KR100359735B1 - Washing apparatus for belt type filter of dehydrator - Google Patents

Abstract

The present invention relates to a filter cloth cleaning device of an industrial dewatering device for cleaning belt type filter cloth by spraying recycled water (selected wastewater) through a nozzle, the main object of the invention is to automatically adjust the pressure in the water supply pipe with an electronic opening and closing valve Another object is to allow the variable nozzle to operate normally by preventing foreign matter from remaining inside the variable nozzle. On the other hand, a spray guide groove is provided on the end face of the variable nozzle. By forming a new shape, the object is to have a more favorable spray pattern and spray amount for cleaning the filter cloth.

The filter cloth cleaning device of the present invention for achieving the above object is a water supply pipe 120 rolled along the width below one side of the belt filter cloth 14, and a plurality of variable nozzles installed at any interval on the water supply pipe. 130, the pressure sensor 150 connected to measure the water pressure of the water supply pipe, the manual valve 160 connected to the inlet of the water supply pipe, and the electronic opening and closing connected to the water supply pipe 120 It is composed of a valve 170 and a control mechanism 180 for driving the electronic opening and closing valve by receiving information from the pressure sensor 150.

Description

Washing apparatus for belt type filter of dehydrator

The present invention relates to a filter cloth cleaning device of an industrial dewatering device for cleaning belt type filter cloth by spraying recycled water (selected wastewater) through a nozzle, and more particularly, when the nozzle for spraying recycled water is blocked by foreign matter. It is characterized by being able to carry out the cleaning operation continuously while removing the foreign matter automatically without stopping the operation of the whole device.

1 and 2 show an example of the configuration of the industrial dehydration device.

That is, Figure 1 shows a filter cloth washing device used in the wastewater treatment apparatus using a belt filter cloth, Figure 2 shows a felt washing device used in the papermaking device to dehydrate the water of the paper pulp using the felt.

Referring to the wastewater treatment apparatus of FIG. 1, the belt-type filter cloth 14 is circulated and rotated on the driving roller 11 and the driven roller 12 on both the left and right sides, and the idle roller 13 below. When the wastewater (W) is supplied to the filter cloth 14, foreign matters (S) of the wastewater are collected in the foreign matter collection container 15 while being filtered by the belt-type filter cloth 14, and the filtered wastewater collects the drip tray 16. Therefore, it is supposed to be sent to the next step.

And the filter cloth 14 is poured down the foreign material (S) in one side of the collecting container (15) is rotated to the upper side to filter the waste water again circulating upwards so that the washing with the filter cloth washing device 100 to increase the filtration efficiency Done.

Meanwhile, referring to the papermaking apparatus of FIG. 2, the first dehydration process 20a and the second dehydration process 20b are used, and the jet cleaning device 100a is used for each process, and the jet injection device 100b is used. Optionally used.

That is, the primary dehydration process (20a) is also supplied to the drive roller (11), driven roller (12), idle roller (13) by rotating the throttle (14a) in the state of rotating the pulp mixed water The silver falls under the bolt 14a and is drained through the drip tray 16, and the pulp P is passed to the next secondary dewatering process 20b.

The secondary dewatering process (20b) is also made to circulate and rotate the bolt 14a on the driving roller (11), the driven roller (12), and the idler roller (13). The press roller set 17 is provided above and below 14a, and the pulp is pressed and squeezed.

The jet cleaning apparatus 100a used in the first dehydration process 20a and the second dehydration process 20b has the same shape, and is also the same as the filter cloth cleaning device 100 described in FIG. 1. Is different from only the spray nozzle.

3, a plurality of nozzles 110 for injecting recycled water, that is, primary filtered wastewater, a water supply pipe 120 in which the nozzles are installed, a manual valve 160 of the water supply pipe, and a water supply It consists of a pump (not shown) for sending water to the pipe.

And the nozzle 110, as shown in Figure 4 after welding the fastener 112 having a female screw 111 to the feed pipe 120 first, and then a nozzle having a hexagonal surface portion 113 to the female screw 111 The male thread 114 of 110 is screwed and fastened.

On the other hand, since the nozzle 110 uses recycled water, the nozzle hole 115 is frequently clogged. If the nozzle hole 115 is blocked, the cleaning efficiency is inevitably stopped, so the whole wastewater treatment system is unavoidably stopped. After the removal, there is a problem in that the nozzle is separated and the nozzle hole 115 is drilled and reassembled and restarted.

Therefore, in recent years, the new nozzle as shown in Figure 5 has been improved to use.

The new nozzle is a variable nozzle 130, which has a male screw portion 131 and a hexagonal portion 132, a nozzle case 134 having an injection hole 133 at an end surface thereof, and a coil spring 135 inserted therein. And, it is inserted into the nozzle case 134 so as to be coalesced in the coil spring 135, while splitting in half along the diameter tapered portion (136a) of the front end into the injection hole 133, the nozzle hole (136b) Rubber to be fitted in the annulus groove 136d so as not to be separated by the locking step 137 of the nozzle case 134 while tying the operating member 136 and the rear end of the operating member 136 into which the size of the operating member 136 can be varied. It consists of a packing 138.

When the water pressure in the water supply pipe 120 is moderately high, the operation member 136 including the rubber packing 138 presses the coil spring 135 in the nozzle case 134 and moves forward, and the operation member 136 Is advanced, the tapered portion 136a at its tip enters the injection hole 133, so that the divided nozzle hole 136b becomes smaller.

As the nozzle hole 136b becomes smaller, the blowing force for shooting water increases, so that the effect of washing the filter cloth is increased.

Then, when the smaller nozzle hole 136b is clogged with foreign matter, the driver who operates the wastewater treatment device stops supplying water to the water supply pipe 120.

When the water supply is stopped, the water pressure inside the water supply pipe 120 drops, so that the operating member 136 in the variable nozzle 130 is retracted by the force of the coil spring 135, and the operating member 136 retreats. As the inner end is ejected from the injection hole 133 and the divided part is opened, the foreign matter trapped in the nozzle hole 136b is automatically ejected.

When the foreign matter is removed to supply water back to the water supply pipe 120 so that the filter cloth cleaning operation can proceed continuously.

However, the filter cloth cleaning device as described above has the following disadvantages.

First, when the variable nozzle 130 cuts off the water supply, foreign substances caught in the nozzle hole 136b are automatically released, but the valve opening and closing operation for blocking the water supply must be performed manually by hand. The entire automatic operation of this cumbersome wastewater treatment system is not possible.

Second, the variable nozzle 130 has the advantage that the foreign matter is automatically released when the water pressure is lowered, foreign matter in the coil spring 135 mounting portion, or the rubber packing 138 mounting portion instead of the nozzle hole (136b). This tends to be pinched.

When foreign matter is accumulated around the coil spring 135 as described above, the operation of the operation member 136 becomes impossible, and thus there is a problem that the enlargement / reduction operation of the nozzle hole 136b becomes impossible.

Third, in general, the nozzle 130 forms a V-shaped injection guide groove 136c at the end surface of the nozzle hole 136b in order to widen the spraying width of the water to be sprayed. As shown in FIG. 7, since both ends have a small end portion and a centralized type with a large number of nozzles, as shown in FIG. 7, even though several nozzles 130 are arranged at appropriate intervals along the longitudinal direction of the water supply pipe 120. It is not uniform and not effective for cleaning filter cloth.

The present invention has been made to solve the conventional problems as described above, the first object of the invention is to automatically adjust the pressure in the water supply pipe with an automatic valve including a sensor while using a variable nozzle that can be changed in the size of the nozzle hole It is designed to be able to operate continuously while automatically removing foreign substances caught in the nozzle.

The second object is to configure a variable nozzle that can be changed in the size of the nozzle hole, so that foreign matter does not remain in the inside of the variable nozzle to be able to operate normally without losing the function of the variable nozzle.

The third object is to improve the injection guide groove next to the nozzle hole of the variable nozzle to a new shape so as to have a more favorable injection pattern and injection amount for cleaning the filter cloth.

The filter cloth cleaning device of the present invention for achieving the above object is a belt-type filter cloth on the driving roller and the driven roller, and the idler roller below it to rotate the circulation, supplying the waste water to the filter cloth, the foreign matters of the waste water belt type In the industrial dewatering device which is collected by the filter cloth and collected in the foreign matter collector of one side, and the filtered wastewater is sent to the next process along the drip tray, the water supply soaked along the width of the filter cloth below one side of the belt-type filter cloth A pipe, a plurality of variable nozzles installed at arbitrary intervals on the water supply pipe, a pressure sensor connected to measure the internal pressure of the water supply pipe, a manual valve connected to an inlet of the water supply pipe, and the water supply Electromagnetic open / close valve connected to the pipe and the electromagnetic open / close valve are operated by receiving information from the pressure sensor. The key is to configure a control mechanism.

1 is a block diagram of a sewage treatment apparatus using a filter cloth

2 is a block diagram of a papermaking apparatus using a bolt

Figure 3 is a block diagram showing a conventional filter cloth cleaning device

4 is a cross-sectional view of a nozzle used in a conventional washing apparatus

5 is a cross-sectional view showing a conventional improved nozzle.

6 is an explanatory diagram of a spray pattern and a spray amount of a conventional nozzle;

Figure 7 is a block diagram showing a washing apparatus of the present invention

Figure 8 is a cross-sectional view of the injection state of the nozzle used in the washing apparatus of the present invention

Figure 9 is an exploded perspective view showing a variable nozzle of the present invention

10 is a cross-sectional view of a non-injected state of the variable nozzle of the present invention.

11 is an explanatory diagram of a spray pattern and a spray amount of a nozzle of the present invention;

12 is a cross-sectional view showing another nozzle configuration of the present invention.

<Code Description of Main Parts of Drawing>

100: filter cloth cleaning device 120: water supply pipe

140: variable nozzle 150: pressure sensor

160: manual valve 170: solenoid valve

143: injection hole 144: nozzle case

145: spiral pipe spring 146: operating member

147: Hanging jaw 148: Round packing

149: spring bearing ring

Hereinafter, the configuration and operation of the present invention in more detail.

Figure 7 shows the overall filter cloth cleaning apparatus according to a preferred embodiment of the present invention, the water supply pipe 120 and the horizontal along the width of the filter cloth, a plurality of variable nozzles 140 installed at any interval on the water supply pipe. And a pressure sensor 150 connected to measure the internal pressure of the water supply pipe, a manual valve 160 connected to an inlet of the water supply pipe, and an electromagnetic open / close valve connected to the water supply pipe 120. 170, and a control mechanism 180 for driving the electronic opening and closing valve by receiving information from the pressure sensor 150.

And the variable nozzle 140 of the present invention as shown in Figures 8 and 9 male threaded portion 141 for screwing into the fastener of the water supply pipe 120, the hexagonal portion 142 of the outer periphery, A nozzle case 144 having a dispensing hole 143 at its end face and a packing 143a therein, a spiral pipe spring 145 embedded in an internal space of the nozzle case 144, and the spiral pipe Inserted into the nozzle case 144 so as to be coalesced in the spring 135, the tapered portion 146a at the front end, the annulus annulus 146e at the end, the annular groove 146d at the rear end, and the nozzle hole at the inner center ( An actuating member 146 symmetrically split along the diameter with 146b), a spring bearing ring 149 interposed between the spiral pipe spring 145 and the actuating member 146, and the actuating member 146 The inner diameter is fitted to the inner diameter of the nozzle case (144) It is composed of a rubber packing 148 to be hung on the departure-avoidance (147).

At this time, the characteristics of the variable nozzle 140 of the present invention are as follows.

The O-ring packing 143a is inserted into the circular hole 143 of the nozzle case 144 so that water does not leak through the circular hole 143 and the tapered portion 146a when spraying water. The support ring 149 forms a protrusion 149a at its rear side, and a support ring 146h is formed at the flange portion 146g of the operation member 146 to be pushed back by the spiral pipe spring 145. When 149 pushes the support seat 146h of the flange portion 146g, the tip of the divided operating member 146 is opened as shown in FIG.

In addition, the annular groove 146d of the operation member 146 is formed to be inclined toward the rear side, and a large chamfer 146i is formed in the center so that the rubber packing 148 fitted therein forms an overall dish. That is, the center is formed to be concave.

In addition, the operation member 146 is characterized in that the ceramic tip 146f is attached to the inner diameter end of the nozzle hole 136b to be suitable as a nozzle for the jet injector 100b for spraying water in a straight line. In addition, the spray guide groove 146f having a U-shaped cross section passing through the nozzle hole 146b may be formed in the end surface of the operation member 146 to improve the spraying state of water.

The filter cloth cleaning device of the present invention configured as described above is supplied with recycled water to the water supply pipe 120 before operating the entire industrial dehydration device, but first open the manual valve 160 to operate the control mechanism unit 180 pressure sensor According to the measured value of 150, the solenoid valve 170 is opened and closed.

That is, when the industrial dehydration apparatus is operated, the filter cloth 14 circulates and begins to perform the filtration operation (see FIGS. 1 and 2). At the same time, the filter cloth cleaning device is also operated. When the foreign matter is blocked by the foreign material, the pressure in the water supply pipe is increased, so that the pressure sensor 150 detects it. When the pressure measured by the pressure sensor is higher than the preset pressure value, the control mechanism unit 180 opens the electronic switching valve 170. Block it.

When the water supply is stopped due to the electromagnetic opening and closing valve 170 is blocked, the water pressure is lowered, and when the water pressure is lowered, the operating member 146 is retracted by the spiral pipe spring 145, but the protrusion of the spring support ring 149 Since 149a presses the support seat 146h of the operation member 146, the distal end of the divided operation member is opened, and when the distal end is opened, the nozzle hole 146b is enlarged so that foreign matter is easily discharged, and then the variable nozzle The nozzle hole 146b of 140 is prepared in a steady state.

The shutoff time of the electromagnetic opening and closing valve 170 operated according to the instruction of the control mechanism 180 is actually about 1 second, and after this time is opened again, the water supply pipe 120 is filled with water and the internal water pressure rises again. The water will be sprayed into the nozzle.

Therefore, since the filter cloth cleaning device of the present invention operates continuously while automatically eliminating the blockage of the variable nozzle 140, the industrial dehydration device (or papermaking device) including the same does not stop the whole operation due to the blockage of the nozzle. In addition, since water is automatically cut off and supplied by the feed pipe, it is very convenient and can increase productivity.

The following describes in more detail the operation of the variable nozzle 140 of the present invention.

As shown in FIG. 9, when the hydraulic pressure inside the water supply pipe 120 reaches the rear of the operating member 146, the operating member 146 overcomes the force of the spiral pipe spring 135 and moves forward as much as possible in the nozzle case 144. .

Since the tapered portion 146a at the end of the advanced operation member 146 is pressed by the inner diameter of the injection hole 143, the nozzle hole 146b is made small and water is sprayed normally.

At this time, since there is a packing 143a between the circular hole 143 and the taper portion 146a of the operation member 146, water does not leak and is only sprayed through the nozzle hole 146b.

As such, when the nozzle hole 146b is caught during the spraying process, the nozzle hole 146b is blocked, so that the water pressure increases, and when the water pressure increases, the electromagnetic opening and closing valve 170 and the control mechanism 180 as described above. By the operation of the water pressure drop in the water supply pipe 120.

When the water pressure drops, the force for pressing the rear end of the operating member 146 is removed, so that the operating member 146 is retracted by the elasticity of the spiral pipe spring 135, and the tip tapered portion 146a is the injection hole 143. When it is removed from the nozzle member 146b is opened by the spring bearing ring 149 because the operation member is divided into two.

Therefore, the foreign matter blocking the nozzle hole 146b is discharged out along the injection hole 143 by the weakly flowing water, and when the operating member 146 advances again by the water pressure which rises again after a while, the tapered portion 146a at the tip thereof is carried out. ) Into the injection hole 143 with the packing 143a, the nozzle hole 146b becomes small, and normal injection work is started again.

In the variable nozzle 140 of the present invention operating as described above, since the spring supporting the actuating member 146 is a spiral pipe spring 135 unlike the conventional coil spring, water flows into the spring and is mixed with water. Foreign matter does not fall outside of the spring and there is no gap between the spring.

Therefore, small foreign matters do not accumulate between the operation member 146 and the nozzle case 144 that slide forward and backward.

In addition, the variable nozzle 140 of the present invention has a circular packing 148 at the rear of the operating member 146 is assembled in a concave dish shape between the circular packing 148 and the locking step 147 of the nozzle case 144. Even if foreign matter remains in the circular packing 148 is scraping the foreign matter does not accumulate.

Meanwhile, in the variable nozzle 140 of the present invention, since the water injection guide groove 146c is formed to be U-shaped as shown in FIG. 9, the injection pattern of water spreading to the left and right as shown in FIG. Become uniform.

The present invention, as described in detail above, automatically opens and closes the valve of the water supply pipe in the filter cloth cleaning device using the variable nozzle, so that foreign matters are automatically discharged from the nozzle hole at any time without the operator's special operation. Without stopping the operation of the dewatering treatment efficiency will be greatly improved.

In addition, in the variable nozzle according to the present invention, since the inner spring is a spiral pipe spring, foreign matter does not remain around the spring, and the rubber packing at the rear end of the operation member is assembled to be inclined backward so as to form a dish shape so as to have a nozzle case. Foreign matter does not accumulate between the locking jaws of the variable nozzle, which makes the operation of the variable nozzle accurate and smooth.

In addition, the variable nozzle of the present invention formed a U-shaped cross-section injection guide groove in the form of passing through the nozzle hole on its end surface, so that the spray amount of water is uniform in the center, the left and the right, and the spray pattern is constant, so that the filter cloth cleaning efficiency is improved. Very excellent, the variable nozzle used in the jet injection device has the advantage of long life because it is formed by attaching a ceramic tip.

Claims (5)

After the belt-type filter cloth 14 is hung on the driving roller 11 and the driven roller 12 and the idle roller 13 below, the waste water W is supplied onto the filter cloth 14 to discharge the waste water. In the dewatering device of the industrial dewatering device (S) is filtered by the belt filter cloth 14 is collected in the foreign matter collector 15, and the filtered wastewater is sent to the next process along the drip tray (16), The water supply pipe 120 rolled along the width of the filter cloth below one side of the belt filter cloth 14, a plurality of variable nozzles 140 provided at random intervals on the water supply pipe, and the water supply pipe The pressure sensor 150 connected to measure the internal pressure, the manual valve 160 connected to the inlet of the water supply pipe, the electromagnetic opening and closing valve 170 connected to the water supply pipe 120, and Consists of a control mechanism 180 for driving the electronic opening and closing valve by receiving information from the pressure sensor 150, The variable nozzle 140 has a male screw portion 141 for screwing into a fastener fixed to the water supply pipe 120, a hexagonal portion 142 of the outer circumference, an injection hole 143 at an end surface thereof, and an inner side thereof. A nozzle case 144 having a packing 143a of Spiral pipe spring 135 embedded in the internal space of the nozzle case 144, Inserted into the nozzle case 144 so as to be coalesced in the spiral pipe spring 135, the tapered portion (146a) of the front end, the annulus 146e of the suspension, the annular groove (146d) of the rear end, and the inner center The operating member 146 symmetrically split along the diameter with the nozzle hole 146b of A spring bearing ring 149 interposed between the spiral pipe spring 135 and the operation member 146, It is composed of a circular packing 148 that is fitted into the annular groove 146d of the operating member 146, the outer diameter of which fits to the inner diameter of the nozzle case 144 and is caught by the inner end 147 so as to prevent it from being separated. Belt type filter cloth cleaning device of the industrial dehydration device. delete The method of claim 1, The annular groove 146d of the operating member 146 is formed in an inclined shape toward the rear, so that the rubber packing 148 fitted therein forms a dish shape. Device. The method of claim 1, The operation member 146 is a belt filter cloth of the industrial dewatering apparatus, characterized in that the injection guide groove 146c of the U-shaped cross section passing through the nozzle hole 146b at the end surface of the nozzle hole 146b. Washing device. The method of claim 1, The operation member 146 is a belt filter cloth cleaning device of the industrial dewatering device, characterized in that by attaching a ceramic tip (146f) to the end of the inner diameter of the nozzle hole (146c) to be suitable for the jet injector.