JP2006297381A - Movable multifunctional cleaner for liquid storage tank - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a movable multifunctional cleaner for a liquid storage tank which can improve the performance of a filter, and prolong the life of a filter. <P>SOLUTION: A suction vacuum chamber 2 for sucking liquid and precipitate and a microturbo filter 3 are installed in the upper part of a cleaner main body 1 of which the bottom is fitted with buffer casters 20. The upper part of the suction vacuum chamber 2 is fitted with an electrical device part 5 connected with an electrical panel 4. In the suction vacuum chamber 2, a liquid suction pipe 6 and a drum filter 7 are installed in parallel under a scrap conveyor 9. In the discharge part of the scrap conveyor 9, an automatic discharge device 16 is installed at the lower end of a shoot 10 for precipitate discharge. A door 17 for inspection and repair of the drum filter 7 is formed in the side face of the suction vacuum chamber 2, liquid drain pipes 18, 18a are installed at the lower end of the suction vacuum chamber 2, and the drum filter 7 and a pipe flange 11 are connected. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a mobile multi-function cleaner used for removing sludge or metal chips in a liquid storage tank.

  Conventionally, when cleaning metal chips contained in chemical precipitates and cutting oil during metal processing, a liquid storage tank, precipitate filtration, chip removal, and these recovery devices must be installed separately. It was. However, according to the gist of the patent document 1 filed earlier by the present applicant, a chip separation chamber and a specific gravity separation chamber are installed on the upper part of the apparatus body, and the precipitate in the liquid storage tank is sucked with a vacuum pump. Then, after separating the fine metal chips and the cutting oil contained in the precipitate, the refined cutting oil is reused, but when the precipitate and the metal chips are collected in a chip collection tank by a predetermined amount or more, There is a drawback that the operation of the cleaning machine must be temporarily stopped to remove the chip. In order to solve this problem, in Patent Document 2 filed earlier, the deposit and the metal chips are automatically collected in the chip collection tank by installing a transfer conveyor on one side of the filtration drum. It was to so.

Korean Patent No. 431622 Korean Patent Application Publication No. 2004-52664

  However, since the filtration method of the filter uses the pressurization method, the filter element must be cleaned as soon as the collected sediment is collected in the filter element, and the sediment is contained inside the filter. There is a problem that the filter function cannot be fully exhibited due to clogging or drawing of a fine chip.

  The present invention has been made to solve such problems, and an object of the present invention is to provide a movable multifunctional cleaner for a liquid storage tank that can improve the performance and extend the life of the filter. To do.

A mobile multifunction cleaning machine for a liquid storage tank according to the present invention includes a cleaning machine main body having a shock-absorbing caster attached to a lower end thereof, a suction vacuum tube and a micro turbo filter provided at an upper part of the cleaning machine main body, An electric device part provided at the upper part of the suction vacuum tube and connected to the electric panel; a drum filter provided at the lower part of the electric device part and connected to the liquid suction pipe; and the drum filter at the lower part of the drum filter A scrap conveyor provided in parallel to the scrap conveyor, a sediment discharge chute provided at a discharge portion of the scrap conveyor and provided with an automatic discharge device at a lower end portion, and the drum provided at a side portion of the suction vacuum chamber Provided under the micro turbo filter connected to the door for inspection of the filter and the liquid drain pipe, the drum filter and the pipe flange It comprises a gyro pump, a vacuum Gage vacuum Gage tube is connected to the suction side of the gyroscopic pump, and a filtrate discharge pipe connected to the discharge portion of the gyro pump.
A filter brush for preventing the drum filter from being blocked may be provided on the drum filter.
Instead of the automatic discharge device provided at the lower end portion of the discharge chute, a manual discharge device having a precipitate box may be provided to remove the precipitate manually.
The mobile multi-function cleaning machine for a liquid storage tank according to the present invention includes a cleaning machine main body having a buffer caster attached to a lower end thereof, a suction vacuum tube and a micro turbo filter provided at an upper part of the cleaning machine main body, An electric device provided at an upper portion of the suction vacuum tube and connected to an electric panel; a sediment discharge chute provided with an automatic discharge device at a lower end; and a liquid drain provided at a side surface of the suction vacuum chamber A pipe, a gyro pump provided below the connected micro turbo filter, a vacuum gage having a vacuum gage pipe connected to the suction side of the gyro pump, and a filtration connected to a discharge part of the gyro pump A liquid discharge pipe.
The mobile multi-function cleaning machine for a liquid storage tank according to the present invention includes a cleaning machine body having a buffer caster attached to a lower end, an electric device unit provided on an upper portion of the suction vacuum tube and connected to an electric panel. A drum filter provided at a lower portion of the electric device portion and connected to a liquid suction pipe; a scrap conveyor provided at a lower portion of the drum filter in parallel with the drum filter; and a discharge portion of the scrap conveyor. A deposit discharge chute provided at a lower end portion of the automatic discharge device, a door and a liquid drain pipe for inspection of the drum filter provided on a side surface portion of the suction vacuum chamber, and a bottom of the drum filter. A gyro pump provided on the side, a vacuum gage having a vacuum gage tube connected to the suction side of the gyro pump, and a discharge part of the gyro pump. And and a filtrate discharge pipe.
Immediately before the suction port of the gyro pump, it is equipped with a malodor removing liquid tank containing a malodor removing liquid and a dropper capable of sucking a very small amount of liquid at the time of inhalation. You may make it remove the malodor of the liquid made.

  According to the present invention, in a mobile multi-function cleaning machine that is a device that removes liquid cutting oil deposits or metal chips contained in a liquid storage tank and reuses the liquid, a drum filter and a scrap conveyor are provided. By installing them in parallel, cleaning work can be performed even in a narrow space. Further, by adopting the suction method as the filtration method of the drum filter, it is possible to improve the performance of the cleaning machine and extend the life of the filter.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
As shown in FIG. 1, an upper part of a cleaning machine main body 1 having a shock-absorbing caster 20 attached to the lower end has a suction vacuum chamber 2 for sucking liquid and sediment, and a micro turbo filter 3 as a secondary filtration device. And each are installed. On the upper part of the suction vacuum chamber 2, an electric device section 5 connected to an electric panel 4 mounted on one surface of the cleaner body 1 is mounted. In the suction vacuum chamber 2, a liquid suction pipe 6 and a drum filter 7 rotated by a motor from the center are installed in parallel to the lower part of the scrap conveyor 9. An automatic discharge device 16 or a manual discharge device 24 (see FIG. 2) is installed at the lower end portion of the sediment discharge chute 10 at the discharge portion of the scrap conveyor 9. A door 17 for inspecting or repairing the worn drum filter 7 is formed on the side surface of the suction vacuum chamber 2, and liquid drain pipes 18 and 18 a are installed at the lower end portion of the door 17. The pipe flange 11 of the discharge part is connected.

  As shown in FIG. 2, a gyro pump 12 having a vacuum pump function for simultaneously sucking cutting oil and sediment is attached to the lower side of the micro turbo filter 3. A liquid tank 32 (see FIG. 5) for storing a liquid removing liquid is installed just before the suction part of the gyro pump 12, and a syringe pipe (not shown) is installed so that a very small amount of liquid can be sucked when the liquid is sucked. In addition, the odor of the liquid is removed while mixing the minute amount of liquid while recycling at the time of cleaning. A vacuum gage tube 14 connected to a vacuum gage 23 is connected to the suction side of the gyro pump 12, and a filtrate discharge tube 15 for discharging the purified liquid is attached to the discharge part of the gyro pump 12. ing.

  And the filter brush 8 which removes a fine deposit is provided in the upper part of the above-mentioned drum filter 7, as FIG. 1a shows. As shown in FIGS. 3 and 4, the configuration of the liquid suction pipe 6 and the filtrate discharge pipe 15 is provided with a simple coupling unit 26 (quick coupling unit) at the tip of the liquid suction pipe 6. The transparent flexible PVC hose 27 containing the iron core is connected, and the other end of the transparent flexible PVC hose 27 is connected to the steal flexible hose 30. A suction port 28 is formed at the distal end of the steal flexible hose 30. Connected to the filtrate discharge pipe 15 is a transparent flexible PVC hose 27 containing an iron core with a suction port 28 of the simple connection unit interposed therebetween. A suction port 28 is formed at the tip. The shape of the scrap conveyor 9 described above is such that a sediment removing magnet 19 (see FIG. 1) having a vacuum chamber function is attached to the lower end, and cutting oil containing precipitate is sucked into the end portion of the scrap conveyor 9. A liquid suction device 22 and a liquid suction pipe 22a are mounted. A hollow shaft motor speed reducer 21 is attached to the rear end of the scrap conveyor 9.

Next, the operation of the mobile multifunction cleaner according to this embodiment will be described.
After the cleaning machine body 1 is turned on, the electric panel 4 is operated to operate the gyro pump 12 having a vacuum pump function, and the liquid containing the precipitate is supplied from the liquid storage tank 25 to the liquid suction pipe. 6 is sucked into the suction vacuum chamber 2. After that, it is transferred to the drum filter 7, and most of the sediment having a size of 300 microns or more is sent to the discharge chute 10 by the scrap conveyor 9 and discharged to the automatic discharge device 16 or the manual discharge device 24. At this time, precipitates of 100 microns or less are transferred to the drum filter 7 and subjected to primary filtration and discharged, and precipitates of 30 microns or less are filtered using a bag filter. In particular, the precipitate having a size of 1 micron or less is secondarily filtered by the micro turbo filter 3 through the discharge pipe flange 11 of the drum filter 7 as shown in FIG. The refined liquid cutting oil is discharged to the filtrate discharge pipe 15 through the gyro pump 12 and sent to the liquid storage tank 25 for reuse.

  Alternatively, the scrap conveyor 9 and the drum filter 7 may be excluded, and only the gyro pump 12 having a vacuum function and the micro turbo filter 3 may be used. That is, the cleaner main body 1 with the shock absorber 20 attached to the lower end, the suction vacuum tube 2 and the micro turbo filter 3 provided on the upper portion of the cleaner main body 1, the upper portion of the suction vacuum tube 2, and the electric panel 4 is connected to the electrical device unit 5 connected to 4, the automatic discharge device 16 to the sediment discharge chute 10 provided at the lower end, and the liquid drain pipes 18 and 18a provided to the side surface of the suction vacuum chamber 2. The gyro pump 12 provided below the micro turbo filter 3, the vacuum gage 23 having the vacuum gage tube 14 connected to the suction side of the gyro pump 12, and the filtrate connected to the discharge part of the gyro pump 12. The exhaust pipe 15 may be used.

  Further, the cleaning machine main body 1 may be configured and used only by the scrap conveyor 9, the drum filter 7 and the gyro pump 12 without the micro turbo fiber 3. That is, the cleaning machine main body 1 having a shock absorber 20 attached to the lower end, the upper portion of the suction vacuum tube 2, the electric device portion 5 connected to the electric panel 4, and the lower portion of the electric device portion 5, A drum filter 7 connected to the liquid suction pipe 6, a scrap conveyor 9 provided in parallel to the drum filter 7 below the drum filter 7, and a discharge unit of the scrap conveyor 9. The deposit discharge chute 10 provided in the section, the door 17 for inspection of the drum filter 7 and the liquid drain pipes 18 and 18a provided on the side surface of the suction vacuum chamber 2, and the drum filter 7 below. A gyro pump 12 provided, a vacuum gage 23 having a vacuum gage tube 14 connected to the suction side of the gyro pump 12, and a filter connected to a discharge portion of the gyro pump 12. It may be used to constitute a liquid discharge pipe 15.

  In addition, when a sediment box is used instead of the automatic discharge device 16 attached to the lower end of the discharge chute 10 and operated by the hollow shaft motor speed reducer 13, the manual discharge device 24 is attached and the precipitate is manually removed. It can also be removed (see FIG. 2).

  When the signal indicating that the filter is closed is displayed from the vacuum gage 23, the outlet side valve of the drum filter 7 and the valve of the pipe to be sent to the liquid storage tank 25 are closed, and the water tank is opened. And the gyro pump 12 reversely rotates, the scrap conveyor 9 on the turbo filter 3 side is opened, and the function of the cleaner main body 1 stops.

  As described above, the mobile multi-function cleaner for the liquid storage tank according to this embodiment includes the cleaner main body 1 having the shock absorber 20 attached to the lower end, and the suction provided on the upper portion of the cleaner main body 1. A vacuum tube 2 and a micro turbo filter 3, an electric device part 5 provided on the upper part of the suction vacuum tube 2 and connected to the electric panel 4, and a drum provided on the lower part of the electric device part 5 and connected to the liquid suction pipe 6 A filter 7 and a scrap conveyor 9 provided in the lower part of the drum filter 7 in parallel with the drum filter 7 and a discharge unit of the scrap conveyor 9 provided with an automatic discharge device 16 at the lower end for discharging the sediment Chute 10, door 17 for inspection of drum filter 7 and liquid drain pipes 18 and 18a provided on the side surface of suction vacuum chamber 2, drum filter 7 and pipe flange 1 The gyro pump 12 provided on the lower side of the micro turbo filter 3 connected to the gyro pump 12, the vacuum gage 23 having the vacuum gage tube 14 connected to the suction side of the gyro pump 12, and the discharge part of the gyro pump 12. And a filtrate discharge pipe 15. Since the drum filter 7 and the scrap conveyor 9 are installed in parallel, cleaning work is possible even in a narrow space. In addition, the filter brush 8 is attached to the upper side of the drum filter 7 so as to prevent the drum filter 7 from being blocked, and the filter performance of the micro turbo filter 3 is improved by the suction method. Of course, the lifetime can be extended to the maximum.

It is the perspective view which looked at this invention on the right side. It is an expanded sectional view of the drum filter with which the brush of this invention was mounted. It is the perspective view which looked at this invention in the left side. FIG. 2 is a partial enlarged cross-sectional view of “A” in FIG. 1. FIG. 3 is an enlarged cross-sectional view of a portion “B” in FIG. 2. FIG. 2 is a system diagram in which only the drum filter of FIG. 1 is configured. FIG. 2 is a configuration system diagram of a drum filter and a turbo filter of FIG. 1. It is a systematic diagram of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Cleaning machine main body, 2 Suction vacuum chamber, 3 Micro turbo filter, 4 Electric panel, 5 Electric equipment part, 6 Liquid suction pipe, 7 Drum filter, 8 Filter brush, 9 Scrap conveyor, 10 Chute, 11 Pipe flange, 12 Gyro Pump, 13 Hollow shaft motor speed reducer, 14 Vacuum gage tube, 15 Filtrate discharge tube, 16 Automatic discharge device, 17 Drum filter inspection door, 18, 18a Liquid drain tube, 19 Magnet, 20 Buffer caster, 21 Hollow shaft Motor speed reducer, 22 Liquid suction device, 22a Liquid suction pipe, 23 Vacuum gage, 24 Manual discharge device, 25 Liquid storage tank, 26 Simple connection unit, 27 Flexible PVC hose, 27a Suction port of flexible PVC hose, 29 Exit, 30 Stealflex Over scan, 31 hoses, liquid bath for 32 malodor removing.

Claims (6)

A cleaner body (1) having a shock absorber (20) attached to the lower end;
A suction vacuum tube (2) and a micro turbo filter (3) provided at an upper portion of the cleaner body (1);
An electric device portion (5) provided on an upper portion of the suction vacuum tube (2) and connected to an electric panel (4);
A drum filter (7) provided at a lower portion of the electric device section (5) and connected to a liquid suction pipe (6);
A scrap conveyor (9) provided in parallel with the drum filter (7) at the bottom of the drum filter (7);
A deposit discharge chute (10) provided at the discharge portion of the scrap conveyor (9) and provided with an automatic discharge device (16) at the lower end;
A door (17) for inspection of the drum filter (7) and liquid drain pipes (18), (18a) provided on a side surface of the suction vacuum chamber (2);
A gyro pump (12) provided under the micro turbo filter (3) connected to the drum filter (7) and a pipe flange (11);
A vacuum gage (23) having a vacuum gage tube (14) connected to the suction side of the gyro pump (12);
A mobile multifunction cleaning machine for a liquid storage tank, comprising a filtrate discharge pipe (15) connected to a discharge part of the gyro pump (12).   The liquid storage tank according to claim 1, wherein a filter brush (8) for preventing the drum filter (7) from being blocked is provided at an upper portion of the drum filter (7). Mobile multifunctional cleaning machine. Instead of the automatic discharge device (16) provided at the lower end of the discharge chute (10), a manual discharge device (24) having a sediment box is provided,
The mobile multi-function cleaner for a liquid storage tank according to claim 1 or 2, wherein the sediment is manually removed. A cleaner body (1) having a shock absorber (20) attached to the lower end;
A suction vacuum tube (2) and a micro turbo filter (3) provided at an upper portion of the cleaner body (1);
An electric device portion (5) provided on an upper portion of the suction vacuum tube (2) and connected to an electric panel (4);
A sediment discharge chute (10) provided with an automatic discharge device (16) at the lower end;
Liquid drain pipes (18), (18a) provided on the side surface of the suction vacuum chamber (2);
A gyro pump (12) provided on the lower side of the connected micro turbo filter (3);
A vacuum gage (23) having a vacuum gage tube (14) connected to the suction side of the gyro pump (12);
A mobile multifunction cleaning machine for a liquid storage tank, comprising a filtrate discharge pipe (15) connected to a discharge part of the gyro pump (12). A cleaner body (1) having a shock absorber (20) attached to the lower end;
An electrical device (5) provided on the upper portion of the suction vacuum tube (2) and connected to the electrical panel (4);
A drum filter (7) provided at a lower portion of the electric device section (5) and connected to a liquid suction pipe (6);
A scrap conveyor (9) provided in parallel with the drum filter (7) at the bottom of the drum filter (7);
A sediment discharge chute (10) provided at the discharge part of the scrap conveyor (9) and provided with an automatic discharge device (16) at the lower end;
A door (17) for inspection of the drum filter (7) and liquid drain pipes (18), (18a) provided on a side surface of the suction vacuum chamber (2);
A gyro pump (12) provided below the drum filter (7);
A vacuum gage (23) having a vacuum gage tube (14) connected to the suction side of the gyro pump (12);
A mobile multifunction cleaning machine for a liquid storage tank, comprising a filtrate discharge pipe (15) connected to a discharge part of the gyro pump (12). A malodor removing liquid tank (32) containing a malodor removing liquid immediately before the suction port of the gyro pump (12);
With a dropper that can inhale a very small amount of liquid during inhalation,
The mobile multi-function cleaner for a liquid storage tank according to claim 1, wherein malodor of the liquid mixed with the minute amount of liquid is removed while recycling.

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