CN214078189U - Ultrasonic paint removing device - Google Patents

Abstract

The utility model relates to the technical field of cleaning equipment, and discloses an ultrasonic paint removing device, which comprises an ultrasonic cleaning component, an adjusting rinsing component and a filtering recycling component; the ultrasonic cleaning component comprises an ultrasonic cleaning pool, a heater, a temperature controller and a liquid level meter, wherein the heater is arranged in the ultrasonic cleaning pool, the temperature controller is electrically connected with the heater, and the liquid level meter is arranged in the ultrasonic cleaning pool; the adjusting rinsing component comprises a primary rinsing component, the primary rinsing component comprises a primary rinsing pool, a primary adjusting pipe and a primary water pump, and the primary rinsing pool is communicated with the ultrasonic cleaning pool through the primary adjusting pipe; the filtering and recycling assembly comprises a filtering circulating pipeline, a filtering pump and a filter, the filter is communicated with the ultrasonic cleaning pool through the filtering circulating pipeline, and the filtering pump is arranged on the filtering circulating pipeline. This paint stripping device can reduce manpower resources, and the cleaning efficiency is high, can reduce the blowdown moreover, avoids the place dirty in disorder, and the water economy resource realizes the environmental protection and washs.

Description

Ultrasonic paint removing device

Technical Field

The utility model relates to a cleaning equipment technical field especially relates to an ultrasonic wave paint stripping device.

Background

In recent years, due to the environmental protection of various countries, powder coating processes, such as electrostatic powder coating processes, which do not pollute water and the atmosphere, have been rapidly developed. However, some defective products inevitably occur in the electrostatic powder coating production process, and the defective products need to be subjected to paint removal treatment; in addition, the hanger used in the production process also has the requirement of paint removal. The traditional acid and alkali treatment and burning method has serious environmental pollution and is gradually replaced by the treatment process of the environment-friendly paint remover. The method is limited by the influences of different workpiece materials, different structural complexity, different surface roughness, different powder thickness, various demoulding modes (such as dissolving type, swelling type, stripping type and mixed type) and other factors, the workpieces are still adhered to a large amount of powder slag after being treated by the environment-friendly paint remover, the binding force is strong, the workpieces are not easy to remove, the workpieces are washed by manual high-pressure water, the surfaces of the workpieces are scratched due to the fact that the workpieces collide with each other or the collision place is formed, the washing efficiency is low, the production speed is low, a large amount of human resources are occupied, the production place is dirty and messy, and particularly, the sewage treatment is a great problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide one kind can reduce manpower resources, cleaning efficiency is high, avoid the dirty indiscriminate ultrasonic wave paint stripping device who just reduces the blowdown in place.

The purpose of the utility model is realized through the following technical scheme:

an ultrasonic paint stripping apparatus comprising:

the ultrasonic cleaning assembly comprises an ultrasonic water inlet pipe, an ultrasonic cleaning pool, a heater, a temperature controller and a liquid level meter, wherein the ultrasonic water inlet pipe is communicated with the ultrasonic cleaning pool, the heater is arranged in the ultrasonic cleaning pool, the temperature controller is electrically connected with the heater, and the liquid level meter is arranged in the ultrasonic cleaning pool;

the filtering and recycling assembly comprises a filtering and recycling pipeline, a filtering pump and a filter, the filter is communicated with the ultrasonic cleaning pool through the filtering and recycling pipeline, and the filtering pump is arranged on the filtering and recycling pipeline; and

adjust the rinsing subassembly, it includes one-level rinsing subassembly to adjust the rinsing subassembly, one-level rinsing subassembly includes one-level inlet tube, one-level rinsing pond, one-level regulating pipe and one-level suction pump, the one-level inlet tube with one-level rinsing pond intercommunication, the one-level rinsing pond passes through the one-level regulating pipe with ultrasonic cleaning pond intercommunication, the one-level suction pump set up in on the one-level regulating pipe.

In one embodiment, the ultrasonic cleaning pool comprises a cleaning pool, an ultrasonic vibrator and an ultrasonic generator, wherein the ultrasonic vibrator is connected with the cleaning pool, and the ultrasonic generator is electrically connected with the ultrasonic vibrator.

In one embodiment, the filtering circulation pipeline comprises a discharge pipe and a return pipe, one end of the discharge pipe is communicated with the ultrasonic cleaning pool, and the other end of the discharge pipe is communicated with the filter; one end of the return pipe is communicated with the filter, and the other end of the return pipe is communicated with the ultrasonic cleaning pool.

In one embodiment, a drain outlet is formed in the bottommost part of the ultrasonic cleaning pool and communicated with one end of the drainage pipe.

In one embodiment, the filtration and recycling assembly further comprises an electromagnetic valve, and the electromagnetic valve and the filtration pump are respectively arranged on the drainage pipe.

In one embodiment, the filtering and recycling assembly further comprises a liquid collecting tank and a liquid collecting return pipe, the liquid collecting tank is arranged below the filter and the return pipe, one end of the liquid collecting return pipe is communicated with the liquid collecting tank, and the other end of the liquid collecting return pipe is communicated with the ultrasonic cleaning pool.

In one embodiment, one end of the primary adjusting pipe is communicated with the ultrasonic cleaning tank, and the other end of the primary adjusting pipe is communicated with the primary rinsing tank.

In one of them embodiment, adjust the rinsing subassembly and still include second grade rinsing subassembly, second grade rinsing subassembly includes second grade inlet tube, second grade rinsing pond, second grade governing pipe and second grade suction pump, the second grade inlet tube with second grade rinsing pond intercommunication, the second grade rinsing pond pass through the second grade governing pipe with first grade rinsing pond intercommunication, the second grade suction pump set up on the second grade governing pipe.

In one embodiment, the adjusting rinsing component further comprises a third-level rinsing component, the third-level rinsing component comprises a third-level water inlet pipe, a third-level rinsing pool, a third-level adjusting pipe and a third-level water pump, the third-level water inlet pipe is communicated with the third-level rinsing pool, the third-level rinsing pool is communicated with the second-level rinsing pool through the third-level adjusting pipe, and the third-level water pump is arranged on the third-level adjusting pipe.

In one of them embodiment, the ultrasonic depainting device still includes water purification retrieval and utilization subassembly, water purification retrieval and utilization subassembly includes that the water purification advances pipe, water purification return pipe, water purification pump and water purifier, the water purification advance the one end of pipe with one-level rinsing pond intercommunication, the water purification advance the other end of pipe with the water purifier intercommunication, the one end of water purification return pipe with the water purifier intercommunication, the other end of water purification return pipe with tertiary rinsing pond intercommunication, the water purification pump set up in the water purification advances on the pipe.

Compared with the prior art, the utility model discloses at least, following advantage has:

this ultrasonic wave depainting device can avoid the work piece collision to scrape the flower, reduces manpower resources, and depainting is effectual, and the cleaning efficiency is high, can reduce the blowdown moreover, avoids the place dirty in disorder, and the water economy resource realizes the environmental protection and washs.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of an ultrasonic paint remover according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an ultrasonic cleaning assembly of an ultrasonic paint remover according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a water purifier of a water purification and recycling assembly of an ultrasonic paint remover according to an embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment, referring to fig. 1 and 2, an ultrasonic paint remover 10 includes an ultrasonic cleaning assembly 110, a filtering and recycling assembly 120, and a rinsing and adjusting assembly. Ultrasonic cleaning subassembly 110 includes ultrasonic inlet tube 111, ultrasonic cleaning pond 112, heater 113, temperature controller and level gauge 115, ultrasonic inlet tube 111 with ultrasonic cleaning pond 112 intercommunication, heater 113 set up in the ultrasonic cleaning pond 112, the temperature controller with the heater 113 electricity is connected, level gauge 115 set up in the ultrasonic cleaning pond 112. The ultrasonic cleaning pool 112 comprises a cleaning pool 1121, an ultrasonic vibrator and an ultrasonic generator, wherein the ultrasonic vibrator is connected with the cleaning pool 1121, and the ultrasonic generator is electrically connected with the ultrasonic vibrator. The filtration and recycling assembly 120 includes a filtration circulation pipeline, a filtration pump 123 and a filter 124, the filter 124 is communicated with the ultrasonic cleaning tank 112 through the filtration circulation pipeline, and the filtration pump 123 is disposed on the filtration circulation pipeline. Adjust the rinsing subassembly and include one-level rinsing subassembly 130, one-level rinsing subassembly 130 includes one-level inlet tube 131, one-level rinsing pond 132, one-level regulating pipe 133 and one-level suction pump 134, one-level inlet tube 131 with one-level rinsing pond 132 intercommunication, one end of one-level regulating pipe 133 with ultrasonic cleaning pond 112 intercommunication, the other end of one-level regulating pipe 133 with one-level rinsing pond 132 intercommunication, one-level suction pump 134 set up in on the one-level regulating pipe 133.

It should be noted that, the workpiece treated by the environmental protection paint remover is placed into a cleaning tank 1121, tap water is introduced into the cleaning tank 1121 through an ultrasonic water inlet pipe 111, the water level in the cleaning tank 1121 is detected and controlled through a liquid level meter 115, the ultrasonic power and the vibration time of an ultrasonic vibrator are adjusted through an ultrasonic generator, the heating temperature and the heating time of a heater 113 are adjusted through a temperature controller, powder slag adhered to the workpiece can be efficiently removed through high temperature and ultrasonic wave combination, an electric energy source is saved, the cleaning efficiency is improved, and then the workpiece is placed into a primary rinsing tank 132 for rinsing, so that the paint removing treatment of the workpiece can be completed; the sewage in the cleaning tank 1121 is introduced into the filter 124 through the filtering circulation pipeline and the filter pump 123 for filtering treatment, and then is discharged back into the cleaning tank 1121 for recycling, so that pollution discharge can be reduced, water resources are saved, and environment-friendly cleaning is realized; after depainting or filtering, the water level in the cleaning tank 1121 is lowered, and water in the primary rinsing tank 132 is pumped into the cleaning tank 1121 through the primary adjusting pipe 133 and the primary water pump 134 to adjust the water level in the cleaning tank 1121, so that the water in the primary rinsing tank 132 can be recycled, and water energy is saved. This ultrasonic wave depainting device 10 can avoid the work piece collision to scrape the flower, reduces manpower resources, and depainting is effectual, and the cleaning efficiency is high, can reduce the blowdown moreover, avoids the place dirty in disorder, and the water economy resource realizes the environmental protection and washs.

Further, referring to fig. 1, a drain outlet is formed at the bottom of the ultrasonic cleaning tank 112, the filtering circulation pipeline includes a drain pipe 121 and a return pipe 122, one end of the drain pipe 121 is communicated with the drain outlet, and the other end of the drain pipe 121 is communicated with the filter 124; one end of the return pipe 122 is communicated with the filter 124, and the other end of the return pipe 122 is communicated with the ultrasonic cleaning tank 112. Specifically, the filtration and recycling assembly 120 further includes an electromagnetic valve 125, and the electromagnetic valve 125 and the filtration pump are respectively disposed on the drainage pipe 121. The filter pump 123 is disposed on the return pipe 122. Thus, the electromagnetic valve 125 and the filter pump 123 are opened, the sewage in the ultrasonic cleaning tank 112 is pumped into the high-level filter 124 through the drainage pipe 121, and the filtered water obtained after filtering out the powder slag passes through the multiple filter cloth under the pressure, and automatically flows back to the ultrasonic cleaning tank 112 through the return pipe 122; the powder slag is extruded into slag cakes with low water content, and the slag cakes are properly collected and then delivered to qualified professional institutions for treatment according to solid wastes.

Further, referring to fig. 1, the filtering and recycling assembly 120 further includes a liquid collecting tank 126 and a liquid collecting return pipe 127, the liquid collecting tank 126 is disposed below the filter 124 and the return pipe 122, one end of the liquid collecting return pipe 127 is communicated with the liquid collecting tank 126, and the other end of the liquid collecting return pipe 127 is communicated with the ultrasonic cleaning pool 112. Therefore, the filter 124 is a filter press, the filter cloth exposed end of the filter press and the connection part of the return pipe 122 have a dripping phenomenon, the dripping water is collected by the liquid collecting tank 126 and flows back to the ultrasonic cleaning tank 112 through the liquid collecting return pipe 127, the site pollution can be avoided, and the water resource can be saved. In addition, the filter press is always in a compressed state, and the spiral compressing device is loosened only when the slag cake is removed. The filter cloth adopted by the filter press is special cloth which is compact, anticorrosive and pressure-resistant.

Further, referring to fig. 1, the conditioning and rinsing assembly further includes a secondary rinsing assembly 140, the secondary rinsing assembly 140 includes a secondary water inlet pipe 141, a secondary rinsing tank 142, a secondary regulating pipe 143, and a secondary water pump 144, the secondary water inlet pipe 141 is communicated with the secondary rinsing tank 142, the secondary rinsing tank 142 is communicated with the primary rinsing tank 132 through the secondary regulating pipe 143, and the secondary water pump 144 is disposed on the secondary regulating pipe 143. Further, the regulated rinsing assembly further comprises a third-stage rinsing assembly 150, the third-stage rinsing assembly 150 comprises a third-stage water inlet pipe 151, a third-stage rinsing tank 152, a third-stage regulating pipe 153 and a third-stage water pump 154, the third-stage water inlet pipe 151 is communicated with the third-stage rinsing tank 152, the third-stage rinsing tank 152 is communicated with the second-stage rinsing tank 142 through the third-stage regulating pipe 153, and the third-stage water pump 154 is arranged on the third-stage regulating pipe 153. In this way, the water in the third-stage rinsing tank 152 is pumped into the second-stage rinsing tank 142 through the third-stage regulating pipe 153 and the third-stage water pump 154, the water in the second-stage rinsing tank 142 is pumped into the first-stage rinsing tank 132 through the second-stage regulating pipe 143 and the second-stage water pump 144, and the water in the first-stage rinsing tank 132 is pumped into the cleaning tank 1121 through the first-stage regulating pipe 133 and the first-stage water pump 134, so that the water in the rinsing tanks at all stages can be reasonably utilized, and the water energy is saved.

Further, referring to fig. 3, the ultrasonic paint remover 10 further includes a water purification and reuse assembly 160, the water purification and reuse assembly 160 includes a water purification inlet pipe 161, a water purification return pipe 162, a water purification pump 163 and a water purifier 164, one end of the water purification inlet pipe 161 is communicated with the first-stage rinsing tank, the other end of the water purification inlet pipe 161 is communicated with the water purifier 164, one end of the water purification return pipe 162 is communicated with the water purifier 164, the other end of the water purification return pipe 162 is communicated with the third-stage rinsing tank, and the water purification pump 163 is disposed on the water purification inlet pipe 161. Specifically, the water purifier 164 includes a stainless steel housing 1641, a first ABS filter screen 1642, a ceramic diatom membrane 1643, a maifanite filter screen 1644, an activated carbon filter screen 1645, a manganese sand filter screen 1646, a magnetite filter screen 1647, a quartz sand filter screen 1648, and a second ABS filter screen 1649, wherein the stainless steel housing 1641 is provided with a water inlet 1641a and a water outlet 1641b, and the first ABS filter screen 1642, the ceramic diatom membrane 1643, the maifanite filter screen 1644, the activated carbon filter screen 1645, the manganese sand filter screen 1646, the magnetite filter screen 1647, the quartz sand filter screen 1648, and the second ABS filter screen 1649 are sequentially disposed between the water inlet 1641a and the water outlet 1641b according to a water inlet direction. Thus, through the water purification return pipe 162 and the water purification pump 163, the sewage in the primary rinsing tank passes through the purification effects of the first ABS filter screen 1642, the ceramic diatom membrane 1643, the medical stone filter layer 1644, the activated carbon filter layer 1645, the manganese sand filter layer 1646, the magnet filter layer 1647, the quartz sand filter layer 1648 and the second ABS filter screen 1649 in sequence, and the obtained clean water flows back to the tertiary rinsing tank for recycling, so that the water energy can be saved.

Compared with the prior art, the utility model discloses at least, following advantage has:

the ultrasonic depainting device 10 detects and controls the water level in the cleaning pool 1121 through the liquid level meter 115, adjusts the ultrasonic power and the vibration time of the ultrasonic vibrator through the ultrasonic generator, adjusts the heating temperature and the heating time of the heater 113 through the temperature controller, and can efficiently remove powder slag adhered to a workpiece through high temperature and combination of ultrasonic waves, thereby saving electric energy and improving the cleaning efficiency; sewage in the cleaning pool 1121 is introduced into the filter 124 through the filtering circulation pipeline and the filter pump 123 for filtering treatment, and then is discharged back into the cleaning pool 1121 for recycling, so that pollution discharge can be reduced, water resources are saved, and environment-friendly cleaning is realized; the water in the primary rinsing pool 132 is pumped into the cleaning pool 1121 through the primary adjusting pipe 133 and the primary water pump 134 to adjust the water level in the cleaning pool 1121, so that the water in the primary rinsing pool 132 can be recycled, and the water energy is saved. This ultrasonic wave depainting device 10 can avoid the work piece collision to scrape the flower, reduces manpower resources, and depainting is effectual, and the cleaning efficiency is high, can reduce the blowdown moreover, avoids the place dirty in disorder, and the water economy resource realizes the environmental protection and washs.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An ultrasonic paint stripping apparatus, comprising:

the ultrasonic cleaning assembly comprises an ultrasonic water inlet pipe, an ultrasonic cleaning pool, a heater, a temperature controller and a liquid level meter, wherein the ultrasonic water inlet pipe is communicated with the ultrasonic cleaning pool, the heater is arranged in the ultrasonic cleaning pool, the temperature controller is electrically connected with the heater, and the liquid level meter is arranged in the ultrasonic cleaning pool;

the filtering and recycling assembly comprises a filtering and recycling pipeline, a filtering pump and a filter, the filter is communicated with the ultrasonic cleaning pool through the filtering and recycling pipeline, and the filtering pump is arranged on the filtering and recycling pipeline; and

adjust the rinsing subassembly, it includes one-level rinsing subassembly to adjust the rinsing subassembly, one-level rinsing subassembly includes one-level inlet tube, one-level rinsing pond, one-level regulating pipe and one-level suction pump, the one-level inlet tube with one-level rinsing pond intercommunication, the one-level rinsing pond passes through the one-level regulating pipe with ultrasonic cleaning pond intercommunication, the one-level suction pump set up in on the one-level regulating pipe.

2. The ultrasonic paint removing device according to claim 1, wherein the ultrasonic cleaning tank comprises a cleaning tank, an ultrasonic vibrator and an ultrasonic generator, the ultrasonic vibrator is connected with the cleaning tank, and the ultrasonic generator is electrically connected with the ultrasonic vibrator.

3. The ultrasonic paint remover according to claim 1, wherein said filter circulation line comprises a drain tube and a return tube, one end of said drain tube is communicated with said ultrasonic cleaning tank, and the other end of said drain tube is communicated with said filter; one end of the return pipe is communicated with the filter, and the other end of the return pipe is communicated with the ultrasonic cleaning pool.

4. The ultrasonic paint removing device as claimed in claim 3, wherein a drain outlet is formed at the bottommost part of the ultrasonic cleaning tank, and the drain outlet is communicated with one end of the drain pipe.

5. The ultrasonic paint removing device according to claim 3, wherein the filtering and recycling assembly further comprises an electromagnetic valve, and the electromagnetic valve and the filtering pump are respectively arranged on the drain pipe.

6. The ultrasonic paint removing device according to claim 3, wherein the filtering and recycling assembly further comprises a liquid collecting tank and a liquid collecting return pipe, the liquid collecting tank is arranged below the filter and the return pipe, one end of the liquid collecting return pipe is communicated with the liquid collecting tank, and the other end of the liquid collecting return pipe is communicated with the ultrasonic cleaning pool.

7. The ultrasonic paint remover according to claim 1, wherein one end of the primary regulating pipe is communicated with the ultrasonic cleaning tank, and the other end of the primary regulating pipe is communicated with the primary rinsing tank.

8. The ultrasonic paint stripping device according to claim 7, wherein the adjusting rinsing component further comprises a secondary rinsing component, the secondary rinsing component comprises a secondary water inlet pipe, a secondary rinsing pool, a secondary adjusting pipe and a secondary water pump, the secondary water inlet pipe is communicated with the secondary rinsing pool, the secondary rinsing pool is communicated with the primary rinsing pool through the secondary adjusting pipe, and the secondary water pump is arranged on the secondary adjusting pipe.

9. The ultrasonic paint removing device according to claim 8, wherein the adjusting rinsing component further comprises a third-stage rinsing component, the third-stage rinsing component comprises a third-stage water inlet pipe, a third-stage rinsing pool, a third-stage adjusting pipe and a third-stage water suction pump, the third-stage water inlet pipe is communicated with the third-stage rinsing pool, the third-stage rinsing pool is communicated with the second-stage rinsing pool through the third-stage adjusting pipe, and the third-stage water suction pump is arranged on the third-stage adjusting pipe.

10. The ultrasonic paint remover according to claim 9, further comprising a water purification recycling component, wherein the water purification recycling component comprises a water purification inlet pipe, a water purification return pipe, a water purification pump and a water purifier, one end of the water purification inlet pipe is communicated with the first-stage rinsing tank, the other end of the water purification inlet pipe is communicated with the water purifier, one end of the water purification return pipe is communicated with the water purifier, the other end of the water purification return pipe is communicated with the third-stage rinsing tank, and the water purification pump is arranged on the water purification inlet pipe.

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