JP4365128B2 - Treated water circulation type sign board peeling device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a treated water circulation type sign board peeling apparatus applied as an apparatus for peeling and removing a resin sheet of a sign board by jetting high-pressure water when the road sign board removed after use is reused.
[0002]
[Prior art]
Many road signs are installed on roads in various places, but these sign boards are usually formed by attaching resin sheets to the surface of metal plates. If they deteriorate due to aging, etc., they are removed. The new sign board is used for replacement.
[0003]
However, a road sign board is generally formed by thermocompression bonding of a resin sheet containing a reflective material to an aluminum plate. When a sign board is completely discarded after use, a lot of energy is consumed. Therefore, recycling to reuse the metal plate is being studied.
[0004]
[Problems to be solved by the invention]
When reusing a metal plate, the resin sheet is peeled off from the metal plate and used. However, as a method for removing the resin sheet from the metal plate, the resin sheet is peeled and removed by spraying high-pressure water onto the sheet surface. To be considered. Incidentally, a technique for peeling and removing a coating film such as a plastic bumper by jetting high-pressure water is known from Patent Document 1 below.
[0005]
[Patent Document 1]
JP-A-2000-325866 gazette
However, when the paint film or resin sheet is peeled off by jetting high-pressure water, a large amount of water is ejected, so a large amount of water is required, and the sprayed water is mixed with paint film pieces or resin sheet pieces. Since it is discharged as polluted water, wastewater treatment has become an environmental issue.
[0007]
This invention solves the above-mentioned subject, collects and processes the polluted water after spraying it as high pressure water and removing the resin sheet, and can process and use the sprayed water circulatingly. An object is to provide a peeling apparatus.
[0008]
[Means for Solving the Problems]
To achieve the above object, the process water recycling sign boards peeling apparatus of the present invention includes a high pressure pump device for pumping toward the water in the treated water tank to the injection nozzle, a high pressure to the resin sheet of the label plate from the injection nozzle High pressure water jet peeling device that sprays and removes resin sheet by jetting water, and waste water injected and collected by high pressure water jet peeling device is introduced into raw water tank, and the waste water is passed through multiple filter bodies to A treated water circulation type sign board peeling device for removing a resin sheet of a sign board provided with a water treatment device that removes suspended solids and sends treated water after filtration to a treated water tank,
The high-pressure water jet peeling device includes a moving table on which the marker plate is placed and moved in a peeling chamber, a suction cup provided on the movable table to adsorb the marker plate, and the marker plate on the movable table. An injection nozzle that injects high-pressure water toward the marker plate in the peeling chamber while reciprocating in a direction orthogonal to the moving direction of the moving table from above, and the injection nozzle orthogonal to the moving direction of the moving table A movement drive mechanism for moving in the direction, and a collection tank for collecting water sprayed in the peeling chamber ,
The water treatment device includes a mesh membrane filtration device that filters the raw water tank introduced from the recovery tank of the high-pressure water jet separation device through a mesh membrane, and an ultrafiltration device that filters the wastewater that has passed through the mesh membrane filtration device. A filtration membrane device, and an intermediate tank for collecting drainage connected between the mesh membrane filtration device and the ultrafiltration membrane device,
In the mesh membrane filtration device, in order to drop suspended substances deposited on the mesh membrane, a pump for supplying water in the intermediate tank to the mesh membrane and back-washing is performed, and the mesh membrane is aerated. An air blower, and the ultrafiltration membrane device performs filtration while circulating the water in the intermediate tank, stores the treated water after filtration in the treated water tank, and treats the treated water in the treated water tank. Is supplied to the spray nozzle of the high-pressure water spray-peeling device to circulate and use the treated water.
[0011]
[Action]
In the treated water circulation type marking plate peeling apparatus having the above configuration, the used marking plate to be regenerated is placed on the table of the high pressure water jet peeling apparatus. And the high-pressure pump apparatus is started, the water in a treated water tank is pumped to an injection nozzle, and high-pressure water is injected toward the resin sheet of a marker board from an injection nozzle. While the table and the spray nozzle move relatively, high pressure water is sprayed on the entire surface of the sign plate, and the resin sheet on the sign plate is peeled and removed by receiving the high pressure water.
[0012]
The jetted water is collected as waste water in the recovery tank of the peeling device, and the waste water in the recovery tank is sent to the raw water tank of the water treatment device. In the water treatment device, the wastewater in the raw water tank is filtered through the mesh membrane of the mesh membrane filtration device, and the wastewater is further filtered through the ultrafiltration membrane of the ultrafiltration membrane device and filtered. The treated water is returned to the treated water tank and stored, and the treated water is circulated for use.
[0013]
In this way, the water in the treated water tank is sprayed from the spray nozzle and used for peeling of the resin sheet, the sprayed water is collected, the collected waste water is filtered with a water treatment device, and the resin sheet pieces and the like are suspended. After removing the substances, the treated water is returned to the treated water tank and reused. Therefore, since the resin sheet of the sign board is peeled and removed with high-pressure water while circulating the water, the amount of water used is minimized and the contaminated water mixed in with the resin sheet piece is not discharged. By separating and removing the resin sheet, the signboard can be recycled while maintaining a good environment.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows an overall configuration diagram of a treated water circulation type sign board peeling apparatus. This sign plate peeling device is schematically composed of a high pressure pump device 6 that pumps water from the treated water tank 7 toward an injection nozzle of the high pressure water jet peeling device 1, and an injection nozzle 20 for the resin sheet of the sign plate W. The high pressure water jet peeling apparatus 1 that peels and removes the resin sheet by injecting high pressure water from the water, and the waste water sprayed and collected by the high pressure water jet peeling apparatus 1 is introduced into the raw water tank 31, and the waste water is discharged into the mesh membrane filtration device 32. The waste water that has passed through the mesh membrane filtration device 32 is filtered through the ultrafiltration membrane of the ultrafiltration membrane device 34, and the treated water after filtration is passed to the treated water tank 7. And a water treatment device 3 to be sent out. The treated water in the treated water tank 7 is supplied to the injection nozzle 20 of the high-pressure water jet separation device 1 and the treated water is circulated and used to peel and remove the resin sheet on the marker plate. Configured.
[0015]
As shown in FIGS. 2 to 4, the high-pressure water jet / peeling device 1 is provided with a moving table 13 on which a marker plate W is placed in a main body 10 so as to be horizontally movable, and a marker placed on the movable table 13. An injection nozzle 20 that injects high-pressure water while moving is arranged above the plate W. The main body 10 of the high-pressure water jet peeling apparatus 1 is formed in a box shape, and a mounting portion 12 for mounting the marker plate W is provided at the front portion thereof, with the upper portion being opened, and a cover is provided at the rear portion of the main body 10. A peeling chamber 11 surrounded by the portion is formed.
[0016]
Two rails 14 are laid horizontally so as to connect the mounting portion 12 and the peeling chamber 11, and a movable table 13 provided with wheels 13 a at four places on the bottom portion is disposed horizontally so as to be able to run on the rails 14. Is done. A suction cup 13b is provided at the center of the moving table 13, and the marker plate W placed on the table 13 is sucked and held by the suction cup 13b.
[0017]
The moving drive mechanism 16 that drives the moving table 13 hangs the moving chain 15 along the rail 14 between the sprockets of the driving shaft and the driven shaft, and the driving shaft is driven to rotate at a low speed by a motor. The moving table 15 connected with a part of the moving table 15 is rotated to move the moving table 13. The moving table 13 is moved from the placement unit 12 into the separation chamber 11 by the drive control of the motor of the movement drive mechanism 16 and stops at a predetermined position. When the separation process is finished, the movement table 13 is returned to the original placement unit 12 again. Move back and forth to return.
[0018]
In the upper part of the peeling chamber 11, a rail 22 for the injection nozzle 20 is laid in a direction orthogonal to the moving direction of the moving table 13, and the moving table 21 is arranged on the rail 22 in a direction orthogonal to the moving direction of the moving table 13. Displaceably engaged and arranged. The moving table 21 is arranged vertically at the front part of the rail 22, the lower part of the moving table 21 is located in the peeling chamber 11, and the injection nozzle 20 injects high-pressure water directly below the moving table 21. It is attached as follows. The injection nozzle 20 has a structure in which a plurality of nozzle portions are mounted at the tip so as to be capable of high-speed rotation, and high-pressure water can be injected from the rotary nozzle portion to a certain extent.
[0019]
A high pressure hose 25 is connected to the injection nozzle 20, the other end of the high pressure hose 25 is connected to the discharge side of the high pressure pump device 6, and high pressure water is supplied from the high pressure pump device 6 to the injection nozzle 20. The moving drive mechanism 24 that drives the moving table 21 hangs the moving belt 23 along the rail 22 between the sprockets of the driving shaft and the driven shaft, and rotates the moving belt 23 by rotating the driving shaft at a low speed by a motor. In this way, a part of the moving belt 23 is connected to the moving table 21 so that the moving table 21 is moved.
[0020]
The moving table 21 reciprocates in the left-right direction in the upper part of the main body 1 by driving control of the motor of the moving drive mechanism 24, and the spray nozzle 20 attached to the lower part of the moving table 21 is moved in the peeling chamber 11 to the moving table 13. It moves so as to reciprocate in a direction orthogonal to the moving direction. On the other hand, as shown in FIG. 4, a recovery tank 17 for recovering water sprayed in the peeling chamber 11 is formed at the bottom of the main body 10, and the recovered waste water is supplied to the raw water tank described later in the recovery tank 17. A first pump 18 for supplying the gas to 31 through a pipe 35 is disposed.
[0021]
As shown in FIGS. 5 to 10, the water treatment device 3 includes a mesh membrane filtration device 32 that filters the wastewater of the raw water tank 31 introduced from the recovery tank 17 of the high-pressure water jet separation device 1 through the mesh membrane 32a, An intermediate tank 33 for storing the water roughly filtered by the mesh membrane filtration device 32, and an ultrafiltration membrane device 34 for filtering the water stored in the intermediate tank 33 through the ultrafiltration membrane, and configured as a mesh The treated water from which suspended substances are removed through the membrane filtration device 32 and the ultrafiltration membrane device 34 is configured to be sent to the treated water tank 7 and stored therein.
[0022]
As shown in FIG. 10, the water treatment apparatus 3 is provided with a raw water tank 31, and the wastewater sent from the recovery tank 17 of the high-pressure water jet separation apparatus 1 by the first pump 18 through the pipe 35 is the raw water tank. It is piped so as to be stored in 31. Further, a mesh membrane filtration device 32 is disposed next to the raw water tank 31, and the wastewater in the raw water tank 31 is piped so as to be sent to the mesh membrane filtration device 32 through the second pump 36 and the pipe line 37.
[0023]
The mesh membrane filtration device 32 is provided with a plurality of mesh membranes 32a as filter bodies, and the mesh membranes 32a are composed of, for example, a fine stainless steel mesh (pore diameter: about 75 μm), The suspended matter is deposited in the pores, a dynamic membrane is formed by the deposition, and dynamic filtration is performed. The mesh membrane filtration device 32 is a device that performs pre-filtration (coarse filtration) of waste water, and the suspended material that has been roughly filtered is deposited on the mesh membrane 32a by use.
[0024]
In order to drop the suspended matter deposited on the mesh membrane 32a, a backwashing conduit 43 and a third pump 42 for allowing the washing water to flow back to the mesh membrane from the intermediate tank 33 are provided. Further, a pipe line 41 for returning the original filtered water to the raw water tank 31 is piped through the switching valve 40, and an air blower 51 for aeration is provided to drop suspended substances in the mesh membrane 32a. . Further, a pipe for returning the suspended matter accumulated in the mesh membrane filtration device 32 to the raw water tank 31 is provided.
[0025]
Further, as shown in FIG. 10, an intermediate tank 33 for storing water that has passed through the mesh membrane 32 is disposed next to the mesh membrane filtration device 32. Pipe lines 38 and 39 are arranged between the mesh membrane filtration device 32 and the intermediate tank 33 via a switching valve 40, and water is sent from the mesh membrane filtration device 32 to the intermediate tank 33 through the pipe lines 38 and 39. It is done. Next to the intermediate tank 33, an ultrafiltration membrane device 34 is disposed. The ultrafiltration membrane device 34 accommodates a hollow fiber filtration membrane having a pore diameter of, for example, about 0.005 to 0.05 μm, and separates and removes finer suspended substances contained in the waste water.
[0026]
As shown in FIG. 10, a pipe 45 is connected to the lower part of the ultrafiltration membrane device 34 and the intermediate tank 33 together with the fourth pump 44, and the water in the intermediate tank 33 passes through the pipe 45. 34. Further, a pipe 46 is disposed at the upper part between the ultrafiltration membrane device 34 and the intermediate tank 33, and the water in the ultrafiltration membrane device 34 is returned to the intermediate tank 33 through this pipe 46, and the water circulates. While being filtered. Further, a pipe 47 for sending filtered water to the treated water tank 7 is connected to the upper part of the ultrafiltration membrane device 34. Further, a conduit 49 and a fifth pump 48 are connected between the treated water tank 7 and the ultrafiltration membrane device 34 for backwashing, and the water in the treated water tank 7 flows back to the ultrafiltration membrane device 34. And wash the ultrafiltration membrane.
[0027]
The water treatment apparatus 3 configured as described above is manufactured as one unit as shown in FIGS. 5 to 9, and is separated as described later by automatic control by a control circuit disposed in the control panel 50. While 1 performs the peeling operation, a water treatment is performed in which the drainage is filtered by performing a sequence operation. The treated water circulation type sign board peeling device configured as described above can be installed in a predetermined factory or the like, but all components are mounted on a vehicle such as a truck so that it can move. You can also.
[0028]
As shown in FIGS. 2 and 4, the used marker plate W to be regenerated is placed on a moving table 13 positioned on the placement portion 12 of the high-pressure water jet separation apparatus 1. Then, the high-pressure pump device 6 is activated to pump the water in the treated water tank 7 to the injection nozzle 20 through the high-pressure hose 25. The water pressure at this time is about 2000 bar.
[0029]
Then, the table moving drive mechanism 16 is activated to move the moving table 13 into the peeling chamber 11. When the sign board W placed on the moving table 13 enters the peeling chamber 11, high-pressure water is jetted from the jet nozzle 20 located above toward the resin sheet of the sign board W while jetting high-pressure water. The moving table 21 and the injection nozzle 20 move in a direction orthogonal to the direction in which the moving table 13 moves. For example, the injection nozzle 20 moves from right to left in the front view of FIG. 2, and the moving table 13 moves from right to left in the cross-sectional view of FIG. At this time, the amount of water jetted from the jet nozzle 20 is about 22 liters / min. Per minute.
[0030]
By such an operation, high-pressure water is sprayed over the entire surface of the sign board W, and the resin sheet on the surface of the sign board W receives and peels off the high-pressure water. The time required for peeling off the resin sheet of the normal sign board W is about 1 minute, and about 22 liters of water sprayed at that time is collected in the collection tank 17 of the high-pressure water jet peeling apparatus 1. The When the ejection nozzle 20 moves from the right to the left in FIG. 2 and one cycle of the peeling process is completed, the moving table 13 moves along the return path so as to return from the inside of the peeling chamber 11 to the mounting portion 12. And the processed sign board W is taken out from the moving table 13 which returned to the mounting part 12, and the next sign board W is mounted there.
[0031]
On the other hand, the waste water in the collection tank 17 is sent to the raw water tank 31 of the water treatment device 3 through the pipe line 35 by the first pump 18. In the water treatment device 3, as shown in FIG. 10, the waste water in the raw water tank 31 is sent to the mesh membrane filtration device 32 through the second pump 36 and the pipe 37 and is passed through the mesh membrane 32 a of the mesh membrane filtration device 32. The suspension is roughly filtered, and suspended substances such as resin sheet pieces contained in the wastewater are deposited on the mesh membrane 32a and filtered. The filtered water is sent to the intermediate tank 33 through the pipe lines 38 and 39.
[0032]
The suspended matter is deposited on the mesh membrane by coarse filtration over time, but periodically the water in the intermediate tank 33 is caused to flow back to the mesh membrane filtration device 32 through the third pump 42 and the pipe 43. The mesh film 32a is backwashed. Further, aeration by the air blower 51 is periodically performed to remove substances deposited on the mesh membrane 32a, and the suspended substances accumulated in the mesh membrane filtration device 32 are returned to the raw water tank 31 and the like through a discharge pipe. I am doing so.
[0033]
Further, the water stored in the intermediate tank 33 is sent to the ultrafiltration membrane device 34 by the pipe 45 and the fourth pump 44. There is an ultrafiltration membrane in the ultrafiltration membrane device 34, and water is circulated in the intermediate tank 33 and the ultrafiltration membrane device 34 through the pipe lines 45 and 46 over a predetermined time, thereby turning it into water. The finer suspended substances contained are filtered and removed by the ultrafiltration membrane, and the filtered water is treated water and sent to the treated water tank 7.
[0034]
Such a filtration treatment by the water treatment device 3 can realize a throughput of about 1375 liters per hour, so that the above-mentioned sign plate peeling device using about 22 liters of water discharges waste water. While being used without being circulated, about 60 sign boards can be peeled off per hour.
[0035]
【The invention's effect】
As described above, according to the treated water circulation type sign board peeling apparatus of the present invention, the water in the treated water tank is jetted as high pressure water from the jet nozzle and used for peeling the resin sheet, and the jetted water is used as a recovery tank. The collected waste water is filtered with a water treatment device, and the treated water after removing suspended solids such as resin sheet pieces is returned to the treated water tank. In order to peel off and remove the resin sheet of the sign board, the use of the sign board can be recycled while minimizing the amount of water used and maintaining a good environment without discharging contaminated water mixed with resin sheet pieces. be able to.
Further, the sign plate is adsorbed by the suction cup on the moving table moving in the peeling chamber, and the injection nozzle is orthogonal to the moving direction of the moving table by the operation of the moving drive mechanism while injecting high pressure water from the injection nozzle onto the sign plate. Since the peeling operation is performed by moving in the direction, the resin sheet can be peeled and removed from the sign plate stably, safely and efficiently even with a relatively light sign plate.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is an overall configuration diagram of a treated water circulation type sign board peeling apparatus showing an embodiment of the present invention.
FIG. 2 is a front view of a high-pressure water jet peeling apparatus.
FIG. 3 is a plan view of the peeling apparatus.
FIG. 4 is a sectional view of the peeling apparatus.
FIG. 5 is a front view of the water treatment apparatus.
FIG. 6 is a plan view of the water treatment apparatus.
FIG. 7 is a left side view of the water treatment apparatus.
FIG. 8 is a right side view of the water treatment apparatus.
FIG. 9 is a rear view of the water treatment apparatus.
FIG. 10 is a schematic configuration diagram of a water treatment apparatus.
[Explanation of symbols]
1-high pressure water jet separation device 3-water treatment device 6-high pressure pump device 7-treated water tank 17-recovery tank 20-injection nozzle 31-raw water tank 32-mesh membrane filtration device 33-intermediate tank 34-ultrafiltration membrane Device W-sign board

Claims (1)

A high-pressure pump device that pumps water from the treated water tank toward the spray nozzle;
A high-pressure water jet stripping apparatus for peeling and removing the resin sheet by jetting high-pressure water from the injection nozzle with respect to the resin sheet of the label plate,
The waste water sprayed and collected by the high-pressure water jet peeling device is introduced into the raw water tank, the waste water is passed through a plurality of filter bodies to remove the suspended solids from the resin sheet pieces, and the treated water after filtration is treated with the treated water. A water treatment device to send to the water tank;
A treated water circulation type label plate peeling apparatus for peeling off the resin sheet of the label plate comprising:
The high-pressure water jet peeling device includes a moving table on which the marker plate is placed and moved in a peeling chamber, a suction cup provided on the movable table to adsorb the marker plate, and the marker plate on the movable table. An injection nozzle that injects high-pressure water toward the marker plate in the peeling chamber while reciprocating in a direction orthogonal to the moving direction of the moving table from above, and the injection nozzle orthogonal to the moving direction of the moving table A movement drive mechanism for moving in the direction, and a collection tank for collecting water sprayed in the peeling chamber ,
The water treatment device includes a mesh membrane filtration device that filters the raw water tank introduced from the recovery tank of the high-pressure water jet separation device through a mesh membrane, and a filter that filters the wastewater that has passed through the mesh membrane filtration device. An outer filtration membrane device, and an intermediate tank for collecting drainage connected between the mesh membrane filtration device and the ultrafiltration membrane device,
In the mesh membrane filtration device, in order to drop suspended substances deposited on the mesh membrane, a pump for supplying water in the intermediate tank to the mesh membrane and back-washing is performed, and the mesh membrane is aerated. An air blower, and the ultrafiltration membrane device performs filtration while circulating the water in the intermediate tank, stores the treated water after filtration in the treated water tank, and treats the treated water in the treated water tank. Is supplied to the injection nozzle of the high-pressure water jet-peeling device, and the treated water is circulated and used.

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