KR20210082887A - Coolant filter apparatus for machine tool - Google Patents

Abstract

The present invention relates to a coolant filter apparatus for a machine tool. The coolant filter apparatus for the machine tool of the present invention has a configuration capable of cleaning foreign substances adhering to a filter by supplying a coolant (1) to a coolant passage (20) formed between an outer cylinder (10) and an inner cylinder (30) when a coolant pump (3) is driven. Accordingly, the coolant filter apparatus for the machine tool can automatically clean the foreign substances adhering to the filter without removing the filter from the coolant pump (3).

Description

Coolant filter device for machine tools {COOLANT FILTER APPARATUS FOR MACHINE TOOL}

The present invention relates to a coolant filter device for a machine tool, and more particularly, a technology related to a coolant filter device for a machine tool in which foreign substances adhering to the filter are automatically removed and cleaned when the pump is driven without separating the filter from the pump to be.

In general, a machine that processes a metal or non-metal material by cutting or non-cutting using an appropriate tool is called a machine tool. Machine tools include commonly known lathes, milling machines, grinding machines, drill machines, tapping machines, boring machines, etc. In addition to general-purpose machine tools, there are NC (Numerical Control) machine tools, CNC (Computer Numerical Control) machine tools, turning centers, machining center tools, and the like.

When machining a workpiece using a tool in a machine tool, coolant (cutting oil) is sprayed and supplied using a nozzle provided in the machine tool to the area where the tool and the workpiece come into contact. It serves to lubricate the main shaft and is used throughout the machining area for machining the workpiece.

The coolant is stored in the coolant tank provided in the machine tool, the coolant stored in the coolant tank moves through the coolant line by the operation of the pump, and the coolant line is finally connected to the nozzle provided in the machine tool, Coolant is sprayed to the desired area through the nozzle.

On the other hand, when a workpiece is cut by a tool, foreign substances called cutting chips are generated, and some of the foreign substances are mixed with the coolant and flowed into the coolant tank.

When the coolant containing foreign substances is sprayed onto the main shaft on which the workpiece is machined, it causes damage to the spindle and, in particular, deteriorates the machining quality of the workpiece.

Accordingly, the coolant supplied from the coolant tank to the main shaft on which the workpiece is processed is supplied with clean coolant from which foreign substances are removed. For this, a filter for filtering foreign substances is installed in the coolant tank in connection with the pump.

When the pump operates, the coolant stored in the coolant tank passes through the filter and is sucked into the pump. In this process, foreign substances filtered by the filter adhere to the filter and cause clogging of the filter, and the clogging of the filter by foreign substances is excessive. In the past, in order to remove the clogging of the filter, the filter was removed from the pump and then the foreign substances adhering to the filter were manually cleaned manually, which made the operation inconvenient and time consuming. There is a downside to being

The matters described as the background art above are only for improving the understanding of the background of the present invention, and should not be taken as acknowledging that they correspond to the prior art already known to those of ordinary skill in the art.

Korean Patent Publication No. 10-2019-0045447

The present invention is a coolant filter device for machine tools having a function of removing foreign substances from the filter so that the filter is not clogged by foreign substances, and it removes foreign substances adhering to the filter when the pump is driven without separating the filter from the pump. The purpose is to enable automatic cleaning.

The present invention provides a coolant filter device for a machine tool for achieving the above object, comprising: an outer cylinder having a mesh portion having a plurality of holes formed therein and a non-mesh portion having no holes formed therein so that the coolant passes; an inner cylinder which is positioned in the outer cylinder and forms a coolant passage between the non-mesh part and is coupled to the outer cylinder and the coolant pump; and a coolant pipe connected to the coolant passage through the outer tube.

The outer cylinder is formed in a cylindrical shape, and the non-mesh portion is positioned at the upper portion, the mesh portion is positioned below the non-mesh portion, and the lower end is closed by a cover.

The inner cylinder is positioned as a non-mesh part of the outer cylinder, and a cylindrical part forming a coolant passage between the non-mesh part; and an inner cylinder flange formed at the upper end of the cylindrical portion and coupled to the upper end of the outer cylinder and the coolant pump.

The suction port of the coolant pump passes through the inner cylinder and is characterized in that the lower end is installed to be located in the mesh part of the outer cylinder.

the discharge port of the coolant pump is connected to a nozzle device through which the coolant is sprayed through a coolant line; a bypass line is connected to the coolant line connecting the discharge port of the coolant pump and the nozzle device; The bypass line is characterized in that it is connected to the coolant pipe.

It further includes a valve member installed at a portion where the bypass line and the coolant pipe are connected; The valve member is characterized in that it is composed of any one of a ball valve or a solenoid valve that operates to open and close the bypass line.

When the coolant pump is operated, the coolant passing through the coolant line is introduced into the coolant passage through the bypass line and the coolant pipe; The coolant introduced into the coolant passage is sprayed while moving in the downward direction of the outer cylinder; When the coolant pump is operated by the injection pressure of the coolant injected in the downward direction of the outer cylinder through the coolant passage, foreign substances that adhere to the outer cylinder and close the hole are separated from the outer cylinder.

The coolant filter device for a machine tool according to the present invention has a configuration that can automatically clean foreign substances adhering to the filter when the coolant pump is driven without separating the filter from the coolant pump, thereby greatly improving convenience. there is an effect

1 is a schematic configuration diagram of a coolant system equipped with a coolant filter device according to the present invention;
2 is a perspective view of a coolant filter device according to the present invention;
3 is a cross-sectional view of FIG. 2;
FIG. 4 is an enlarged view of a portion where the inner tube is installed in FIG. 3 .

Hereinafter, a coolant filter device for a machine tool according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

When cutting a workpiece using a tool in a machine tool, coolant (cutting oil) is sprayed and supplied using a nozzle provided in the machine tool to the part where the tool and the workpiece come into contact. This coolant cools the tool and the workpiece. It plays a role of lubricating and lubricating the main shaft, and is used throughout the machining area to process the workpiece.

As shown in FIG. 1 , the coolant 1 is stored in the coolant tank 2 , and the coolant stored in the coolant tank 2 is operated to the coolant line 4 by the operation of the coolant pump 3 . It is connected to the nozzle device (6) passing through the main shaft (5).

Therefore, when the workpiece is cut by the tool bitten by the main shaft (5), foreign substances called cutting chips are generated, and the foreign substances are mixed with the coolant (1) sprayed through the nozzle device (6) in the coolant tank ( 2) is returned.

The coolant (1) stored in the coolant tank (2) is a coolant mixed with foreign substances, and the coolant mixed with foreign substances is filtered while passing through the filter device according to the present invention when the coolant pump (3) is operated. , the clean coolant from which foreign substances have been filtered by the filter device is repeatedly circulated through the coolant line 4 and supplied to the nozzle device 6 .

On the other hand, in the coolant filter device 100 according to the present invention, as shown in FIGS. 1 to 4 , the mesh portion 11 and the holes 11a in which a plurality of holes 11a are formed to allow the coolant 1 to pass therethrough. The outer cylinder 10 provided with the non-mesh portion 12 that is not formed; an inner cylinder 30 positioned in the outer cylinder 10 to form a coolant passage 20 between the non-mesh part 12 and coupled to the outer cylinder 10 and the coolant pump 3; and a coolant pipe 40 connected to the coolant passage 20 through the outer tube 10 .

The outer cylinder 10 is formed in a cylindrical shape, the non-mesh part 12 is positioned on the upper part, the mesh part 11 is positioned below the non-mesh part 12 , and the lower part is closed by the cover 13 . has

The lower cover 13 may be integrally formed with the outer tube 10 , and may be manufactured as a separate product from the outer tube 10 and may be coupled to a structure separated from the outer tube 10 if necessary.

The inner cylinder 30 is composed of a cylindrical portion 31 and an inner cylinder flange portion 32 connected to the cylindrical portion 31 .

The cylindrical portion 31 of the inner cylinder 30 is disposed in the non-mesh portion 12 of the outer cylinder 10 while being spaced apart from the non-mesh portion 12, thereby being cooled between the non-mesh portion 12 and the inner cylinder (30). A runt passage 20 is formed.

The cylindrical portion 31 of the inner cylinder 30 has a configuration in which a hole is not formed on the outer circumferential surface, through which the cylindrical portion 31 of the inner cylinder 30 and the non-mesh portion 12 of the outer cylinder 10 are cooled between them. It is configured to serve as a partition wall for forming the runt passage 20 .

The inner cylinder flange 32 is a portion coupled to the upper end of the cylindrical portion 31 and also coupled to the coolant pump 3 .

The coolant pipe 40 is configured such that the upper end protrudes upward through the inner cylinder flange 32 , and the lower end penetrates the non-mesh portion 12 of the outer cylinder 10 and is connected to the coolant passage 20 .

In the coolant pump 3 installed to be coupled to the inner cylinder flange 32 inside the coolant tank 2 , the suction port 3a for sucking the coolant 1 closes the cylindrical portion 31 of the inner cylinder 30 . It has a configuration installed so that the lower end is located in the mesh portion 11 of the outer cylinder 10 through the passage.

In addition, the discharge port 3b of the coolant pump 3 is connected to the nozzle device 6 through which the coolant 1 is sprayed through the coolant line 4 , and the discharge port 3b of the coolant pump 3 is connected to the nozzle device 6 . ) and the coolant line 4 connecting the nozzle device 6 , a bypass line 50 is connected, and the bypass line 50 is connected to the coolant pipe 40 .

When the coolant pump 3 operates, most of the coolant 1 discharged through the discharge port 3b of the coolant pump 3 moves to the nozzle device 6 through the coolant line 4, and some of the coolant 1 moves to the coolant pipe 40 through the bypass line 50 .

Therefore, in the embodiment according to the present invention, some of the coolant 1 moving to the nozzle device 6 through the coolant line 4 passes through the coolant pipe through the bypass line 50 . With a configuration that can be supplied to ( 40 ), there is an advantage in that it is not necessary to separately provide a coolant for supplying to the coolant pipe ( 40 ) through this, thereby reducing costs.

The embodiment according to the present invention further includes a valve member 60 installed at a portion where the bypass line 50 and the coolant pipe 40 are connected, wherein the valve member 60 is the bypass line 50 . It may be composed of either a ball valve or a solenoid valve that operates to open and close the

The valve member 60 may be configured to be opened and closed automatically over a predetermined time or to be opened and closed manually.

Hereinafter, the operation of the embodiment according to the present invention will be described.

When the coolant pump (3) operates, the coolant (1) stored in the coolant tank (2) is sucked into the suction port (3a) of the coolant pump (3) and then discharged through the discharge port (3b), and the coolant pump Most of the coolant 1 discharged through the discharge port 3b of (3) is supplied to the nozzle device 6 passing through the main shaft 5 through the coolant line 4 .

When the workpiece is cut by the tool bitten by the main shaft (5), foreign substances called cutting chips are generated, and the foreign substances are mixed with the coolant (1) sprayed through the nozzle device (6) to the coolant tank (2) is returned as

When the coolant pump (3) is operated, a portion of the coolant (1) passing through the coolant line (4) flows into the coolant pipe (40) through the bypass line (50), and the coolant pipe (40) The coolant (1) introduced into the coolant channel (20) flows into the coolant passage (20), and the coolant (1) introduced into the coolant passage (20) moves downward of the outer tube (10) along the coolant passage (20). It is sprayed while moving (arrow M1 in Fig. 4).

In addition, when the coolant 1 stored in the coolant tank 2 is sucked into the suction port 3a of the coolant pump 3 due to the operation of the coolant pump 3, foreign substances contained in the coolant 1 It sticks to the outer tube 10 and closes the hole 11a. At this time, foreign substances sticking to the outer tube 10 and blocking the hole 11a pass through the coolant passage 20 in the lower direction of the outer tube 10 (Fig. After being sprayed by the arrow M1 of 4), it is separated from the outer cylinder 10 by the injection pressure of the coolant 1 that moves in the outward direction of the outer cylinder 10 again (arrow M2 in FIG. 4). (10) It is possible to automatically clean the foreign substances adhering to it.

As described above, the coolant filter device according to the present invention has a configuration that can automatically clean foreign substances adhering to the filter when the coolant pump 3 is driven without removing the filter from the coolant pump 3 . This has the advantage of greatly improving convenience.

Although the present invention has been shown and described with reference to specific embodiments, it is within the art that the present invention can be variously improved and changed without departing from the spirit of the present invention provided by the following claims. It will be obvious to those of ordinary skill in the art.

1 - Coolant 2 - Coolant Tank
3 - coolant pump 3a - inlet
3b - outlet 4 - coolant line
5 - Spindle 6 - Nozzle device
10 - outer cylinder 11 - mesh part
11a - hole 12 - non-mesh part
13 - cover 20 - coolant passage
30 - inner cylinder 31 - cylindrical part
32 - Inner cylinder flange part 40 - Coolant pipe
50 - bypass line 60 - valve member

Claims (7)

an outer cylinder provided with a mesh portion in which a plurality of holes are formed and a non-mesh portion in which holes are not formed so that the coolant passes;
an inner cylinder positioned in the outer cylinder to form a coolant passage between the non-mesh part and coupled to the outer cylinder and the coolant pump; and
and a coolant pipe connected to the coolant passage through the outer cylinder. The method according to claim 1,
The outer cylinder is formed in a cylindrical shape, so that the non-mesh part is positioned on the upper part, the mesh part is positioned below the non-mesh part, and the lower part is sealed by a cover. The method according to claim 1,
The inner cylinder is located as a non-mesh part of the outer cylinder, and a cylindrical part forming a coolant passage between the non-mesh part; and
and an inner cylinder flange formed at the upper end of the cylindrical portion and coupled to the upper end of the outer cylinder and the coolant pump. The method according to claim 1,
The coolant filter device for a machine tool, characterized in that the suction port of the coolant pump is installed such that the lower end is located in the mesh part of the outer cylinder passing through the inner cylinder. The method according to claim 1,
a discharge port of the coolant pump is connected to a nozzle device through which coolant is sprayed through a coolant line;
a coolant line connecting the discharge port of the coolant pump and the nozzle device is connected to a bypass line;
The coolant filter device for a machine tool, characterized in that the bypass line is connected to the coolant pipe. 6. The method of claim 5,
It further includes a valve member installed at a portion where the bypass line and the coolant pipe are connected;
The valve member is a coolant filter device for a machine tool, characterized in that it is composed of any one of a ball valve or a solenoid valve that operates to open and close the bypass line. 6. The method of claim 5,
When the coolant pump is operated, the coolant passing through the coolant line is introduced into the coolant passage through the bypass line and the coolant pipe;
The coolant introduced into the coolant passage is sprayed while moving in the downward direction of the outer cylinder;
Coolant for a machine tool, characterized in that foreign substances sticking to the outer cylinder and sealing the hole are separated from the outer cylinder when the coolant pump is operated by the injection pressure of the coolant injected in the lower direction of the outer cylinder through the coolant passage. filter device.

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