KR200310369Y1 - lubrication recycling supplying apparatus - Google Patents

Abstract

The present invention particularly relates to a lubricant regeneration supply device that can be reused by filtering the lubricant discharged from the injection device and separating the water contained in the lubricant, wherein the lubricant regeneration supply device is formed to be detachable from the upper side of the injection machine device (101). Cover member 110 to filter the foreign matter and the like to receive the lubricating oil discharged from the first), and is formed in the cover member 110 to control the amount of lubricating oil supply and time or buzzing or discharge of water on, off The control unit 112, and is bound to the lower end of the cover member 110 and is characterized in that it is composed of a filtering means 180 for performing a process of separating a plurality of filter processes and water contained in the lubricating oil. .

Description

Lubrication recycling supplying apparatus

The present invention relates to a lubricating oil regeneration supply device, and more particularly, to a lubricating oil regeneration supply device that can be reused by filtering lubricating oil discharged from the injection molding machine and separating water contained in the lubricating oil.

The conventional lubricating oil supply device is connected to the injection molding machine device to periodically supply the lubricating oil to the driving part inside the injection molding machine, but the lubricating oil supplied to the driving part of the injection molding machine is collected in a separate lubricating oil collector installed outside the injection molding machine device There is a problem in that the consumption of the lubricating oil increases because it can not be reused to increase the production cost.

In addition, the conventional lubricating oil supply device is not reused in the injection molding machine, so that the operator must continuously supply the lubricating oil, and thus the work efficiency is deteriorated. There is a problem that shortens the life of the injection molding machine device.

In addition, the conventional injection molding machine has a problem in that the surrounding environment is poor due to the lubricating oil continuously discharged from the injection molding machine by installing a separate lubricating oil collector.

The object to solve the above problems, the lubricating oil supplied to the drive portion of the injection molding machine device is filtered in the present invention installed on the outside of the injection molding machine device after being supplied back to the drive portion of the injection molding machine to reduce the consumption of lubricating oil produced It is to provide a lubricant regeneration supply device that can reduce costs and prevent environmental pollution.

In addition, the lubricant regeneration supply device of the present invention can improve the work efficiency because the operator does not need to check and supply the lubricant from time to time because the lubricant is filtered and reused, and the life of the injection molding machine is improved because the lubricant is continuously supplied. It is to provide a lubricant regeneration supply device that can be extended.

The lubricating oil regeneration supply device of the present invention provides a lubricating oil regeneration supply device that can comfortably maintain the surrounding environment without having to install a separate lubrication oil collection container by filtering the lubricating oil and reusing it.

In the lubricating oil regeneration supply apparatus of the present invention for achieving the above object, the lubricating oil regeneration supply device having a lubricating oil regeneration supply device for regenerating the lubricating oil discharged from the injection molding machine device and re-supply back into the injection molding machine device, The lubricating oil regeneration supply device is formed to be detachable from the upper side and receives a lubricating oil discharged from the injection molding machine, and includes a cover member for filtering foreign substances, and the like, and the amount of lubricating oil supply and time adjustment or buzzer being formed on the cover member Control unit for controlling the discharge of water and the like, and the filtering means for performing a process of separating the water contained in the lubricating oil and a plurality of filter process is bound to the lower end of the cover member. It is done.

And the filtering means of the present invention is characterized in that at least one filtering member for separating the foreign matter is formed, water separation means for separating the water contained in the lubricating oil is formed, the water separation means is a lubricant The water is separated by the difference in specific gravity of the water.

In addition, the water separation means of the present invention is less than the specific gravity of the water and the shandong copper member which is formed to move upwards as water is introduced from the outside, and installed in the second space portion so that the shankdong member is moved up and down Shanghai copper guide member for guiding, a first sensor formed on the upper side of the Shanghai copper guide member to detect when the Shanghai copper member moves upward, and formed on the lower side of the Shanghai copper guide member to detect when the Shanghai copper member moves downward The second sensor and the water blocking member for controlling the discharge of water through the water discharge pipe formed in the lower portion of the second space receiving the detection signal of the first sensor.

And the shandong copper member of the present invention is attached to the iron plate on one side to increase the specific gravity, the shank copper member is characterized in that to form a groove on the inside to reduce the specific gravity.

1 is an overall block diagram of the lubricant regeneration supply device of the present invention is installed,

Figure 2 is a perspective view of the lubricant regeneration supply device of the present invention,

3 is a perspective view of a filtering means of the present invention,

4 is a perspective view of a second filtering member of the present invention,

5 is an exploded perspective view of the water separating means of the present invention,

Figure 6 is a cross-sectional view of the shankdong member of the present invention is lowered to block the discharge of lubricating oil,

Figure 7 is a cross-sectional view showing a process of discharging the water to the outside by lifting the shandong copper member of the present invention,

8 is a cross-sectional view taken along line B-B of FIG. 1;

9 is another embodiment of the water separation means of the present invention,

10 is a plan view showing a state in which the lubricating oil is moved according to the lubricating oil regeneration supply device of the present invention.

<Description of the symbols for the main parts of the drawings>

100: lubricant regeneration supply device 101: injection machine device

110: cover member 112: control unit

114: first filtering member 116: guide portion

118: new lubricating oil supply unit 120: first storage member

122: first space part 124: second space part

126: second filtering member 129, 139: guide member

130: second storage member 132: third space portion

134: fourth space part 136: fourth filtering member

140: central space 150: motor pump

152: first supply pipe 154: second supply pipe

160: water separation means 162: Shanghai copper guide member

164: Shanghai copper member 165: first sensor

166: second sensor 168: water blocking member

169: water discharge pipe 180: filtering means

190: drip member 1264: through hole

1266: Filter

Referring to the accompanying drawings, a technology related to an embodiment of a lubricating oil regeneration supply device of the present invention is as follows.

1 is a block diagram showing the connection relationship of the lubricating oil regeneration supply device of the present invention, 101 is a conventional injection molding machine device, 105 is a conventional control panel for controlling the injection machine device 101, 102 is a signal line 103 It is to control the drive portion formed in the injection molding machine device 101 through the) is to output a control signal through the hydraulic pressure, it is a commonly used solenoid valve, one side of the injection molding machine device 101 It is connected to the second supply pipe 154 to receive the lubricant discharged from the injection molding machine device 101 is composed of a lubricating oil regeneration supply device 100 to be supplied to the drive portion of the injection molding machine device 101 and filtered again have.

The lubricating oil regeneration supply device 100 is formed as shown in FIG. 2, and the lubricating oil regeneration supply device 100 is formed to be detachably attached to an upper side thereof, and the cover member 110. It is composed of a filtering means 180 for separating the water contained in the plurality of filter processes and the lubricating oil while being bound with a plurality of conventional fastening means, such as bolts.

The cover member 110 is formed to be attached to and detached from a plurality of bolt holes 137 formed on the upper side of the filtering means 180 with a conventional screw, and the like, and the lubricant oil discharged from the injection molding machine device 101. A first filtering member 114 for guiding the flow of water, a control unit 112 for controlling the driving time and the amount of lubricating oil supply and opening of the water discharge of the lubricating oil regeneration supply device 100, and the cover member 110. It is formed on one side of the new lubricating oil supply unit 118 for supplying new lubricating oil from the outside, and is formed to be detachable by a plurality of screws 1144 at the lower end of the guide portion 116, the lubricant is discharged to the lower side The filter support plate 119 in which the plurality of through holes 1192 is formed is formed.

And, as shown in Figure 8, the first filtering member 114, the guide portion 116 for guiding the lubricating oil flowing out of the injection molding machine device 101 into the first storage member 120, and A filter 1142 disposed below the guide part 116 and primarily filtering.

The new lubricating oil supply unit 118 is covered with a lid which is a normal lid after supplying lubricating oil.

In addition, the filtering means 180 is composed of two largely divided into the first storage member 120 and the second storage member 130, and can be manufactured in a small size during manufacture by binding using a bolt, such as a conventional fastening means. Can be formed and easy to transport, but if necessary depending on the use state may be manufactured separately instead of separately formed.

That is, the first storage member 120 and the second storage member 130 is formed in the lower end of the first filtering member 114 is a first space which is a space into which the lubricating oil discharged from the injection molding machine device 101 is introduced The second filter member 126 and the second filter member 126 are formed in the guide member 129 to be secondly filtered by the filter 1266 and the lubricant 122 introduced into the part 122 and the first space part 122. 2 water separation means 160 for removing water contained in the lubricating oil filtered by the filtering member 126, and lubricating oil filtered by the third filtering member 1242 after removing water from the water separating means 160. The third space part 132, which is a space in which is moved and stored, and the fourth filtering member 136 which is formed to be detachable by the guide member 139 while the lubricant stored in the third space part 132 is filtered again. ) And a fourth space part for filtering back the lubricating oil filtered by the fourth filtering member 136. And a motor pump 150 for supplying the lubricating oil filtered by the fourth space part 134 to the driving part of the injection molding machine device 101 through the first and second supply pipes 152 and 154, and the motor. The pump 150 is formed of a central space portion 140 in which a space is formed to be installed.

That is, the control unit 112 is a user's operation time and the operating time of the lubrication regeneration supply device 100 of the present invention or the amount of the lubricating oil pumped or the cycle of the second space part 124 According to the water separation means 160 formed in the) it is possible to control the operation of controlling the discharge of water.

And if the amount of lubricating oil is consumed insufficient or foreign matters caught in the filter, the circulation of the lubricating oil is not made smoothly, it is detected and a buzzer commonly used can be generated to notify the worker. The buzzer sound release switch 1122 is also formed, and if necessary, emergency lamps commonly used together with the buzzer to operate so that the operator can quickly respond to the present invention is included.

In addition, a plurality of supporting members 1202 which are commonly used are formed at lower ends of the first storage member 120 and the second storage member 130.

The water separated by the water separation means 160 is discharged to the outside and stored in the recessed portion 1222 formed at the lower ends of the first and second storage members 120 and 130 forming the filtering means 180. The drip member 190 may be additionally formed to be detachable.

The second filtering member 126 is formed to be detachable while being slid by the guide member 129 formed on the first storage member 120, and is formed as shown in FIG. The filter guide part 1262, which is formed to protrude on one side of the lower end of the filtering member 126, a cutout 1261 having one side cut out, and the filter guide part 1262 are inserted into the inside of the filter guide part 1262 to be filtered. Filter 1266 and a plurality of through-holes 1264 which are formed in the space of the filter guide portion 1262 and filtered lubricant oil is moved to the second space portion 124, and the filter guide portion ( It is comprised by the support plate 1267 which attaches and detaches 1262, and the recessed groove 1269 is formed in the outer surface so that the filter 1266 can be replaced easily.

In addition, the support plate 1267 may be formed outside the filter 1266 to support the plurality of bolts or the like so that the filter 1266 is not separated.

That is, the filter 1266 is bound to the inside of the filter guide part 1262 to perform a filtering action, and when the filter 1266 is to be replaced, the second filtering member 126 may be replaced by the guide member ( 129) by sliding it to the upper side can be easily replaced with a new one.

In addition, the second space portion 124 is formed with the water separation means 160 for removing water contained in the lubricating oil, and after refiltering the lubricating oil from which water is separated, the third space 132 is formed. The third filtering member 1242 for guiding movement is bound by a conventional screw or the like which is a plurality of fastening means 1244.

A plurality of fastening means 1244 is fastened so that the first storage member 120 and the second storage member 130 are integrally fixed. In addition, the fastening means 1244 is fastened using a plurality of screws or bonds.

In addition, the water separation means 160, as shown in Figures 5 to 7, when the lubricating oil contains water, the specific gravity of the large water is laid on the floor, as the height of the water is laid on the floor The water separating means 160 is to move the upper side to separate the water, that is, the shankdong member 164 and the second space portion is formed so as to move upwards as the water is less than the specific gravity of the water flows in; Shanghai shank guide member 162 is installed on the 124 to guide the vertical movement member 164 to move up and down, and is formed on the upper side of the Shanghai copper guide member 162, the shank movable member 164 is A first sensor 165 to detect when moving upward, a second sensor 166 formed on the lower side of the shandong guide member 162 to detect when the shandong member 164 moves downward, and the first Receive the detection signal of the sensor 165 Group is formed of a water shut-off member (168) for controlling that the second space is water discharged through the water discharge pipe 169 is formed on the lower side of the section 124.

In addition, since the shankdong member 164 is used as a material having a specific gravity less than water, when the amount of inflow increases when water is introduced into the second space part 124 from the outside, it moves upward. Depending on the state, it is preferable to make the specific gravity equal to lubricating oil.

Therefore, in order to make the specific gravity of the shank copper member 164 less than water or to make the specific gravity equal to the lubricating oil, the material of the shank copper member 164 may be selected and used, or the plastics may be used. If the material can be used, and if the specific gravity is to be reduced according to the use state, as shown in FIG. 4, the groove 1641 is formed inside the shandong copper member 164 that is commonly used to reduce the weight. After the upper side is formed to seal in a hook method or the like in a manner that is normally detachable with a lid 1644, and to increase the specific gravity of the shankdong member 164 of the shankdong member 164 It is possible to increase the specific gravity by installing iron cores with a large specific gravity on one side in a suitable size.

In any case, however, as mentioned above, the specific gravity of the moving member 164 should be smaller than water.

In addition, the water blocking member 168 is operated by receiving the control signal of the control unit 112, the water contained in the lubricating oil discharged from the injection molding machine device 101 is stored in the second space portion 124 When the height of the water rises, as the height of the water rises, the movable member 164 rises, and then the controller 112, which receives the control signal of the first sensor 165, operates the moisture. The blocking member 168 is opened to discharge the water in the lower side of the second space 124 to the outside.

As described above, when the water in the second space 124 is discharged to the outside and the shank-dong member 164 descends and is detected by the second sensor 166, the detection signal of the second sensor 166 is input. The control unit 112 blocks the water blocking member 168 so that water is not discharged to the outside, and the water blocking member 168 uses a solenoid valve that is commonly used or the like. On and off control valves can be used.

And the configuration of the fourth filtering member 136 is formed in the same manner as the second filtering member 126 shown in Figure 4 to perform a filtering action, except that the cut-out portion (1261) is the central space portion ( 140 is formed on the right side, and the filter guide portion 1262 and the filter 1266 are formed on the left side.

In addition, a wire 196 guided to the guide part 1347 is formed in the fourth space part 134 so that the detection sensor 194 protrudes inside the fourth space part 134 so as to detect when the amount of lubricating oil is insufficient. Is connected to the buzzer sound release switch 1122, that is, if the amount of lubricating oil is insufficient when the detection sensor 194 is moved downwards to detect the signal detected through the wire 196 to release the buzzer sound It is transmitted to the switch 1122 to generate a buzzer sound, the detection sensor 194 may be installed in another space if necessary, and the position of the detection sensor 194 is formed on the bottom of the bottom so that the lubricant It is preferable not to flow into the fourth space 134 normally, so that it is possible to check that the lubricating oil cannot be supplied to the injection molding apparatus 101 normally.

In addition, the present invention does not have to consist of four sets of lubricating oil flow processes like the first, second, third, and fourth space parts 122, 124, 132, and 134, but it is possible to increase or decrease the space part as necessary. Even if the space portion is increased, the basic filter is formed as described above to filter foreign substances and the like.

In addition, a plurality of filters installed in the first, second, third, and fourth space parts 122, 124, 132, and 134 may not be installed in each space part one by one depending on the use state, and a plurality of different filters may be installed in a specific space part, if necessary. The type of filter can also be used to select a filter commonly used in the market.

In addition, as shown in FIGS. 2 and 3, both side surfaces of the central space 140 have a cover member 145 which is fastened by a plurality of fastening holes 147 and has a plurality of cutout holes. .

On the other hand, the present invention is not limited to the above-described embodiment, it is also included in the present invention to form the structure of the shankdong member 164 integrally without forming an internal space as shown in FIG. Will be.

In addition, the above-described injection machine device 101 does not necessarily mean only a machine for injection, but may also be applied to many other kinds of machine tools which are sprayed to the driving part through lubricating oil.

Reference numeral 1268 is a bolted hole.

Referring to the operation of the present invention configured as described above are as follows.

When a user manipulates the control panel 105 to drive the injection molding machine device 101, the solenoid valve 102 receives a signal transmitted through the signal line 103 and is inside the injection molding machine device 101. A plurality of driving parts, not shown, are operated.

In addition, the lubricating oil injected into the plurality of driving parts inside the injection molding machine device 101 is introduced through the guide part 116 formed above the cover member 110, and inside the first filtering member 114. After the first filtering by the filter 1142 formed in the filter flows into the first space portion 122 formed in the first storage member 120 through a plurality of through holes 1192 formed in the filter support plate 119 do.

In this way, the lubricating oil introduced into the first space part 122 is moved again to the second space part 124 while being filtered again by the filter 1266 formed under the second filtering member 126.

The lubricating oil moved to the second space 124 substantially contains water while passing through a plurality of processes through the injection molding machine device 101, and this water eventually degrades the function of the lubricating oil. It is to be removed from the space 124.

As such, when water is generated inside the second space part 124 during a plurality of circulation processes, the shandong copper member 164 moves upward as the height of the water increases, and the shandong copper guide member The first sensor 165 is formed on the upper side of the (162) to detect this, and then the first sensor 165 that detects a signal that the shankdong member 164 has risen the control signal 112 Will be notified).

As such, the controller 112 sends a control signal to the water blocking member 168 to prevent the water blocking member 168 to discharge the water stored in the second space 124 to the outside. .

As described above, when the water blocking member 168 is opened to discharge the water to the outside, the water in the second space 124 decreases, so that the shandong copper member 164 is also lowered. When the shank moving member 164 is lowered and the lower end of the shank moving member 164 contacts the second sensor 166, the second sensor 166 outputs such a signal to the controller 112.

As such, the controller 112 receiving the signal output from the second sensor 166 outputs a control signal to the water blocking member 168 to cut off the water blocking member 168 that has been opened. Block the drained water so that it is no longer drained.

As such, the lubricating oil from which the water contained in the lubricating oil is removed from the water separating means 160 of the second space 124 is formed in the upper side of the second space 124 as shown in FIG. 10. After filtering even more fine dust or other foreign matter in the filtering member 1242 is moved to the third space 132.

As such, the lubricating lubrication introduced into the third space part 132 is moved to the fourth space part 134 after filtering the foreign matter and the like again in the fourth filtering member 136.

The lubricating oil moved to the fourth space part 134 is filtered again by the filter 1342, and then flows into the motor pump 150 through the first supply pipe 152 connected to the lower end of the filter 1342. Subsequently, the motor pump 150 is supplied to each driving part formed inside the injection molding machine device 101 through the second supply pipe 154, so that a lubricating oil is continuously formed.

However, the present invention described above can be reused for a certain time instead of permanently reusing the lubricant, and the user should periodically check and determine whether the performance of the lubricant is degraded and supply new lubricant.

The lubricating oil regeneration supply device of the present invention configured as described above is installed on one side of the injection molding machine and removes water several times, and the lubricating oil is supplied again, thereby reducing the consumption of lubricating oil, thereby reducing the production cost and environment. Contamination can be prevented, and since the lubricant is filtered and reused for a considerable time, there is no need for the operator to check and supply lubricant as often as before, thus improving work efficiency, and supplying lubricant continuously to the injection molding machine By preventing the supply of lubricating oil to be blocked, it is possible to extend the life by preventing damage to the injection molding machine, and also it is an invention that can maintain a comfortable working environment because it does not need to install the existing lubricating oil collector.

Claims (5)

In the lubricating oil regeneration supply device having a lubricating oil regeneration supply device (100) for regenerating the lubricating oil discharged from the injection molding machine device 101 and resupply it back into the injection molding machine device (101), The lubricating oil regeneration supply device 100 is formed to be detachable from the upper side and receives the lubricating oil discharged from the injection molding machine device 101 to filter the foreign matter and the like, and to the cover member 110. The control unit 112, which is formed and controls the amount and time of lubricating oil or controls the occurrence of buzzer or discharge of water, and separates a plurality of filter processes and water contained in the lubricating oil while being bound to the lower end of the cover member 110. Lubricating oil regeneration supply device, characterized in that consisting of filtering means for performing a process (180). According to claim 1, wherein the water separating means 160 is a lubricant regeneration supply device, characterized in that for separating the water by the specific gravity difference between the lubricant and water. The method of claim 1, wherein the water separating means 160 is smaller than the specific gravity of the water and the shankdong member 164 and the second space portion 124 is formed to move upwards as the water is introduced from the outside Installed on the shank copper guide member 162 for guiding the shank copper member 164 to move up and down, and formed above the shank copper guide member 162 so that the shank copper member 164 moves upward. A first sensor 165 for sensing, a second sensor 166 formed under the shank copper guide member 162 to sense when the shank copper member 164 moves downward, and the first sensor 165 Lubricating oil, characterized in that it is formed of a water blocking member 168 to control the discharge of water through the water discharge pipe (169) formed in the lower side of the second space portion 124 receives the detection signal Regenerative feeder. [5] The apparatus for regenerating lubricating oil according to claim 3, wherein the shandong copper member (164) further attaches an iron plate on one side in order to increase specific gravity. [5] The apparatus for regenerating lubricating oil according to claim 3, wherein the shank moving member (164) forms a groove (1641) on the inner side and a lid (1642) on the upper side to reduce specific gravity.