector is provided with an input end which is arranged in the water inlet area.

5. The intelligent paint waste collection system for a paint spray booth according to claim 4, wherein:

the waste water collecting vehicle is also provided with a first liquid level detector and a drain valve, which are arranged in the collecting cavity; the first liquid level detector is electrically connected with the drain valve and is used for controlling the drain valve to be opened when detecting that paint wastewater in the collecting cavity reaches a preset first liquid level.

6. The intelligent paint waste collection system for a paint spray booth according to claim 4, wherein:

the wastewater collection vehicle is also provided with a first sludge interface instrument which is used for generating an alarm signal when detecting that the paint slag height in the water inlet area reaches a preset first paint slag height;

the waste water collecting vehicle is also provided with a prompt mechanism which is arranged on the surface of the waste water collecting vehicle; the prompting mechanism is electrically connected with the first sludge interface instrument and is used for receiving and working according to the alarm signal.

7. The intelligent paint waste collection system for a paint spray booth according to claim 6, wherein:

the waste water collecting vehicle is also provided with a sewage outlet which is communicated with the water inlet area.

8. The intelligent paint waste collection system for a paint spray booth according to claim 1, wherein:

the collector comprises a main collector and a secondary collector, wherein,

the main collector is provided with a collecting end which is arranged outside the wastewater collecting vehicle;

the secondary collector is connected with the paint spraying device and is used for receiving paint wastewater from the paint spraying device.

9. The intelligent paint waste collection system for a paint spray booth according to claim 1, wherein:

the waste water storage pool is provided with a storage cavity and a second liquid level detector, the second liquid level detector is arranged in the storage cavity, and the second liquid level detector is used for generating a notification signal when detecting that paint waste water in the storage cavity reaches a preset second liquid level height.

10. The intelligent paint waste collection system for a paint spray booth according to claim 9, wherein:

the waste water storage tank is further provided with an air stirring system and a second sludge interface instrument, and the second sludge interface instrument is used for controlling the air stirring system to stir paint waste water in the storage cavity when detecting that the paint slag height in the storage cavity reaches the preset second paint slag height.