KR100330506B1 - Chip filter apparatus of cutting oil - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chip filtration apparatus for cutting oil which filters cutting oil discharged from various machine tools to remove chips or sludge contained in the cutting oil, and in particular, cutting oil collected in a dirty tank. A magnetic part capable of filtering heavy metal chips by magnetic force, a chip discharging means for continuously discharging the chip into the chip box outside the dirty tank, and a cutting oil first filtered from the magnetic part into a pump room. A transfer chute for transferring, a receiving main body for receiving the coolant in the pump room, a follicle installed in the receiving main body to filter chips and sludge, and a discharged coolant from the follicles to the outside of the receiving main body. A filter pump and a filter preparation means for filtration of a follicle for crosslinking to the eye of the follicle with a predetermined amount of diatomaceous earth and chips in the cutting oil supplied by the filter pump; Backwashing means of the follicle to remove clogging of the outer surface of the fabric, and the cutting oil provided with a system pump coupled to the upper portion of the clean tank to supply the coolant collected into the clean tank to the coolant storage tank disposed remotely Provides a chip filtration device.

Description

Chip filter of cutting oil {CHIP FILTER APPARATUS OF CUTTING OIL}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chip filtration device for cutting oil for filtering chips, sludges, and the like contained in cutting oil discharged from various machine tools. In particular, the chips and the like of cutting oil are mixed with magnetic force and follicles. By maximizing the filtration effect and automatically detecting the clogging of the follicles, automatically changing the flow direction of the cutting oil and spraying the air by backwashing the follicles with the cutting oil and air so that the clogging of the follicles can be eliminated. The present invention relates to a chip filtration device for cutting oil, which can maximize cost reduction and smoothly perform filtration.

In general, the cutting oil used in machine tools includes a large amount of metallic or non-metal chips and sludge. In order to reuse the cutting oil, conventionally, a method of filtering metallic chips by magnetic force or a filtration method by follicles is used. Has come.

In the past, however, metallic workpieces were the mainstream, but with the development of modern industry, the workpieces contain non-metallic properties, which limits the filtration method by using magnetic materials, which together with metallic and non-metallic chips and sludge in the cutting oil. If included, filtration by follicles is more effective.

As the filtration operation by the follicles, as shown in FIG. 1, the follicles 2 are embedded in the accommodating main body 1 to accommodate a predetermined cutting fluid so that the cutting oil may flow into the follicles 2, The cutting oil passes through the follicle 2 and chips or sludges remain or are laminated to the follicle 2 so as to obtain clean cutting oil.

However, the filtration device by the follicle 2 has a problem in that the fabrication process is very simple while damage to the follicle 2 occurs when chips having large particles are stacked inside the follicle 2, and the follicle 2 as described above. When damage is applied), chips of smaller particles pass through the damaged portion and are included in the cutting oil again, thereby lowering the filtration effect.

In addition, when a large amount of chips are stacked in the follicle 2 and the filtering effect is lowered, the follicle 2 should be replaced. However, the exchange time varies slightly depending on the amount of use. In addition, there is a problem that the maintenance cost is increased by frequently exchanging expensive follicles 2.

In addition, in order to replace the follicles 2, the assembly has to be dismantled and the follicles 2 need to be replaced.

The present invention has been made in order to solve the above problems can be mixed with the filtration method using a magnetic material and the filtration method using a follicle to filter the metallic chips that can damage the follicles and fine chips or non-metal The sex chips can be filtered by the follicles and at the same time automatically detect the amount of chips or sludges attached to the outer surface of the follicles, and when the clogging occurs, the chips are automatically washed to remove chips or sludges from the follicles. By resupplying to the dirty tank and allowing it to be filtered again from the beginning, the follicles can be prevented from being damaged and the clogging can be eliminated immediately, allowing the follicles to be used for long periods of time and reducing maintenance costs. Serve the purpose of doing so.

In order to achieve the above object, the present invention is a magnetic portion attached to the bottom surface of the dirty tank to filter the metallic chip of the cutting oil collected in the dirty tank (dirty) by magnetic force, and to the dirty tank 'A' shaped scraper coupled to the built-in conveyor to continuously discharge chips attached to the magnetic part to the chip box outside the dirty tank, and magnetic to transfer the coolant first filtered from the magnetic part to the pump room. A transfer chute connected to the pump room spaced apart from the upper side by a predetermined distance and an inlet for receiving the coolant of the pump room at an upper predetermined position and a predetermined inclined surface toward a lower center from a predetermined accommodation space and a lower predetermined position. Among the receiving body having a lower discharge pipe formed at the end thereof, and the cutting oil installed in the receiving body and supplied to the inlet Feeding the coolant in the pump room through the supply pipe connected to the inlet, and through the supply pipe connected to the inlet and the follicle for filtering the chip and sludge, the follicle inside the receiving body and filtered from the follicle A filter pump for discharging the cutting oil to the outside of the accommodating body, a coupling hole formed in the upper cover of the accommodating body, a disc formed somewhat larger in diameter than the coupling hole so as to be seated in the coupling hole and coupled to the bolt; Forming a crosslinking phenomenon in the follicle of the follicle with a predetermined amount of diatomaceous earth and chips in the coolant supplied by the filter pump and the discharge pipe connected between the upper discharge pipe and the clean tank coupled to the disc to discharge the coolant filtered by the clean tank. Filtration preparation means of the follicle, backwashing means of the follicle for eliminating clogging of the outer surface of the follicle, and the clean In order to supply the croissant collecting the coolant in the coolant storage tank disposed in the remote system includes a pump coupled to the upper portion of the clean tank.

1 is a view showing a chip filtration device of a conventional cutting oil.

Figure 2 is an external perspective view showing the configuration of the present invention.

3 is a view showing the overall configuration and operation of the present invention.

Figure 4 is a view showing the state of the follicles in the cutting fluid filtration according to the present invention.

5 is a view showing the state of the follicles during the backwash of the follicles according to the present invention.

Figure 6 illustrates an embodiment of the present invention.

Explanation of Drawings

101-supply pipe 102-transfer chute 103-magnetic part

104-Receptacle 105-Slope 106-Follicle

107-Secondary main body 108-Pump room 109-Conveyor

110-dirty tank 111-scraper 112-chipbox

113-filter pump 114-follicle 115-clean tank

117-bolt 118-top cover 119-engagement hole

121-inlet 122-system pump 123-coupled pipe

124-frame 125-engage 126,127-upper, lower clamp

128-outlet 129,130-upper and lower outlet 131-outlet

132-air pipe 133-air pump 136-piezoelectric sensor

137-disc 139-refill tube 141-floating

142-Guide Tube 143-Guide 144,145-First and Second Detection Sensors

147-Induction Plate 148-Membrane 149-Separator

151,152,153,154,155-1st, 2nd, 3rd, 4th, 5th valve

Hereinafter, the configuration of the present invention will be described in Figures 2 to 6 as follows.

A cutting oil chip filtration device for filtering cutting oil discharged from various machine tools to remove chips or sludge included in the cutting oil, wherein the cutting oil collected in the dirty tank 110 is metallic. The magnetic part 103 attached to the bottom of the dirty tank 110 and the conveyor 109 built into the dirty tank 110 are coupled to the magnetic part 103 so that the chip can be filtered by magnetic force. 'A' shaped scraper 111 to continuously discharge the attached chips to the chip box 112 outside the dirty tank 110 and the coolant first filtered by the magnetic part 103 to the pump room 108 A transfer chute 102 connected to the pump room 108 spaced apart from the magnetic part by a predetermined distance from the magnetic part to be transferred to the upper side thereof, and an inlet 121 for receiving the cutting oil of the pump room 108 at an upper predetermined position. From the predetermined storage space and the lower predetermined position Chip and sludge in the cutting oil which has a predetermined inclined surface 105 toward the center and the lower discharge pipe 130 is formed at the end thereof, and the cutting oil which is installed in the receiving body 104 and supplied to the inlet 121 The pump room through the follicle 106 for filtering the back, the coupling means of the follicle for coupling the follicle 106 to the inside of the receiving body 104, and the supply pipe 101 connected to the inlet 121 108 is supplied to the cutting oil in the receiving body 104 and the filter pump for discharging the cutting oil filtered from the follicle 106 to the outside of the receiving body 104, and to the upper cover 118 of the receiving body 104 The coupling hole 119 is formed, the disk 137 is formed somewhat larger in diameter than the coupling hole 119 to be seated in the coupling hole 119 and coupled to the bolt 117, by the follicle 106 The upper discharge pipe 129 and the clean coupled to the disc 137 to discharge the filtered cutting oil to the clean tank 115 Filtration of the follicle 106 to form a cross-linking phenomenon in the eye of the follicle 106 with a predetermined amount of diatomaceous earth and chips in the cutting oil supplied by the filter pump 113 and the discharge pipe 131 connected between the flask 115. A cutting oil storage tank (not shown) in which preparation means, backwashing means of the follicle 106 for eliminating clogging of the outer surface of the follicle 106, and cutting oil collected by the clean tank 115 are remotely disposed. It is provided with a system pump 122 coupled to the upper portion of the clean tank 115 to supply to).

In addition, the coupling means of the follicle is formed with a predetermined diameter toward the lower side from the bottom of the disc 137 and the outlet tube 128 extending from the upper discharge pipe 129 and the bottom of the disc 137 Coupling tube 123, a plurality of frames one end is attached to the outer circumferential surface of the coupling tube 123, and a coupling tool attached to the other end of the lower frame 124 opposite to the coupling tube 123 ( 125 and the follicle 106 extending from the coupling pipe 123 to the coupling hole 125 to be somewhat loosely coated in the circumferential direction, and the follicle 106 outside the coupling pipe 123 and the coupling hole 125. ) Is provided with upper and lower clamps 126 and 127 which are to be fixed.

And, the filter preparation means of the follicle is a resupply pipe 139 is coupled to a predetermined position of the discharge pipe 131 for resupplying the cutting oil filtered in the follicle 106 to the dirty tank 110, the resupply pipe 139 The fifth valve 155 is coupled to the upper predetermined position of the filter to be opened and shut off during the filtration preparation operation and the filtration operation, and the cutting oil filtered in the follicle 106 during the filtration preparation operation is introduced into the clean tank 115 In order to prevent that is provided with a second valve 152 coupled to a predetermined position of the discharge pipe (131).

In addition, the backwashing means of the follicle 106 is coupled to the piezoelectric sensor 136 and the lower discharge pipe 130 to measure the pressure in the receiving body 104, a small amount of cutting oil and chips during the filtration operation When discharged to the dirty tank 110 and the backwash operation, the third valve 153 to discharge all the cutting oil and chips to the dirty tank 110, and when the cutting oil is discharged to the third valve 153 In order to prevent the flow of cutting oil back into the supply pipe 101, the first pipe 151 coupled to the supply pipe 101, and the air pipe 132 in the discharge pipe 131 at a predetermined position above the receiving body 104 Connected to the air pump 133 to inject air into the receiving body 104 through the discharge pipe 131 during backwashing, and the air compressed by the air pump 133 is opened and sprayed at a time. Fourth valve 154 and the piezoelectric sensor coupled to the air pipe 132 to achieve the blocking If the measured value of 136 is greater than or equal to the set value, it is provided with a controller (not shown) configured to control the blocking, opening, and opening degree of the first, third, and fourth valves 151, 153, and 154.

Then, the opening and closing operation of the second valve 152 and the fifth valve 155 is to be made by the control of the controller.

In addition, the auxiliary receiving body 107 is coupled to the upper portion of the upper cover 118 so that a predetermined space is formed, and the discharge pipe 131 is coupled to the auxiliary receiving body 107 during the air injection of the air pump 133 Cutting oil and air to be supplied to the receiving body 104 through the upper discharge pipe (129).

Referring to Figures 2 to 6 the technology of the present invention having the above configuration is as follows.

First, the cutting oil discharged from various machine tools is transferred to a transfer device (not shown) to be supplied to the dirty tank 110. The dirty tank 110 controls the degree of filtration by the follicle 106, which will be described later. In order to be able to inject a predetermined amount of diatomaceous earth according to the intention of the operator.

In addition, the cutting oil collected in the dirty tank 110 is transferred to the pump room 108 through the transfer chute 102 installed in the dirty tank 110 with a predetermined flow rate by driving the filter pump 113. , The metal chips and the like contained in the cutting oil to be transported can be attached to the magnetic part 103 by magnetic force as shown in FIG. 3 so as not to pass through the transfer chute 102.

As described above, the metallic chips attached to the magnetic part 103 are made by the conveying of the conveyor 109 in the dirty tank 110, and at the same time, the plurality of scrapers 111 attached to the conveyor 109 The chip attached to the magnetic part 103 is scratched to discharge the chip into the chip box 112 disposed outside.

On the other hand, the cutting oil collected in the pump room 108 through the transfer chute 102 is received through the supply pipe 101, the first valve 151 and the inlet 121 by the drive of the filter pump 113. 104, it is supplied as shown in FIG.

At this time, the cutting oil supplied from the upper portion of the receiving body 104 is opened by about 30% of the third valve 153 as shown in Table 1 by the predetermined amount of cutting oil is lower discharge pipe 130 and the third valve 153 It is discharged to the dirty tank 110 through, at this time, the receiving body 104 as shown in Figure 3 by the flow rate by the filter pump 113 and the inclined surface 105 formed under the receiving body 104 Whirlwind phenomenon occurs in the) chip or sludge is floating in the cutting oil without being discharged directly to the lower discharge pipe (130).

As described above, about 30% of the cutting oil is supplied to the receiving body 104 and discharged to the lower discharge pipe 130, and about 70% of the cutting oil is discharged to the upper discharge pipe 129 through the outlet pipe 128. At the same time, chips and sludge etc. are filtered through the follicle 106.

As described above, the chip or sludge is filtered in the follicle 106, and during the initial operation, the filter preparation operation should be performed for a predetermined time. The preparation operation of diatomaceous earth and the magnetic part introduced from the dirty tank 110 is performed. The fine chips, sludge, etc., which have passed through 103, cause the cross-linking phenomenon to occur in the follicle 114 as shown in the partial enlarged view of FIG. 4 so that the degree of filtration by the follicle 106 can be adjusted.

Therefore, the coolant discharged through the upper discharge pipe 129 during the initial operation is closed by closing the second valve 152 and opening the fifth valve 155 for a predetermined time as shown in Table 1 and FIG. The coolant may be resupplied to the dirty tank 110 through the resupply pipe 139 to allow crosslinking to occur in the eye of the follicle 106 for a predetermined time.

As described above, when crosslinking occurs in the eye 114 of the follicle for a predetermined time, the cutting oil discharged after the second valve 152 is completely opened by the controller and the fifth valve 155 is closed is discharged. Filtration of cutting oil is carried out in earnest so that it can be supplied to the furnace.

In addition, the cutting oil discharged to the clean tank 115 may be supplied to the cutting oil storage tank (not shown) disposed remotely by the system pump 122.

At this time, the bottom surface of the clean tank 115 is formed with a guide plate 147 having a predetermined inclination as shown in FIG. 3 so that the cutting oil supplied flows obliquely into the predetermined area by the guide plate 147. The fine chips or sludge passed through the 106 are overflowed to the separation hole 149 formed in the partitions of the pump room 108 and the clean tank 115 to be filtered again as shown in FIG. 3.

That is, the fine chips gathered in a predetermined region by the guide plate 147 flow through the separation membrane 148 and the partition wall and flow into the pump room 108 by the flow rate of the cutting oil supplied (OVERFLOW).

When the filtration is carried out in earnest as described above, if the cross-linking phenomenon in the follicle 114 deepens and clogging occurs, the amount of cutting oil is reduced and the amount of cutting oil supplied is not matched with the amount of cutting oil discharged. The pressure rises inside the main body 104.

Therefore, the piezoelectric sensor 136 shown in FIG. 3 measures the pressure inside the accommodating body 104, and the controller compares the measured value measured by the piezoelectric sensor 136 with a preset value. If it is greater than or equal to the value, it is determined that clogging occurs in the follicle 106 so that the backwash operation may be performed.

That is, when the measured value by the piezoelectric sensor 136 is smaller than the set value, the cutting oil is supplied to the clean tank 115 through the outlet pipe 128, the upper discharge pipe 129 and the discharge pipe 131 as described above. If the measured value by the piezoelectric sensor 136 is greater than or equal to the set value, the controller closes the second valve 152 and operates the air pump 133 simultaneously with the fourth valve 154 and the third valve. The valve 153 is completely opened.

Therefore, the air compressed by the air pump 133 is injected along with the cutting oil to the outlet pipe 128 through the fourth valve 154 and the auxiliary receiving body 107, so that the follicle 106 is In the state of FIG. 4, the diatomaceous earth, the chip, and the sludge, which are expanded to the state of FIG. 5 at the time of backwashing, are detached from the diaphragm 106 and temporarily discharged to the dirty tank 110 through the third valve 153. do.

Meanwhile, as shown in FIG. 6, the auxiliary receiving body 107 is coupled to the upper portion of the receiving body 104, and cutting oil can be discharged from the auxiliary receiving body 107, and at the same time, air is stored in the auxiliary receiving body 107. It is also a preferred embodiment that the cutting oil and air can be supplied to the receiving body 104 at the same time through the auxiliary receiving body 107 by direct injection to the more powerful to backwash the follicle 106 more powerfully. I will.

As described above, when the backwashing (removing the clogging of the follicles 114 of the follicle 114) is performed by the control of the controller for a predetermined time, the fourth valve 154 is closed by the control of the controller to block the supply of air. The five valves 155 are opened to allow the cutting oil discharged to the upper discharge pipe 129 to be resupplyed to the dirty tank 110, and the third valve 153 is opened so that only about 30% of the third valve 153 can be opened. Only a predetermined amount of the cutting oil to be discharged so that the crosslinking phenomenon as described above is made again.

Then, after a predetermined time, the fifth valve 155 is closed and the second valve 152 is opened so that the cutting oil discharged from the receiving body 104 can be supplied to the clean tank 115 and the clean tank ( The coolant supplied to 115 may be supplied to the coolant storage tank by the system pump 122.

As described above, the backwashing operation for eliminating the clogging of the eye 114 of the follicle is measured by the piezoelectric sensor 136 and the value of the clogging of the follicle 106 according to the pressure change in the receiving body 104. The first, second, third, fourth, and fifth valves 151, 152, 153, 154, and 155 may be opened or closed by comparing the controller (not shown). By automatically adjusting by it will be able to automatically backwash the clogging of the eye 114 of the follicle 106.

On the other hand, the water level of the pump room 108 is increased during the filtration and filtration preparation operation according to the present invention when the floating body 141 and the guide 143 rises or falls above the predetermined level along the guide pipe 142 The first and second detection sensors 144 and 145 detect this and send a signal to the controller. Accordingly, the alarm lamp attached to the control panel (not shown) lights up to generate a signal sound. The operator may promptly cope with the cutting oil in the pump room 108 or increase the supply amount.

division Woman and luck Rain by and luck Backwashing Filtration Preparation System pump on on on Filter pump on off on 1st valve Opening Closure Opening 2nd valve Opening Closure Closure 3rd valve Partial opening Fully open Partial opening 4th valve Closure Fully open Closure 5th valve Closure Closure Fully open

As described above, the present invention maximizes the filtration effect by passing the chip or sludge, etc., contained in the cutting oil discharged from the machine tool through two-stage filtration by magnetic force and the follicle, and is laminated on the outer surface of the follicle. If clogging of the follicle occurs due to chips or sludge, the flow path of cutting oil can be automatically reversed so that the follicle can be backwashed to remove the clogging and the follicle is damaged by the chip or sludge and by the clogging of the follicle. In addition to preventing the filter from being unable to perform the filter function, it also prevents the life of the follicles from being shortened by frequent dismantling of the assembly and frequent replacement of the follicles to remove the clogging of the follicles. Very useful invention that can reduce and smoothly filter chips or sludge The.

Claims (6)

In the chip filtration device of the cutting oil for filtering the cutting oil discharged from various machine tools to remove chips or sludge contained in the cutting oil, A magnetic part attached to the bottom surface of the dirty tank so as to magnetically filter the metal chips in the cutting oil collected in the dirty tank; 'A' shaped scraper coupled to the conveyor built into the dirty tank to continuously discharge chips attached to the magnetic part to the chip box outside the dirty tank; A transfer chute connected to the pump room spaced apart from the magnetic part by a predetermined distance upward in order to transfer the cutting oil first filtered from the magnetic part to the pump room; A receiving body having an inlet for receiving cutting oil of the pump room at an upper predetermined position and having a predetermined inclined surface toward a lower center from a predetermined receiving space and a lower predetermined position, and a lower discharge pipe formed at an end thereof; A follicle for filtering chips and sludges in the cutting oil which is built in the receiving body and supplied to the inlet; Coupling means of the follicle for coupling the follicle to the inner side of the receiving body; A filter pump for supplying the cutting oil of the pump room into the receiving body through the supply pipe connected to the inlet and discharging the cutting oil filtered from the follicles to the outside of the receiving body; Coupling hole formed in the upper cover of the receiving body, A disc formed in a diameter slightly larger than that of the coupling hole so as to be seated in the coupling hole and coupled to the bolt; A discharge pipe connected between the upper discharge pipe and the clean tank coupled to the disc to discharge the cutting oil filtered by the follicle into the clean tank, Filtration preparation means of the follicle for forming crosslinking phenomenon in the eye of the follicle with a predetermined amount of diatomaceous earth and chips in the cutting oil supplied by the filter pump; Back washing means for removing the clogging of the outer surface of the follicle, And a system pump coupled to an upper portion of the clean tank to supply the coolant collected into the clean tank to a coolant storage tank disposed remotely. The method of claim 2, The coupling means of the follicle is an outlet pipe extending from the upper discharge pipe from the bottom of the disc to the lower side, A coupling tube having a predetermined diameter from the bottom of the disc toward the lower side; A plurality of frames having one end attached to an outer circumferential surface of the coupling pipe; A coupler attached to the other end of the lower frame opposite to the coupler; A follicle extending slightly from the coupling pipe to the coupling hole and being slightly loosened in the circumferential direction; Chip filter device for cutting oil characterized in that it is provided with an upper clamp, a lower clamp to fix the follicle outside the coupling pipe and the coupling port. The method of claim 1, Filtration preparation means of the follicle is a resupply pipe coupled to a predetermined position of the discharge pipe for resupplying the cutting oil filtered in the follicle to the dirty tank, A fifth valve coupled to an upper predetermined position of the resupply pipe to open and shut off at the time of filtration preparation and filtration; Chip filtering device for cutting oil, characterized in that provided with a second valve coupled to a predetermined position of the discharge pipe in order to prevent the cutting oil filtered into the clean tank in the filter preparation operation. The method of claim 1, The backwashing means of the follicle is a piezoelectric sensor for measuring the pressure in the receiving body; A third valve coupled to the lower discharge pipe to discharge a small amount of cutting oil and chips into a dirty tank during filtration and to discharge all of the cutting oil and chips into a dirty tank during a backwash operation; A first valve coupled to the supply pipe to prevent the cutting oil from flowing back into the supply pipe when the cutting oil is discharged into the third valve; An air pump connected to the exhaust pipe at a predetermined position on the upper portion of the accommodating body to inject air to the accommodating body through the exhaust pipe during backwashing; A fourth valve coupled to the air pipe so as to open and shut off air compressed by the air pump at a time; And a controller configured to control the blocking, opening, and opening degree of the first, third, and fourth valves when the measured value of the piezoelectric sensor is greater than or equal to a set value. The method of claim 1, The opening and closing operation of the second valve and the fifth valve is controlled by the controller, the chip filtration device for cutting oil. The method of claim 1, Coupling the auxiliary receiving body so that a predetermined space is formed on the upper cover, coupled to the discharge pipe to the auxiliary receiving body so that the cutting oil and air can be supplied to the receiving body through the auxiliary receiving body during the air injection of the air pump. Cutting oil chip filtration device, characterized in that.