KR200356180Y1 - An air conduit system of a panel dust clearance device - Google Patents

Abstract

The present invention provides a vibration suppression device which simultaneously blows (P) and inhales (V) a certain pressure of air to remove fine dust from the surface of the LCD and PDP panel, to achieve perfect cleaning of the panel. The vibration control device can smoothly and effectively circulate to allow more stable and uniform air injection (P) and suction (V), and to minimize the load and overheating of the fan driving motor during non-operation. It relates to an air piping line system.

That is, the fan driving motor 100 is provided with a direction change valve 300 connected to the inlet 101 and the exhaust pipe 102, respectively, connected to the pipe, one end of the suction side 310 of the direction change valve 300 While having a circulation air supply valve 120, one end of the exhaust side 320 is provided with a circulation exhaust valve 130, respectively to allow the intake or exhaust of outside air, both sides of the directional valve 300 At each stage, air connection pipes 230 and 240 leading to the suction device 210 and the injection device 220 respectively installed in the vibration suppression head 200 are installed, and the other side of the suction side 310 of the directional valve 100 is installed. One end is to install the flow control valve 280, respectively.

Description

An air conduit system of a panel dust clearance device

The present invention is a vibration damping device to remove the fine dust on the surface of LCD and PDP panel by simultaneously spraying (P) and inhaling (V) air of a certain pressure through the discharge port and the suction port respectively. In the air, the air can be circulated more smoothly and effectively to achieve a more stable and uniform air injection (P) and suction (V), as well as to minimize the load of the fan drive motor generated during non-operation It relates to an air circulation control piping line.

Conventional vibration damper generates air of a constant pressure and then moves and circulates the air to simultaneously discharge (P) and intake (V) to the upper and lower surfaces of the panel through the discharge port and the suction port, such as LCD, PDP, etc. It is a device that can easily remove and remove fine dust, dust and other foreign substances that are seated on the panel during the process of moving the production process to produce the panel, and further promote the perfect cleanliness of the panel.

As described above, the conventional vibration suppression apparatus is provided with a fan driving motor that generates air during non-operation such as air spraying and inhalation, although it has a basic air circulation function required to simultaneously perform air spraying and suction as described above. There was a problem such as failure due to overheating and severely inoperable state due to the load, and should be discarded.

This problem is caused by a problem that the air generated in the air piping line installed in the vibration suppression system is not effectively circulated or automatically controlled.

On the other hand, the fan-driven motor for air production installed on one side of the air piping line in the vibration suppression system is not only a heavy weight, but also expensive, which leads to enormous losses when it is frequently broken or unusable. The loss of is also inevitable.

And fan driving motors, which are usually installed in panel damping devices such as LCDs and PDPs, generate considerable heat during operation, and if the heat is not circulated and cooled in a timely manner, the cumulative failures occur or the lifespan is abruptly shortened. In case of overheating, it causes problems such as incapacity due to overheating. Therefore, even during non-operation, it must always introduce cold air and release high temperature immediately. If the non-driving system repeatedly circulates only in the state in which the exhaust port and the intake port of the fan driving motor communicate with each other without introducing or exhausting outside air, the generated high temperature is drawn into the inlet of the motor as it is from the exhaust port of the motor. As it is repeatedly circulated to heat of higher temperature, if it lasts for a long time, the damage to the motor is inevitable.

In addition, the irrationality of the piping line acts as an obstacle to the smooth circulation of the air, which makes it difficult to supply and inhale a stable and uniform air, causing defects in the function of the vibration damper such as the removal efficiency of foreign substances on the panel. Required.

Therefore, in the present invention, not only during the vibration suppression operation in which air is injected (P) and suction (V) but also during non-operation (the fan drive motor is rotating while driving) in which the injection (P) and suction (V) are temporarily suspended. The technical task was completed with the focus on providing the air piping line system, which enables smoother and more efficient air circulation and air conditioning trawl without any load.

1 is a block diagram of the overall piping line system showing an embodiment of the present invention

2 is a detailed configuration diagram of the direction switching valve proposed in the present invention

3 is a detailed configuration diagram of the circulation air supply valve and the circulation exhaust valve presented in the present invention

■ Explanation of the major symbols used in the main parts of the drawings ■

100: fan drive motor 101: suction port

102: exhaust port 120: circulating air supply valve

121: supply air outlet 122: supply mechanism

123: Air supply fan 124: Air supply opening and closing valve

124a: Cylinder 124b: Operating rod

130: circulating exhaust valve 131: exhaust fan

200: head 210: suction device

220: spray device 230, 240: air connection piping

260: line filter 250: subslot filter

280: flow control valve 300: directional control valve

310: suction side 311: outlet

312: circulating air supply / exhaust system 313: air inlet

320: exhaust side 321: inlet

322: circulating air supply inlet 323: air output port

340: Opening and closing valve 1 350: Opening and closing valve

360: cylinder 370: opening and closing operating rod

In order to achieve the above technical problem, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the dividing direction is divided into the suction side 310 and the exhaust side 320 according to piping connected separately from each of the inlets 101 and the exhaust ports 102 of the at least one fan driving motor 100. Install the valve 300,

One end of the inlet side 310 of the directional valve 300 connected to the inlet 101 and the exhaust port 102 of the fan driving motor 100 is provided with a circulation air supply valve 120, while the exhaust side (320) One end is provided with a circulating exhaust valve 130 so that the outside air can be introduced or exhausted,

Air connection pipes 230 and 240 leading to the suction device 210 and the injection device 220 respectively installed in the vibration suppressor head part 200 are installed at both ends of the directional valve 300, respectively.

One end of the air pipe 240 on the suction side 310 of the air pipes 230 and 240 is provided with a line filter 260 for filtering dust or foreign matter from the sucked air, and the air pipe of the exhaust side 320. 230) Once installed, each of the Abslot filter 250 to pass only pure and clean air,

The other end of the direction switching valve 100, the suction side 310 is to install a flow control valve 280, respectively, to establish an air piping line.

In the above configuration, the diverter valve 300 has a valve body in which the inner space is divided into the suction side 310 and the exhaust side 320 as shown in the detailed view shown in FIG.

The inlet port 311 of the suction side 310 and the inlet port 321 of the exhaust side 320 are respectively formed to connect the inlet 101 and the exhaust port 102 of the fan driving motor 100 by connecting pipes, respectively.

At one end of the exhaust port 320, the inlet 321 is provided with a circulating air supply inlet 322 through which the outside air is introduced through the circulating air supply valve 120, while the front end of the outlet 311 is circulated. A circulating air supply exhaust pipe 312 for discharging air to the outside through the exhaust valve 130 is formed,

On one side of the outlet port 311 of the suction side 310, the air sucked from the head part 200 of the vibration suppression apparatus 220 is introduced into the body of the bidirectional switching valve 300 via the air connection pipe 240. An air inlet 313 is provided to allow the air inlet 321 to pass through the air connection pipe 230 on one side of the inlet 321 of the exhaust side 320. In the state in which the air output port 323 is formed so that each can be supplied,

The valve body may be connected between the outlet 311 and the air inlet 313 between the outlet 311 and the air inlet 313 of the inlet side 310 of the valve body, or may be blocked if necessary, as well as the valve body. While installing the opening and closing valve 1 (340) to selectively control the communication / blocking between the internal suction side 310 and the exhaust side 320,

Between the inlet 321 and the air output port 323 of the exhaust side 320 of the valve body between the inlet 321 and the air output port 323 to open or close the piston type that can be blocked if necessary. The valve 2 350 is axially installed on the opening / closing operation rod 370 which is operated at a predetermined width by the operation of the cylinder 360.

And the circulation air supply valve 120, as shown in Figure 3, one side is provided with an air supply outlet 121 to the inner side and the intake side 310 of the bidirectional switching valve 300, while the other side of the outside air It is provided with an air supply port 122 for forcibly introducing the air supply 122, the air supply unit 122 is provided with an air supply fan 123 for forcibly drawing the outside air by forcibly driven by a small motor into the valve, the inside An air supply opening / closing valve 124 for selectively closing or opening the air supply outlet 121 and the air supply 122 by the operation of the cylinder 124a includes an operation rod 124b of the cylinder 124a. It is installed on the shaft. The circulation air supply valve 120 of this configuration discharges heat generated from the fan driving motor 100 to the outside of the injector 210 and the suction device 220 of the vibration isolator head unit 200 during the damping operation. Naturally, the inflow of external air is of course smoothly circulated through the entire piping line. Therefore, the external air does not need to be introduced separately. During the damping operation, the air supply outlet 121 is blocked, and the external air is not used during non-operation. Is opened to allow forced inflow.

The circulation exhaust valve 130 has the same configuration as the circulation supply valve 120. However, as opposed to a circulating air supply valve for introducing external air, a function of releasing internal air to the outside is provided, and the air supply fan 121 and an exhaust fan 131 rotated in reverse rotation are provided.

In the air piping system of the present invention, which can be configured as described above, the opening and closing valve 1 340 is operated at the operation of the cylinder 260 during the vibration suppression operation. Since the middle portion of the side 320 is automatically shut off, the air generated from the fan driving motor 100 passes through the exhaust port 102 of the fan driving motor 100 and then the inlet 321 of the bidirectional switching valve 300. The air output port 323 and the connecting pipe 230 and the e-slot 250 of the one side that is introduced into the valve body through the communication through and then connected to the air injection device 210 of the head portion 200 in the case of a constant pressure Allow air to be exhausted,

At the other side inlet port 101 of the fan drive motor 100 exhaust port 102, the air injected from the injector 210 of the head part 200 is eliminated as the suction force corresponding to the exhaust is generated. The foreign substances such as dust and the like are collected by suction by the air suction device 220 of the head part 200 provided on one side of the injection device 210, and then pass through the connection pipe 240 and the line filter 260 for removing the foreign matter. By entering the inside of the valve body through the air inlet 313 of the bi-directional switching valve 100, and through the inlet port 311 of the communication side again flows into the inlet 101 of the fan drive motor 100 by smooth air Circulation can be planned.

In addition, the opening and closing valve 1 (340) during non-operation (the fan driving motor is in operation) in the state in which the injection and suction is suspended in the injection device 210 / suction device 220 of the vibration damper head 200. Is blocked between the inlet 321 of the exhaust side 320 and the air output port 323, the opening and closing valve 2 (350) is automatically between the outlet 311 and the air inlet 313 of the suction side (310) As the respective cutoffs, passages leading to the injection device 210 and the suction device 220 of the vibration suppression head 200 on the bidirectional switching valve 300 are completely blocked. However, only the exhaust port 102 and the suction port 101 of the fan driving motor 100 can be circulated in both directions, and each cylinder 124a of the circulating air supply valve 120 and the circulating exhaust valve 130 respectively provided at the side ends thereof is operated. By rotating the supercharge fan 123 and the exhaust fan 133, the internal high temperature air is forced to be discharged to the outside, and the external air is forced to flow to cool the high temperature generated by the motor 100. By minimizing the damage to the expensive motor 100 that can be generated by the accumulation of high temperature or overheating.

As described above, the air piping system of the present invention promotes smooth air circulation from the fan driving motor to the head sprayer and suction device as well as blocking the air supply and suction to the head sprayer and suction device during the damping operation. Efficient opening and closing of the directional valve even in the non-operation state prevents the motor load by circulating air between the exhaust port and the intake port of the fan driving motor, and the high temperature generated from the motor by the circulation supply valve and the circulation exhaust valve On the other hand, it is a very useful design to provide an optimal piping line structure, such as minimizing damage to the motor, which may be caused by the high heat that cools the motor by flowing the cold air outside.

Claims (2)

One or more fan driving motors 100 are provided with a direction switching valve 300 divided into the suction side 310 and the exhaust side 320 according to the piping connected separately to each of the inlet 101 / exhaust (102) , One end of the inlet side 310 of the directional valve 300 connected to the inlet 101 and the exhaust port 102 of the fan driving motor 100 is provided with a circulation air supply valve 120, while the exhaust side (320) One end is provided with a circulating exhaust valve 130 so that the outside air can be introduced or exhausted, Air connection pipes 230 and 240 leading to the suction device 210 and the injection device 220 respectively installed in the vibration suppressor head part 200 are installed at both ends of the directional valve 300, respectively. One end of the air pipe 240 on the suction side 310 of the air pipes 230 and 240 is provided with a line filter 260 for filtering dust or foreign matter from the sucked air, and the air pipe of the exhaust side 320. 230) Once installed, each of the Abslot filter 250 to pass only pure and clean air, The other end of the directional valve 100, the suction side 310, the flow control valve 280, respectively, characterized in that the air piping system of the panel damping device. The method of claim 1, The circulation air supply valve 120 is provided with an air supply outlet 121 inwardly connected to the suction side 310 of the bidirectional switching valve 300, while the other side is provided with an air supply 122 for forcibly introducing external air It is provided, but the air inlet 122 is provided with an air supply fan 123 for forcibly drawing outside air into the valve, the inside of the air supply outlet 121 and the operation of the cylinder 124a An air supply opening / closing valve 124 capable of selectively sealing or opening the air supply 122 is axially installed on the operation rod 124b of the cylinder 124a, The circulation exhaust valve 130 has the same configuration as the circulation air supply valve 120, but the air piping of the panel vibration suppressor, characterized in that the exhaust fan 131 is rotated in the reverse direction with the air supply fan 121. system.