KR200226446Y1 - Colandering paints particulate auto skimmer system - Google Patents

Abstract

The present invention is a solenoid (SOLENOID) for controlling the air circulation path in accordance with the change of the power supply by the operation of the sensor, and the air compressed at a constant pressure to the skimmer (SKIMMER), which is a collector filtering device adjacent to the solenoid (SOLENOID) Diagram valve (DIAGRAM VALVE) for controlling the injection of the air, the air tank (AIR TANK) is fastened to the diagram valve (DIAGRAM VALVE) and stores the corresponding compressed air, and air for providing air to the air tank To protect the service unit (AIR SERVICE UNIT), the rodless cylinder and the LM GUIDE, the rodless cylinder and the LM GUIDE used for the movement of the skimmer A barrier film that can be controlled to open and close freely, a rotating cylinder providing a rotational movement to a landing net attached to a skimmer, and the rotating cylinder. Air nozzle pipe (AIR NOZZLE) in which air is injected to remove dust adhering to land net by input pressure value of diagram valve PIPE), a main control box (MAIN CONTROL BOX) for controlling the operation of the above components, and a circulation pump and generator that circulates in the flow of water from which dust is removed by the above.

According to the present invention, when collecting paint sprayed from a spray gun (spray gun), etc. using water during painting work, it automatically filters the shingles applied to the water surface to improve the working environment and work efficiency. According to the working environment, the air pressure according to the air pressure gauge and the operation of the skim device (SKIMMER) are controlled through the sensor and the solenoid, so it is easy to control according to the difficulty level, maximizing the work efficiency and optimizing the working environment. It can be done.

Description

Paint dust filtration automation system {COLANDERING PAINTS PARTICULATE AUTO SKIMMER SYSTEM}

The present invention relates to a filtering device for powdered water generated in a water booth, which is a treatment facility for paints scattered during painting work, and more specifically, for painting work such as spray guns. Water spray booth type (WATER SPRAY BOOTH TYPE) water booth to prevent contamination of the work space by the spray paint which is not included in the paint adsorbed on the surface of the product through the work process. The present invention relates to a paint dust filtration automation system that can be filtered.

In general, in the industrial equipment used for the painting facilities, in particular, in the working environment in which spray painting is performed, various industrial equipments are used to prevent the diffusion of paint dust generated during the painting work into the atmosphere.

In the dust collecting equipment used in the painting equipment, two stage water flow plates are made in the circulating flow water, and an air inlet is formed in the space therebetween to separate the sucked air from the air and to remove the dust from the air. It will be described for the water booth having a function to be adhered to the water by.

Conventional water booth is a process of circulating by the circulating pump is adsorbed in the air splashing water in the circulating flow water is loaded in the lower water tank and then circulated by the circulating pump again.

At this time, there is no automated equipment to properly filter out the dust adsorbed to the water tank of the lower part, and the manpower has been repeated to filter it by the mandrel while moving from the lower water tank to the auxiliary water tank.

However, in the conventional manual work of the coating of the waste, it is necessary to separate the painting work and the filtration work, so that the overall work time is increased and the work efficiency is deteriorated, and the labor cost is increased and the human precision of the expensive equipment is increased. There is a drawback that becomes a factor which increases the failure rate by the member.

The present invention has been made to solve the above problems, as a system for automating the filtration of dust adsorbed to the flowing water flowing through the water plate of the water booth and collected in the water tank, the double by manual during the filtration of dust The purpose of the present invention is to provide an automated paint filtration system that prevents the delay of work time and the loss of work efficiency and prevents malfunction or unreasonable operation of the entire equipment by means of control devices using sensors and solenoids. have.

1 is an overall configuration showing a dust filtration automation system of the present invention

Figure 2a is a perspective view of the main portion showing an embodiment of the initial operating state according to the present invention

Figure 2b is a perspective view showing an embodiment of the dust collection state according to the present invention

Figure 2c is a perspective view showing the operating state of the filtering device (SKIMMER) according to the present invention

Figure 3 is an operating state of the air nozzle pipe (AIR NOZZLE PIPE) according to the present invention

Figure 4 is a state of use of the water booth (WATER BOOTH) attached to the system of the present invention.

** Description of symbols for the main parts of the drawing **

1: filtration automation system 2: Landing net

3a, 3b: LM GUIDE 4: ROTATOR CYLINDER

5a, 5b, 5c, 5d, 5e: Sensor 6: Cylinder

7: AIR SERVICE UNIT 8: AIR TANK

9: Air nozzle pipe 10: Parting box

11: DIAGRAM VALVE 12: AIR HOSE

13a, 13b: solenoid 14: filter device

15: rodless cylinder 16: barrier film

17: MAIN CONTROL BOX

Paint dust filtration automation system according to the present invention for achieving the above object, by the sensor 5a to 5e and the solenoid (SOLENOID) 13a, 13b signal in the auxiliary water tank (17). It is attached to the cylinder to move the up and down reciprocating landing net (2) in conjunction with the strainer (SKIMMER) 14, the strainer (SKIMMER) 14, and the strainer (SKIMMER). ROTATOR CYLINDER 4 for rotating the LANDING NET 2, and RODLESS CYLINDER 15 and EL for providing a travel path for the SKIMMER 14. LM GUIDE 3a, RODLESS CYLINDER 15, LM GUIDE 3a, and barrier film 16 provided over the front of LM GUIDE 3a, and landing net 2 Air supply box 10 for holding the dust residue filtered by the air, and air for blowing air so that the residue of the residue is not buried in the landing net (2) Air nozzle unit (AIR NOZZLE PIPE) (9), the air tank (AIR TANK) 8 for providing air to the pipe (9), and the air service unit for supplying air to the AIR TANK (8) (AIR SERVICE UNIT) (7), diagram valve (DIAGRAM VALVE) (11) for controlling the compressed air of the air tank (AIR TANK) 8 to be injected at a constant pressure, and the sensor for controlling the operation of the system Parts 5a to 5e, solenoids 13a and 13b for switching the flow by controlling the air by the sensor parts 5a to 5e, and a main control box for controlling the power of the system. It is characterized by including (17).

In the paint dust filtration automation system according to the present invention, it is preferable that the SKIMMER 14 is provided with an LM GUIDE 3b to reduce the flow error during the vertical operation of the cylinder 6. Do.

ROTATOR CYLINDER (4) in the strainer (SKIMMER) 14 according to the present invention is designed to perform a rotational movement having an inclination angle of 90 degrees to more reasonably enable the collection and separation of dust by gardening It is preferable.

Diagram valve (DIAGRAM VALVE) 11 according to the present invention is controlled through the pressure gauge of the air service unit (AIR SERVICE UNIT) (7) compressed air stored in the air tank (AIR TANK) (8) 5-6 It is preferable to design to blow off the paint residue adhering to the landing net (2) by spraying with air of kgf / ㎠ (71 ~ 85psi).

The LM GUIDE 3a and the rodless cylinder 15, which provide a movement path of the scavenging device SKIMMER 14 according to the present invention, prevent moisture and corrosion by dust. It is preferable to configure and install the blocking film 16 to be folded in a zigzag so that the opening and closing is freely adjusted for life extension.

In the solenoid (SOLENOID) (13a, 13b) according to the present invention, the air is fastened with the solenoid (SOLENOID) (13a, 13b) in order to smooth the flow of the switched air operated by the sensors (5a-5e) Since the air hose 12 is mounted with the skimmer 14, it is preferable that the hose 12 be manufactured in a spring form.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram showing a dust filtration automation system according to the present invention. Referring to FIG. 1, the filtration automation system of the present invention includes a garden blade (2), an EL guide (3a, 3b), a rotating cylinder (4), a sensor (5a, 5b, 5c, 5d, 5e), a cylinder (6), Air service unit (7), air tank (8), air nozzle pipe (9), contact box (10), diagram valve (11), air hose (12), solenoid (13a, 13b), filter device (14) And a rodless cylinder 15, a blocking film 16, a main control box 17, and the like.

More specifically, the pressure of the air flowing into the air tank 8 is configured to be adjustable through the gauge of the air service unit 7, and is stored and compressed in the air tank 8 and again through the diagram valve 11. It is adjusted to a constant pressure so that the air pressure is blown out through the air nozzle pipe 9.

In addition, as the strainer 14 moves on the side of the rodless cylinder 15, a signal is supplied to the rotating cylinder 4 of the strainer 14 to drive the cylinder 6 mounted on the strainer 14. The sensors 5a and 5c to transmit are provided.

The solenoids 13a and 13b operated by the sensors 5a to 5b are configured to switch and adjust the pneumatic operation to the strainer 14 and the diagram valve 11 through the air hose 12. .

The operation of the present invention configured as described above will be described.

Unreferenced reference numeral 18 is a water booth, 19 is a water tank, 20 is an auxiliary water tank, 21 is a two-stage water plate, and 22 is dust.

When the power switch of the main control box 17 is operated, current is supplied from the power unit to operate the filtration automation system 1.

The power supplied in this way first transmits a signal to the sensor 5e and lowers the cylinder 6, and a signal is transmitted to the sensor 5a by the lowered cylinder 6 again and mounted on the strainer 14 ( It drives the rotating cylinder 4 which rotates 2) at an inclination angle of 90 degrees, which in turn activates the solenoid 13b, whereby the pressure of air from the solenoid 13b flows into the catcher 14 through the air hose 12. Thus, the strainer 14 is moved forward.

The moving device 14 thus moved reaches the position of the sensor 5b of the rodless cylinder 15, and at this time, a signal is transmitted to the sensor 5d of the filtering device, thereby blocking the air pressure of the solenoid 13b and filtering The movement of the device 14 is stopped and the process of raising the cylinder 6 is performed sequentially.

When the cylinder 6 is raised through such a sequential process, the sensor 5b is operated to transmit a signal to the solenoid 13b and the air pressure flows into the strainer 14 to advance the strainer 14. do.

Then, the moving device 14 reaches the position of the last sensor 5c portion of the rodless cylinder 15, so that the sensor 5c operates to block the air pressure by the solenoid 13b, and the landing net 2 Drive the rotary cylinder 4 again to have an inclination angle of 90 degrees and transmit a signal to the solenoid 13a again so that the compressed air in the air tank 8 is supplied to the air nozzle pipe at a constant pressure input by the diagram valve 11. Allow spraying through (9).

Accordingly, the dusts 22 picked up by the garden cloth 2 are collected in the junction box 10 by the driving of the rotating cylinder 4, and the extra dust 22 buried in the garden cloth 2 is also air. It can be completely removed by the pressure of the air injected from the nozzle pipe (9).

When this process is completed, the solenoid 13b is operated again by the signal of the sensor 5c to switch the flow of air, and the strainer 14 moves to its original state, and reaches the position of the sensor 5a. When the signal is transmitted to the sensor 5e, the solenoid 13b is controlled and the above work process is repeatedly performed.

In addition, the solenoid (13b) is basically automated but the setting button (SETTING BUTTON) is equipped to enable manual control according to the unavoidable case in the work process, it is easy to recover the difficulty of the work and the error in the work performance.

According to the present invention, it is possible to maximize the work efficiency by optimizing the dust and the like in the water booth absorbing the fugitive paint generated during the painting work, to optimize the environment-friendly and sophisticated purification work, the device at the time of filtration By controlling various working operations by sensors and solenoids to prevent malfunction or unreasonable operation in advance, it has the effect of reducing the labor cost, reducing the working time, and minimizing the pollutants drained, thus playing a role in protecting the environment.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical idea of the present invention, and such modifications and modifications belong to the appended utility model registration claims. will be.

Claims (4)

In the configuration of the system for automating the dust filtration of the water booth (WATER BOOTH) to suck and filter the non-acid paint generated during the painting work, A skimming device (SKIMMER) for reciprocating forward and backward by a sensor and a solenoid signal in an auxiliary tank; A cylinder which interlocks with the above-mentioned strainer SKIMMER to move the landing net up and down; A rotating cylinder attached to the skimming device and rotating at a predetermined angle to the landing net; A rodless cylinder and an LM GUIDE providing a movement path of the filter device SKIMMER; A blocking film disposed over the entire surface of the rodless cylinder and the LM guide; A junction box for holding dust particles filtered by a landing net; An air nozzle pipe (AIR NOZZLE PIPE) for blowing air so that the residue of this residue does not bury in the landing net; An air tank for providing air to the pipe; An air service unit (AIR SERVICE UNIT) for providing air to the air tank; A diagram valve (DIAGRAM VALVE) for controlling the compressed air of the air tank to be injected at a predetermined pressure; A solenoid for controlling the air to switch the flow; A sensor unit for controlling the operation of the solenoid; Paint dust filtration automation system comprising a main control box (MAIN CONTROL BOX) for controlling the operation and power of the system. The method of claim 1, Paint dust filter automation system characterized in that it has a sensor unit for controlling the solenoid to operate in conjunction with the filter (SKIMMER) and the cylinder mounted thereto. The method of claim 1, And a diagram valve (DIAGRAM VALVE) for setting and providing the air pressure input to the air nozzle pipe having an arbitrary perforated groove. The method of claim 1, In the anti-moisture and dust absorption blocking membrane of the rodless cylinder and the LM guide, paint dust filtration having a folding structure that does not impede the movement of the skimmer. Automation system.