KR20190136675A - Filtering device of cutting tool - Google Patents

Abstract

The present invention relates to a cutting oil supply and distribution apparatus for a cutting oil filter. The cutting oil supply and distribution apparatus includes: an upper shell connected to a frame to be able to be reciprocated vertically, and including an inlet port for receiving cutting oil including metal chips; a filter member installed under the upper shell to transfer the metal chips, which have been filtered out from the cutting oil, to a setting position; a lower shell fixed to the frame and including an outlet port allowing the discharge of the cutting oil, from which the metal chips have been filtered out through the filter member; and a spreading unit enabling the cutting oil and the metal chips flowing into the upper shell to fall onto the filter member evenly. According to the present invention, unlike existing technology, when cutting oil including metal chips is supplied to the filter member to filter the metal chips out, the cutting oil can be supplied evenly to the filter member. Therefore, a deterioration in purification efficiency caused by the accumulation of the metal chips in a specific part of the filter member can be prevented, and also, there is no need to frequently remove accumulated metal chips, so the durability of the filter member can be increased.

Description

Filtering device for cutting oil {FILTERING DEVICE OF CUTTING TOOL}

The present invention relates to a filtration device for cutting oil, and more particularly, to intensively accumulate metal chips on a specific part of the filter member by supplying evenly to the filter member when supplying to the filter member to filter out the metal chips contained in the cutting fluid. The present invention relates to a filtration device for cutting oil, which prevents the purification efficiency of cutting fluid from deteriorating and reduces frequent removal of metal chips due to concentrated accumulation of metal chips.

In general, the cutting oil used in cutting, grinding or precision grinding processing line of the workpiece contains chips generated during processing, so that the reuse of only the pure cutting oil is collected after removing foreign matters for reuse thereof.

In general, when machining a workpiece by using a machine tool such as a CNC machine, a machining center or a grinding machine, a large amount of chips (CHIP), cutting powder and grinding sludge (hereinafter referred to as "sludge") are generated. The high-temperature processing of the cutting materials and the cutting tool causes high heat to shorten the service life of the cutting tool, and the sludge generated during the cutting process is circulated in the state of cutting oil supplied at the same time as processing. Will be used in such a way.

This coolant does not cause any problems when it is initially supplied, but when used for a long time, the sludge contained in the coolant precipitates downward due to its own weight, and only the remaining coolant is circulated and reused, so the coolant flows in the circulation process. As a result, the sludge is circulated in a state where the injection nozzle is blocked.

In addition, as the sludge contained in the cutting oil is moved together with the cutting oil, the equipment is overloaded, resulting in excessive power loss, and overheating of the cutting tool and the cutting tool due to the insufficient supply of the cutting oil during processing. As a result, the efficiency of machining becomes poor, and on the other hand, a phenomenon such as a broken or severely worn cutting tool occurs, which causes a loss of time due to replacement of the cutting tool and a decrease in work efficiency due to a stop of the machine. There is.

Therefore, in recent years, in order to solve such problems, 'cutting oil filtration device' has been proposed as Korean Patent Registration No. 387169 and Korean Patent Registration No. 805248.

The above technical configuration is a background art for helping understanding of the present invention, and does not mean a conventional technology well known in the art.

Conventional coolant filtering device receives the coolant containing the chip and drops it into the filter and filters the chip. As the chip concentrates on a specific part of the filter where the coolant falls, the filter passes through the coolant due to the partial stacking of the chip. Is uneven and the filtering efficiency is lowered, and the coolant is not passed through the partial stacking position of the chip, so the replacement requires cleaning, which requires frequent cleaning, and the coolant filtration device must be settled for cleaning. Therefore, there is a problem that the processing efficiency is extremely reduced by having to stop the operation of the equipment.

Therefore, there is a need for improvement.

The present invention has been made to improve the above problems, the metal chip concentrated in the specific area of the filter member by supplying evenly to the filter member when supplied to the filter member to filter the metal chip contained in the cutting fluid It is an object of the present invention to provide a filtration device for cutting oil, which prevents the purification efficiency of cutting fluid from deteriorating and decreases the frequent removal of metal chips due to concentrated accumulation of metal chips.

Filter apparatus for cutting oil according to the present invention comprises: a frame; An upper shell connected to the frame so as to be reciprocated vertically and having an inlet port supplied with cutting fluid including a metal chip; A filter member provided below the upper shell and configured to transfer the filtered metal chip to the set position by passing the cutting fluid; A lower shell fixed to the frame and having an outlet port configured to discharge the cutting fluid from the metal chip while passing through the filter member; And a spread unit configured to evenly drop the metal chip and the cutting liquid introduced into the upper shell to the filter member.

The upper shell is connected to the operating member of the linear reciprocating operation while being supported by the frame is characterized in that the vertical reciprocating movement.

The spread unit is connected to the inlet port, branched from the inner side of the upper shell in various directions, and spaced apart from each other in a predetermined interval along a branched axial direction to form the metal chip and the cutting liquid. Distribution line for discharging to the filter member; And a mesh network member disposed below the distribution line inside the upper shell to uniformly spread the metal chip and the cutting liquid discharged from the distribution line to the filter member.

The distribution line or the upper shell is characterized in that it comprises a guide plate so as to evenly spray the metal chip and the cutting fluid discharged from the discharge port toward the mesh network member side.

The upper shell is characterized in that it comprises a vibrator to shake the mesh net member.

As described above, the cutting oil filtration apparatus according to the present invention, unlike the prior art, by supplying evenly to the filter member when filtering the metal chip contained in the cutting fluid to the filter member to filter the metal chip contained in the cutting fluid, It is possible to prevent the purification efficiency of the cutting fluid from deteriorating due to the intensive accumulation of, and to eliminate the frequent removal of the metal chips due to the intensive accumulation of the metal chips, thereby increasing the durability of the filter member.

1 is a front view of a filtration device of cutting oil according to an embodiment of the present invention.
2 is a plan view of a filtration device for cutting oil according to an embodiment of the present invention.
3 is a bottom view of a filtration device for cutting oil according to an embodiment of the present invention.
4 is a cross-sectional view of the filtration device of the cutting oil according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a filtration device of cutting oil according to the present invention. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a front view of a cutting oil filtration device according to an embodiment of the present invention, Figure 2 is a plan view of a cutting oil filtration device according to an embodiment of the present invention.

3 is a bottom view of a cutting oil filtration device according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the cutting oil filtration device according to an embodiment of the present invention.

1 to 4, the filtration device for cutting oil according to an embodiment of the present invention includes a frame 10, an upper shell 20, a filter member 30, a lower shell 40, and a spread unit 100. It includes.

The frame 10 supports or connects the upper shell 20 including the spread unit 100, the filter member 30, and the lower shell 40. Of course, the frame 10 is applicable to a variety of shapes and materials.

The upper shell 20 is connected to the frame 10 so as to be movable up and down. In particular, the frame 10 includes one or more actuating members 24 to linearly reciprocate forward and backward, and the upper shell 20 is connected to the actuating members 24 to be linearly reciprocated.

At this time, the upper shell 20 is lowered to the lower shell 40 side to form a mold closed (shape) to prevent the cutting fluid and the metal chip to be supplied to the outside to splash or leak. In addition, the upper shell 20 is raised in the opposite direction to the lower shell 40 side to maintain a state in which the metal chips stacked on the filter member 30 can be removed.

In particular, the upper shell 20 forms the inlet port 22 to receive the cutting liquid including the metal chip. At this time, the inlet port 22 is not limited to the number and shape.

In addition, the lower shell 40 is provided below the upper shell 20. At this time, the lower shell 40 and the upper shell 20 are formed to open in a direction facing each other.

Then, the filter member 30 is provided between the upper shell 20 and the lower shell 40, and serves to filter the metal chip while passing through the cutting liquid supplied through the inlet port 22.

The filter member 30 is applicable to various shapes and various materials.

In particular, the filter member 30 may be provided to rotate indefinitely through the feed roller (32). Accordingly, a plurality of feed rollers 32 are provided, and any one or part of the feed rollers 32 is forcibly rotated by the drive motor 34. For this reason, the drive motor 34 rotates the feed roller 32 in the state which laminated | stacked by filtering the metal chip of the set amount or set weight. Thus, the metal chip of the filter member 30 is transferred to the set position.

In addition, by changing the height of the feed roller 32, as the filter member 30 is set to be inclined downward in the direction to be transported for the discharge of the metal chip, the discharge efficiency of the metal chip can be increased.

At this time, the lower shell 40 is fixedly installed in the frame 10, and temporarily stores the cutting fluid filtering the metal chip while passing through the filter member 30, the outlet port 42 to allow discharge of the cutting fluid It is provided.

On the other hand, the spread unit 100 serves to evenly drop the metal chip and cutting fluid introduced into the inlet port 22 of the upper shell 20 to the filter member 30 located below the upper shell 20. Do it. Through this, since the cleaning interval for removing the metal chips stacked on the filter member 30 can be increased, the cleaning (filtering) of the cutting liquid can be performed for a longer time.

Here, the spread unit 100 includes a distribution line 110 and the mesh net member 120.

The distribution line 110 is connected to the inlet port 22 on the inner side of the upper shell 20 and is formed to diverge from the inner side of the upper shell 20 in various directions, and the outlet 112 along the branched axial direction. ) Is formed to be spaced at set intervals to guide discharge of the metal chip and cutting fluid to the filter member 30 over a wide range. At this time, the distribution line 110 can be modified in various shapes. In addition, the distribution line 110 is fixed to the inside of the upper shell 20 in a variety of ways, such as bolting.

In addition, the mesh net member 120 is disposed below the distribution line 110 inside the upper shell 20 so that the metal chips and cutting fluid discharged from the distribution line 110 are more evenly spread on the filter member 30. To induce falling.

At this time, the mesh network member 120 is not limited to the size and number of mesh holes.

In particular, when the mesh network member 120 is fixed, the metal chip may be caught without passing through the mesh network member 120, or concentrated at a specific position of the filter member 30 through the mesh network member 120. It may be stacked.

In order to prevent this, the upper shell 20 may include a vibrator 122 to vibrate and shake the mesh net member 120. The upper shell 20 forms a support jaw 23 on the inner side, the support jaw 23 fixes and supports the plurality of vibrators 122, and the mesh net member 120 is mounted on the vibrator 122.

Thus, the mesh net member 120 is shaken due to the vibration of the vibrator 122, so that the metal chip can fall while spreading evenly to the filter member (30).

In this case, the mesh network member 120 may be fixedly connected to the vibrator 122 by various methods. In addition, when the mesh net member 120 is constrained to the vibrator 122, the mesh net member 120 is sufficiently transmitted to the vibrating force of the vibrator 122 to the metal chip in a larger area toward the filter member 30 It can be discharged evenly.

In addition, the distribution line 110 or the upper shell 20 may be provided with a guide plate 130 so as to evenly spray the metal chip and the cutting liquid discharged from the discharge port 112 toward the mesh network member 120 side.

That is, the guide plate 130 prevents the metal chip from being concentrated along the edge of the filter member 30 by preventing cutting fluid from being scattered toward the edge of the filter member 30 positioned below the upper shell 20. Do it. Of course, the guide plate 130 may be modified in various shapes.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. I will understand. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: frame 20: upper shell
22: inlet port 30: filter member
32: feed roller 40: lower shell
42: outlet port 100: spread unit
110: distribution line 112: discharge port
120: mesh network member 130: guide plate

Claims (5)

frame;
An upper shell connected to the frame so as to be reciprocated vertically and having an inlet port supplied with cutting fluid including a metal chip;
A filter member provided below the upper shell and configured to transfer the filtered metal chips to the set position by passing the cutting fluid;
A lower shell fixed to the frame and having an outlet port configured to discharge the cutting fluid from the metal chip while passing through the filter member; And
And a spreading unit configured to evenly drop the metal chip and the cutting fluid introduced into the upper shell to the filter member.
The method of claim 1,
The upper shell is connected to the operating member of the linear reciprocating operation while being supported by the frame filtration device for cutting oil, characterized in that the vertical reciprocating movement.
The method of claim 1 or 2, wherein the spread unit,
It is connected to the inlet port, branched from the inner side of the upper shell to the various direction, and formed along the axial direction to the discharge port spaced at a predetermined interval to discharge the metal chip and the cutting fluid to the filter member Distribution line; And
Filtration of cutting oil, characterized in that the upper shell is disposed in the lower side of the distribution line, the metal chip discharged from the distribution line and the mesh network member to evenly spread and guide the cutting fluid to the filter member Device.
The method of claim 3, wherein
The distribution line or the upper shell is filtering device for cutting oil, characterized in that provided with a guide plate to evenly spray the metal chip and the cutting fluid discharged from the discharge port toward the mesh network member side.
The method of claim 3, wherein
The upper shell is filtering device for cutting oil, characterized in that it comprises a vibrator to shake the mesh net member.

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