JPH11277433A - Sludge removal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sludge removal device which can smoothly introduce sludge scraped off by a scraper, into, for example, a collecting box. SOLUTION: A sludge removal device 11 is composed of a demagnetizing part 27, an air blowing part 33 and a fluororesin coating. The demagnetizing part 27 demagnetizes sludge magnetized through magnetic induction by a magnet drum 23. The air blowing part 33 blows air onto the sludge. The fluororesin coating reduce the frictional coefficient of a slope 26b.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example, sludge removal applied to a machining fluid circulation system for removing sludge contained in a machining fluid flowing out of a grinding machine or the like and reusing the machining fluid. Related to the device.

[0002]

2. Description of the Related Art As this kind of sludge removing apparatus, for example, Japanese Patent Laid-Open No.
There is one disclosed in Japanese Patent No. 7426. In other words, as schematically shown in FIG. 6, the magnet drum 41 is rotatable, and adsorbs sludge (processing waste) contained in the processing liquid flowing out of the grinding machine or the like by magnetic force. The swash plate 42 includes a magnet drum 41 and a collection box 43.
Are arranged in an inclined state. Scraper 4
2 a is formed at the edge of the swash plate 42 facing the magnet drum 41 and scrapes sludge adsorbed on the surface of the magnet drum 41. The slope 42b is formed by the upper surface of the swash plate 42 that is continuous with the scraper 42a, and the sludge scraped off by the scraper 42a slides down toward the collection box 43.
The working fluid from which sludge has been removed in this way is reused.

However, the sludge scraped off by the scraper 42a is magnetized by the magnetic induction of the magnet drum 41, and a suction force is generated between the sludge and the magnet drum 41. Therefore, the sludge stagnated near the boundary between the scraper 42a and the magnet drum 41, and could not be smoothly slid down by the slope 42b. As a result, the sludge eventually accumulates in a lump on the slope 42b, and the maintenance of the device becomes troublesome, the magnet drum 41 is damaged, and the effect of scraping the sludge by the scraper 42a is reduced. Was occurring.

The present invention has been made in view of the above-mentioned problems in the prior art, and an object of the present invention is to smoothly slide sludge scraped off by a scraper, for example, toward a collection box. It is an object of the present invention to provide a sludge removing device capable of causing the sludge removal.

[0005]

According to the first aspect of the present invention, there is provided a demagnetizing means for demagnetizing sludge scraped by a scraper, and spraying a fluid on the sludge scraped by the scraper. A sludge removing device comprising at least one of a fluid spraying means and applying a low friction coating to a slope.

In the invention according to claim 2, the fluid spraying means blows air. In the invention of claim 3,
The low friction coating is made of a fluororesin. (Operation) In the present invention having the above structure, the working fluid from a grinding machine or the like containing sludge is adsorbed on the surface of the rotating magnet drum. Sludge adsorbed on the magnet drum is scraped off by a scraper. Sludge scraped off by the scraper is transferred to the slope, and slides down the slope by the action of gravity to be collected in a collection box or the like.

[0007] The sludge scraped off by the scraper is magnetized by the magnetic induction of the magnet drum, and an attractive force is generated between the sludge and the magnet drum. However, the slope with the low friction coating has a low frictional resistance with the sludge,
Therefore, the sludge can be smoothly slid down by the action of gravity.

[0008] The demagnetizing means demagnetizes the sludge, and the fluid spraying means sprays the fluid on the fluid. The sludge demagnetized by the demagnetizing means has a weaker attraction between the sludge and the magnet drum, and slides down the slope by the action of gravity. The sludge to which the fluid has been sprayed by the fluid spraying means is given a force to descend on the slope against the attraction force generated between the sludge and the magnet drum, and slides down the slope.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below. FIG. 1 is a schematic diagram showing a working fluid circulation system in which a sludge removing device 11 of the present embodiment is incorporated. The working fluid stored in the tank 12 is pumped toward the grinding machine 14 by the pump 13. The grinding machine 14 performs the grinding of the workpiece W by the grinding wheel 14a while receiving the supply of the processing liquid via the nozzle 15. The sludge removing device 11 collects the working fluid from the grinding machine 14 and removes sludge contained in the working fluid. The processing liquid from which sludge has been removed is returned to the tank 12, and is used again.

The sludge removing device 11 will be described. The main body frame 21 is provided therein with a flow path 22 for the processing liquid from the inflow port 22a to the outflow port 22b.
The magnet drum 23 has a magnet (not shown) inside, and is rotatably arranged in the main body frame 21. The magnet drum 23 is arranged so as to face the flow path 22, and the lower part thereof is immersed in the processing liquid on the flow path 22. The squeezing roller 24 is a magnet drum 2
3 are arranged opposite to each other. The collection box 25 is provided in parallel with the main body frame 21. The swash plate 26 is disposed between the magnet drum 23 and the collection box 25, and is inclined downward toward the collection box 25. The scraper 26a includes a swash plate 26.
Is formed by making the edge on the rising side facing the magnet drum 23 sharp. The upper surface of the swash plate 26 forms a slope 26b, and therefore, the slope 26b is a scraper 26a.
Is continuous.

As shown in FIGS. 1 to 3A, the sludge removing device 11 of the present embodiment has a demagnetizing section 27 as demagnetizing means. That is, the case 28 has a torii shape, and is arranged so as to straddle the upper part near the scraper 26a on the swash plate 26. The electromagnet 29 has a coil 29a wound around an iron core 29b and is housed in a case 28. The electromagnet 29 is connected to a DC power supply 31 via a drive circuit 30. The drive circuit 30 is connected to a control computer 32.

As shown in FIGS. 1, 2 and 4, the sludge removing device 11 has an air blowing section 33 as air blowing means. That is, the supply pipe 34 is disposed so as to straddle the upper part near the scraper 26a on the swash plate 26. The plurality of injection ports 34a are formed in the supply pipe 34 so as to face near the boundary between the scraper 26a and the magnet drum 23. The plurality of injection ports 34a are arranged in rows at predetermined intervals in the width direction of the swash plate 26. The discharge side of the air pump 35 is connected to a supply pipe 34. Drive circuit 36 for air pump 35
Are connected to the control computer 32.

[0013] As shown in FIG.
Has a fluororesin coat 37 as a low friction coating on a slope 26b of the swash plate 26. As fluororesin,
For example, PTFE (polytetrafluoroethylene) and the like can be mentioned. Slope 26 coated with fluororesin 37
b has a smaller coefficient of friction than when the swash plate body (for example, a steel plate) is in the state as it is. In addition, as the low friction coating, other than the fluororesin coating 37, for example, plating such as titanium plating or tin plating may be used. Also,
As another low friction film, a fine ceramic film may be formed on the slope 26b.

Next, the operation of the sludge removing device will be described. The working fluid from the grinding machine 14 containing the sludge flows into the flow channel 22 through the inflow port 22a and flows out toward the tank 12 through the outflow port 22b. The magnet drum 23 is rotationally driven by a driving unit (not shown), so that sludge, which is a magnetic substance, is sequentially attracted to the surface thereof in the circumferential direction. The sludge adsorbed on the magnet drum 23 is scraped off by the edge effect of the scraper 26a after the excess working fluid is removed by the squeezing roller 24. The sludge scraped off by the scraper 26a is transferred to the slope 26b, and slides down the slope 26b by the action of gravity to be collected in the collection box 25.

The sludge scraped off by the scraper 26a is magnetized by the magnetic induction of the magnet drum 23, and a suction force is generated between the sludge and the magnet drum 23. However, the slope 26 b on which the fluororesin coat 37 is applied has a small frictional resistance with the sludge, so that the sludge can be smoothly slid down toward the collection box 25 by the action of gravity.

The control computer 32 controls each of the driving circuits 30 and 36 at the time of starting the sludge removing device 11 at all times, at regular intervals, or by an operator's operation, and causes the demagnetizing section 27 to perform a demagnetizing operation. The air blowing section 33 is caused to perform an air blowing operation.

That is, the control computer 32 controls the DC power supply 31 via the drive circuit 30. Electromagnet 29
Is supplied by the DC power supply 31, a large magnetic field is generated in and around the space surrounded by the case 28 and the swash plate 26 as compared with the magnetic field generated by the magnetic induction action of the magnet drum 23. Then, the control computer 32 controls the current to the electromagnet 29 as shown in the graph of FIG. 3B, and gradually decreases the strength of the magnetic field while inverting the polarity of the magnetic field generated by the electromagnet 29. .
Therefore, the magnetic field generated by the magnetic induction effect of the magnet drum 23 gradually weakens due to the cancellation of the magnetic field generated by the electromagnet 29, and finally the sludge is demagnetized including the residual magnetism. As a result, the attractive force generated between the sludge and the magnet drum 23 disappears, and the sludge slides down the slope 26b toward the collection box 25 by the action of gravity.

The control computer 32 drives an air pump 35 via a drive circuit 36 to supply air under pressure to a supply pipe 34, and supplies the air via an injection port 34a near the boundary between the scraper 26a and the magnet drum 23, that is, ,
Spray where sludge is most likely to stagnate. Therefore, the sludge stagnated near the boundary between the scraper 26a and the magnet drum 23 is blown off by the air (the slope 2 against the suction force between the scraper 26a and the magnet drum 23).
6b), and the slope 26b is removed from the collection box 2
It slides down to 5.

The present embodiment having the above configuration has the following effects. (1) The sludge removing device 11 includes a demagnetizing section 27, an air blowing section 33, and a fluororesin coat 37. Therefore, as described above, the sludge scraped off by the scraper 26a can be smoothly slid down toward the collection box 25, and the sludge is removed by the scraper 26a.
Stagnation near the boundary between the magnetic drum 23 and the magnet drum 23 can be prevented. As a result, maintenance of the device 11 is simplified, and there is no problem such as damage to the magnet drum 23 or a reduction in the effect of scraping off sludge by the scraper 26a.

(2) The air blowing section 33 blows air as a fluid toward the sludge stagnating on the swash plate 26. For example, the use of a liquid such as water as another fluid does not depart from the gist of the present invention. However, in a configuration in which water is sprayed on the sludge, even the sprayed water is collected in the collection box 25. Therefore, a large collection box 25 is required, and the subsequent processing of the sludge collected in the collection box 25 becomes troublesome. However, if a gas such as air is used, such a problem can be avoided.

(3) The application of the fluororesin to the slope 26b can be performed more easily than, for example, plating. Note that, for example, the following embodiments can be implemented without departing from the spirit of the present invention.

In the above embodiment, the sludge removing device 11 includes all of the demagnetizing section 27, the air blowing section 33, and the fluororesin coat 37. However, the present invention is not limited to this, and even with a configuration including only the demagnetizing portion 27, the effect (1) can be sufficiently obtained. Alternatively, a configuration including only the air blowing unit 33 may be employed. Or,
A configuration including only the fluororesin coat 37 may be employed.

In the above embodiment, the sludge removing device 11 has all of the demagnetizing section 27, the air blowing section 33, and the fluororesin coat 37. However, the configuration is not limited to this, and a configuration including only the demagnetizing unit 27 and the air blowing unit 33 may be used. Alternatively, a configuration including only the demagnetizing portion 27 and the fluororesin coat 37 may be employed. Alternatively, a configuration including only the air blowing unit 33 and the fluororesin coat 37 may be employed.

The present invention is embodied in a sludge removing device of a working fluid circulation system applied to a processing machine other than the grinding machine 14. ○ The inclination angle of the slope 26b should be 90 ° or more. In other words, the slope 26b is made vertical or overhanged.

In place of the collection box 25, for example, a belt conveyor or the like is arranged. Then, the sludge sliding down the slope 26b is sequentially transported to a predetermined position by the belt conveyor.

The technical ideas that can be grasped from the above embodiment will be described. (1) The sludge removing device according to any one of claims 1 to 3, further comprising at least two of a demagnetizing unit 27, a fluid spraying unit 33, and a low friction coating 37.

In this way, the effect of smoothly sliding the sludge scraped off by the scraper 26a toward the collection box 25 is enhanced. (2) The sludge removing device according to any one of claims 1 to 3, further comprising all of the demagnetizing means 27, the fluid spraying means 33, and the low friction coating 37.

In this way, the effect of smoothly sliding the sludge scraped off by the scraper 26a toward the collection box 25 is further enhanced.

[0029]

According to the present invention having the above structure, sludge scraped off by a scraper can be smoothly slid down, for example, toward a collection box. Stagnant in the vicinity can be prevented. As a result, the maintenance of the apparatus is simplified, and there are no problems such as damage to the magnet drum or a reduction in the effect of scraping sludge by the scraper.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing a working fluid circulation system.

FIG. 2 is a plan view showing only a main configuration of the sludge removing device.

FIG. 3A is a schematic diagram illustrating a configuration of a demagnetizing unit,
(B) is a graph explaining a demagnetization operation.

FIG. 4 is a schematic diagram illustrating a configuration of an air blowing unit.

FIG. 5 is a vertical cross-sectional view of a swash plate near a scraper showing a low friction coat.

FIG. 6 is a schematic view showing a conventional sludge removing device.

[Explanation of symbols]

11 Sludge removal device, 14 Grinding machine, 23 Magnetic drum, 25 Collection box, 26a Scraper, 26
b: slope, 27: demagnetizing part as demagnetizing means, 33: air blowing part as fluid spraying means, 37: fluororesin coating as low friction coating.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Minoru Kuwahara 1-5-15 Tsubogawadai, Seki City, Gifu Prefecture

Claims (3)

[Claims] 1. A rotatable magnet drum for adsorbing sludge contained in a machining fluid flowing out of a grinding machine or the like by a magnetic force, a scraper for scraping off the sludge adsorbed on the surface of the magnet drum, and a continuous scraper. A sludge removing device arranged and provided with a slope for sliding the sludge scraped off by the scraper toward a collection box or the like; a demagnetizing means for demagnetizing the sludge scraped by the scraper; A fluid spraying means for spraying a fluid to the sludge scraped off by the fluid, and a sludge removing device provided with at least one of applying a low friction coating to a slope. 2. The sludge removing device according to claim 1, wherein said fluid spraying means blows air. 3. The sludge removing device according to claim 1, wherein the low friction coating is made of a fluororesin.