KR102556159B1 - Coolant tank device and control method of machine tool - Google Patents

Abstract

The cutting oil tank device for a machine tool is a cutting oil tank device for a machine tool in which a main tank is installed on one lower side of a machine tool body and an auxiliary tank is installed adjacent to the main tank, on either side of the main tank or the auxiliary tank. A cutting oil recovery pump for pumping cutting oil from the main tank to the auxiliary tank is installed, and a hose for transferring cutting oil from the main tank to the auxiliary tank via the recovery pump is installed between the main tank and the auxiliary tank. connected, a cutting oil supply pump for supplying cutting oil to the processing part of the machine tool is installed in the auxiliary tank, and a level sensor for detecting the height of the cutting oil level is installed inside the auxiliary tank, and from the level sensor, the oil level inside the auxiliary tank A control device for receiving a signal and controlling driving of the recovery pump is provided.

Description

Coolant tank device and control method of machine tool}

The present invention relates to a cutting oil tank device for a machine tool, and more particularly, to a device including a main tank and an auxiliary tank for replenishing cutting oil from the main tank to the auxiliary tank, and a control method thereof.

High-performance complex machine tools require a large cutting oil tank for various cutting processes such as heavy cutting. In addition, in order to effectively collect the cutting oil falling from the processing unit, a cutting oil tank is installed in the lower part of the machine tool body.

However, in a gantry-type machine tool or a machine tool with a complex structure, if a large cutting oil tank is placed under the main body of the machine tool, it occupies a large floor area, so the size is limited in terms of layout. receive

Therefore, as disclosed in FIG. 1, a relatively small-capacity main tank 20 is installed in the machine tool body 10, and an auxiliary tank 30 is additionally installed outside the machine tool body 10 for use.

At this time, the main tank 20 and the auxiliary tank 30 are connected at the same height and close to the floor with a hose 60 so that the cutting oil inside can flow with each other.

In this structure, when a process requiring cutting oil starts, the cutting oil falls from the machining part of the machine tool and is returned to the main tank 20, so that the level of cutting oil in the main tank 20 increases. At the same time, as the auxiliary tank 30 supplies cutting oil to the processing unit, the height of the oil level is lowered. Therefore, as the height of the oil level between the two tanks changes, the cutting oil in the main tank 20 naturally flows into the auxiliary tank 30 through the hose 60 connected thereto.

In this way, when processing requiring cutting oil in the machine tool continues, the cutting oil recovered from the processing unit to the main tank 20 is continuously circulated to the processing unit through the auxiliary tank 30 .

On the other hand, as the cutting oil flow is implemented in a natural flow method by installing the connection hose 60 at the same height between the main tank 20 and the auxiliary tank 30 as described above, the height of the auxiliary tank 30 is increased to the main tank ( 20), but even so, cutting oil cannot be stored higher than the height of the main tank 20.

Therefore, in order to hold a large amount of cutting oil in the cutting oil tank in the machine tool, due to the height limit of the main tank 20, the auxiliary tank 30 inevitably has to be installed in a structure with a wide bottom area. As a result, when the auxiliary tank 30 is included, a problem in that the installation area of the machine tool is widened is caused.

On the other hand, when the floor area of the auxiliary tank 30 is inevitably narrowed in the layout of the machine tool, the machine tool operates an option device requiring cutting oil, and at the same time requires a high capacity cutting oil such as heavy cutting Cutting oil may run out during machining operations.

More specifically, when the capacity of the main tank 20 and the auxiliary tank 30 is not sufficient, when a large amount of cutting oil is continuously supplied to the processing unit from the auxiliary tank 30, the main tank ( 20), the supply of cutting oil to the auxiliary tank 30 is insufficient, resulting in insufficient cutting oil in the auxiliary tank 30.

In this way, when the cutting oil is insufficient in the auxiliary tank 30, the supply of cutting oil to the processing unit is insufficient or the cutting oil is not supplied at all, resulting in overheating of the tool and the workpiece, and as a result, the workpiece has reduced processing precision , and even accidents in which tools and workpieces are seized occur.

On the other hand, in a state where the capacity of the auxiliary tank 30 is not large enough, after the cutting oil tank is filled with cutting oil while the machine tool is operating, the operation of the machine tool is stopped or the processing operation using the cutting oil is suddenly stopped. In this case, the problem of contaminating the surroundings of the machine tool by overflowing from the main tank 20 or auxiliary tank 30 as the cutting oil remaining in the pipe of the cutting oil supply pump 40 is drained or not recovered inside the machine tool occurs. do it too

The present invention is to solve the problems of the prior art as described above, and an object of the present invention is to provide a cutting oil tank for a machine tool capable of minimizing the floor area occupied by the cutting oil tank and maximizing the internal capacity.

Another object of the present invention is to supply cutting oil from the main tank to the auxiliary tank to always secure a constant amount of cutting oil in the auxiliary tank regardless of the oil level of the main tank to solve the problem of insufficient cutting oil or overflow of cutting oil during machining It is to do.

In the cutting oil tank device of the present invention for achieving the above object, the auxiliary tank has a narrow bottom area and a height higher than that of the main tank to increase the capacity of the cutting oil in consideration of the layout of the machine tool.

In addition, a level sensor for detecting the height of the cutting oil level is installed in the auxiliary tank to monitor the oil level of the cutting oil, and to control the supply of cutting oil from the main tank to the auxiliary tank according to the oil level level, so that a constant amount of cutting oil is always maintained in the auxiliary tank. .

Hereinafter, more specific solutions of the present invention will be introduced.

In a cutting oil tank device for a machine tool in which a main tank is installed on one lower side of a machine tool body and an auxiliary tank is installed adjacent to the main tank, cutting oil is supplied to either side of the main tank or the auxiliary tank from the main tank. A cutting oil recovery pump for pumping to an auxiliary tank is installed, and a hose for transferring cutting oil from the main tank to the auxiliary tank is connected between the main tank and the auxiliary tank via the recovery pump, and the auxiliary tank A cutting oil supply pump for supplying cutting oil to the processing part of the machine tool is installed, and a level sensor for detecting the height of the cutting oil level is installed inside the auxiliary tank. It is provided with a control device for controlling the driving of the machine tool to implement a cutting oil tank device.

Also, the auxiliary tank is higher in height than the main tank.

In addition, the hose is connected to an upper portion of the auxiliary tank, and an inlet that is detachable upward is provided at an end of the hose connected to the auxiliary tank.

In addition, the level sensor includes a floating ball that moves up and down according to the height of the oil level inside the auxiliary tank, a detection rod extending from the floating ball, and a predetermined minimum height of the oil level of the auxiliary tank according to the movement of the detection rod. It consists of a low-level sensor for detecting a section and a high-level sensor for detecting a predetermined maximum height section of the oil level of the auxiliary tank according to the movement of the detection rod. The recovery pump is operated until the low level sensor is turned off and the high level sensor is turned on.

In addition, the control device is characterized in that after the operation of the recovery pump is stopped, the high level sensor is turned off and the recovery pump is not operated until the low level sensor is turned on.

In addition, the control device is characterized in that when the floating ball moves downward and both the high level sensor and the low level sensor are turned off, it recognizes that the cutting oil is insufficient and sends an emergency signal.

In addition, the controller controls the floating ball to move upward while the cutting oil supply pump is supplying cutting oil to the processing unit, so that the low level sensor is turned off and the high level sensor is turned on, and a predetermined time has elapsed. If it is, it is characterized in that it is recognized as an overflow of cutting oil and an emergency signal is sent.

On the other hand, as a solution of the present invention, the method is a main tank for collecting cutting oil from a processing unit on one lower side of the machine tool body, and an assistant for receiving cutting oil from the main tank through a recovery pump and supplying cutting oil to the processing unit In the cutting oil control method of a machine tool having a tank, the oil level inside the auxiliary tank receives a signal from a level sensor installed inside the auxiliary tank to detect the height of the cutting oil level, and the oil level inside the auxiliary tank is at a predetermined minimum height. It is implemented as a cutting oil tank control method for a machine tool, characterized in that when the oil level of the auxiliary tank is lower than the section, the recovery pump is operated to replenish the cutting oil in the auxiliary tank until the height of the auxiliary tank reaches a predetermined maximum height section.

In addition, in the control method, when the oil level detected by the level sensor is maintained for a predetermined time in a state lower than the predetermined minimum height section in a state in which the recovery pump is continuously operated, it is recognized as an emergency cutting oil shortage state. It further includes sending a signal.

In addition, in the control method, when the height of the oil level of the auxiliary tank detected by the level sensor is maintained for a predetermined time in a state higher than the predetermined maximum height section in a state in which cutting oil is supplied to the processing unit, the auxiliary tank It further includes sending an emergency signal by recognizing that the cutting oil is overflowing.

In addition, in the control method, when the lower limit height is set for the oil level of the auxiliary tank lower than the predetermined lowest height section, and the oil level height of the auxiliary tank detected by the level sensor is detected as being lower than the lower limit height , Recognizing the cutting oil shortage state and sending an emergency signal.

In addition, in the control method, when an upper limit height is set for the oil level of the auxiliary tank higher than the predetermined maximum height section, and the oil level height of the auxiliary tank detected by the level sensor is higher than the upper limit height , Recognizing that the auxiliary tank is overflowing with cutting oil and sending an emergency signal.

In addition, in the control method, the level sensor is divided into a low level sensor for detecting a predetermined minimum height range according to the oil level height and a high level sensor for detecting a predetermined maximum height range, and the low level sensor is turned on After the recovery pump is operated, the low level sensor is turned off and the high level sensor is turned on, further comprising stopping the operation of the recovery pump.

In the control method, the recovery pump is not operated until the high level sensor is turned off and the low level sensor is turned on by lowering the oil level of the auxiliary tank after the operation of the recovery pump is stopped. do.

The control method may further include sending an emergency signal by recognizing a lack of cutting oil when both the high level sensor and the low level sensor are turned off because the oil level of the auxiliary tank is lowered.

In addition, in the control method, when the oil level of the auxiliary tank rises while the cutting oil is being supplied to the processing unit, the low level sensor is turned off and the high level sensor is turned on for a predetermined period of time. It further includes sending an emergency signal by recognizing it as an overflow of cutting oil.

As such, the present invention optimizes the size of the machine tool by minimizing the floor area occupied by the cutting oil tank in the machine tool.

In addition, the shortage of cutting oil during machining has been resolved by increasing the amount of cutting oil stored so that sufficient cutting oil can be supplied to the processing part of the machine tool.

In addition, too much cutting oil was supplied and overflowing from the cutting oil tank was eliminated.

In addition, by improving the hose connection method between the main tank and the auxiliary tank, maintenance work such as disassembly of the main tank and auxiliary tank is facilitated.

1 is a prior art, a perspective view of a machine tool having an auxiliary cutting oil tank.
2 is a perspective view of a machine tool having an auxiliary cutting oil tank as an embodiment of the present invention.
3 is a perspective view showing an external structure of an auxiliary tank as an embodiment of the present invention.
4 is a cross-sectional view showing the internal structure of an auxiliary tank as an embodiment of the present invention.
5 is a control flow chart of a cutting oil recovery pump as an embodiment of the present invention.
6 is another embodiment of the present invention, a cutting oil recovery pump control flow chart.
7 is another embodiment of the present invention, a cutting oil recovery pump control flow chart.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, referring to FIGS. 2 and 3, in the cutting oil tank device of the present invention, the main tank 20 is installed on the lower part of one side of the machine tool body 10, and the auxiliary tank 30 is adjacent to the main tank 20. ) is installed.

Preferably, the auxiliary tank 30 has a narrow bottom area in order to reduce the installation area of the machine tool, and instead has a height higher than the main tank 20 to accommodate the amount of cutting oil required by the machine tool. make up

A recovery pump 50 is installed in the main tank 20 to supply cutting oil to the auxiliary tank 30 . A hose 60 for transporting the cutting oil supplied from the recovery pump 50 is connected between the recovery pump 50 and the auxiliary tank 30 .

The hose 60 is connected to the upper part of the auxiliary tank 30, and the auxiliary tank 30 has an inlet 61 so that the end of the hose 60 is detachable toward the upper part of the auxiliary tank 30. are provided

Meanwhile, the inlet 61 is detachably configured to improve maintainability when separating the auxiliary tank 30 or performing internal cleaning or maintenance.

As another embodiment, the recovery pump 50 may be installed in the auxiliary tank 30 or in an arbitrary position between the main tank 20 and the auxiliary tank 30, in which case the hose 60 is installed by connecting the main tank 20, the recovery pump 50 and the auxiliary tank 30.

On the other hand, a cutting oil supply pump 40 for supplying cutting oil to the processing part of the machine tool is installed in the auxiliary tank 30 .

Meanwhile, referring to FIG. 4 , a level sensor 70 for detecting the height of the cutting oil level is installed inside the auxiliary tank 30 . The level sensor 70 includes a floating ball 71 that moves up and down according to the oil level of the cutting oil by the buoyancy of the cutting oil inside the auxiliary tank 30, and a detection extending to the floating ball 71. rod 74, and a low level sensor 72 that detects whether the height of the cutting oil level has reached a predetermined minimum height range according to the movement of the detection rod 74, and the movement of the detection rod 74 It consists of a high level sensor 73 that detects whether the height of the oil surface has reached a predetermined maximum height section.

The machine tool controls the operation of the recovery pump 50 for supplying cutting oil from the main tank 20 to the auxiliary tank 30 by receiving the cutting oil level height signal inside the auxiliary tank 30 from the level sensor 70. A control device 80 is provided.

Hereinafter, a cutting oil tank device and a control method thereof according to the present invention constructed as described above will be described.

As described above in FIGS. 2 to 4 , when a cutting operation requiring cutting oil starts in the processing unit of the machine tool, the cutting oil supply pump 40 starts supplying the cutting oil in the auxiliary tank 30 to the processing unit.

At this time, the auxiliary tank 30 has a narrow bottom area in order to reduce the installation area, but instead has a height higher than the main tank 20, and accommodates a large amount of cutting oil required by the machine tool.

As shown in FIG. 4, when the supply of cutting oil to the processing unit continues, the oil level of the auxiliary tank 30 gradually decreases. At this time, as the floating ball 71 of the level sensor 70 floating by buoyancy on the inner coolant oil level of the auxiliary tank 30 gradually descends downward, the detection rod 74 extended to the floating ball 71 is also together. descend At the same time, the low level sensor 72 and the high level sensor 73 that sense the position of the detection rod 74 detect the oil level height of the auxiliary tank 30 and transmit it to the control device 80.

On the other hand, referring to FIG. 5 , the controller 80 receives the oil level height signal of the auxiliary tank 30 from the level sensor 70, and the oil level inside the auxiliary tank 30 is a predetermined minimum height section. When it reaches , the recovery pump 50 is operated to replenish cutting oil to the auxiliary tank 30 until the height of the oil level of the auxiliary tank 30 reaches a predetermined maximum height section.

That is, the controller 80 receives a signal from the level sensor 70 and operates the recovery pump 50 when the height of the oil level inside the auxiliary tank 30 reaches a predetermined minimum height section. 30, start replenishment of cutting oil, and when the oil level inside the auxiliary tank 30 reaches a predetermined maximum height section and a signal is received from the level sensor 70, the recovery pump 50 is stopped. to stop replenishment of cutting oil supplied from the main tank 20 to the auxiliary tank 30.

In addition, despite the continuous operation of the recovery pump 50, the oil level of the auxiliary tank continues to decrease, so that the height of the oil level detected by the level sensor 70 is maintained lower than the predetermined minimum height section for a predetermined time or longer. When this occurs, it recognizes the state of insufficient cutting oil and stops the operation of the machine system or sends necessary emergency signals such as sending an alarm or displaying a message.

This is when the cutting oil is insufficient in the main tank 20 and the auxiliary tank 30 as a whole, or when sufficient cutting oil is not supplied to the auxiliary tank 30 due to a failure of the recovery pump 50 or the like, workpieces and machine tools due to overheating useful for the protection of

In addition, when the oil level of the auxiliary tank 30 detected by the level sensor 70 while supplying cutting oil to the processing unit is maintained for a predetermined time in a state higher than the predetermined maximum height section, the auxiliary tank 30 ) is recognized as overflowing cutting oil, and the operation of the machine system is stopped, or necessary emergency signals such as sending alarms and displaying messages are sent.

This is because the cutting oil supplied from the main tank 20 to the auxiliary tank 30 through the recovery pump 50 is too large due to a failure of the recovery pump 50 in a state in which the amount of cutting oil supplied to the processing unit is small, or the supply is insufficient. If it does not stop, it is useful to prevent the cutting oil in the auxiliary tank 30 from overflowing to the outside and contaminating the surroundings of the machine tool.

Meanwhile, as another embodiment, the recovery pump 50 may stop operating after a predetermined time elapses after a signal is received from the high level sensor 73 of the level sensor 70 .

This is because when the cutting oil supplied from the main tank 20 to the auxiliary tank 30 is replenished, the recovery pump 50 generates waves on the oil level of the auxiliary tank 30, and the high level sensor 73 is repeatedly turned on and off. It is possible to prevent the operation control of the recovery pump 50 from being uncertain.

On the other hand, as another embodiment, referring to FIG. 6, the control device 80, after the operation of the recovery pump 50 is stopped, the cutting oil supply pump 40 continues to supply cutting oil to the processing unit so that the auxiliary tank The recovery pump 50 is not operated until the high level sensor 73 is turned off and the low level sensor 72 is turned on as the oil level of 30 gradually decreases.

This is to prevent the recovery pump 50 from operating too often by not operating the recovery pump 50 until the cutting oil level is lowered to the next replenishment position after the maximum amount of cutting oil is replenished in the auxiliary tank 30. This is to extend the lifespan of the motor that drives the recovery pump 50, reduce noise due to vibration, and also reduce fluctuations in the oil level of the auxiliary tank 30 due to the supply of cutting oil.

In addition, the control device 80 reduces the amount of cutting oil in the auxiliary tank 30 so that the floating ball 71 floating on the oil surface moves further downward, so that both the high level sensor 73 and the low level sensor 72 When it is turned off, it recognizes this as a lack of cutting oil in the auxiliary tank 30 and stops the operation of the machine system or sends an emergency signal such as sending an alarm or displaying a message.

Through this, it is possible to prevent overheating or seizure of a tool or a workpiece, which may occur when a workpiece is processed without supplying cutting oil to the processing unit.

In addition, the control device 80 continues to operate without stopping the recovery pump 50 due to a failure or the like, so that cutting oil is continuously supplied to the auxiliary tank 30, or too much cutting oil compared to the amount of cutting oil used is rapidly When the floating ball 71 moves upward, the low level sensor 72 is turned off, and the high level sensor 73 is turned on, when a predetermined time or more elapses, cutting oil It recognizes it as overflow and stops the operation of the machine system or sends necessary emergency signals such as sending an alarm or displaying a message.

Meanwhile, as another embodiment, referring to FIG. 7 , the lower limit height of the oil level of the auxiliary tank 30 is set lower than the predetermined minimum height section, and the auxiliary tank detected by the level sensor 70 When the oil level height of (30) is detected to be lower than the lower limit, it is recognized as a cutting oil shortage state and the operation of the machine system is stopped or an emergency signal is sent such as an alarm or message display.

In this method, in recognizing the cutting oil shortage state of the auxiliary tank 30, by setting a lower limit height lower than the predetermined minimum height section, it is possible to more reliably recognize the cutting oil shortage state.

In addition, the upper limit height of the oil level of the auxiliary tank 30 is set higher than the predetermined maximum height section, and the oil level height of the auxiliary tank 30 detected by the level sensor 70 is higher than the upper limit height. In this state, it recognizes that the auxiliary tank 30 is overflowing with cutting oil and stops the operation of the machine system or sends an emergency signal such as sending an alarm or displaying a message.

In this method, in recognizing the overflow state of the cutting oil in the auxiliary tank 30, the overflow state of the cutting oil can be recognized more reliably by setting an upper limit height higher than a predetermined maximum height range.

As described above, the present invention has the advantage of optimizing the size of the machine tool by minimizing the floor area occupied by the cutting oil tank in the machine tool.

In addition, by expanding the amount of cutting oil to sufficiently supply the cutting oil required by the machining part of the machine tool, it is possible to solve the problem of overheating of the tool or workpiece and the resulting reduction in machining precision that may occur due to insufficient cutting oil during machining.

In addition, it is possible to solve the problem of too much cutting oil being supplied and overflowing from the cutting oil tank.

In addition, by improving the connection method between the main tank 20 and the auxiliary tank 30 with the hose 60, maintenance work such as disassembly of the main tank 20 and the auxiliary tank 30 is facilitated.

10: machine tool body
20: main tank
30: auxiliary tank
40: cutting oil supply pump
50: Recovery Pump
60: hose
61: inlet
70: level sensor
71: floating ball
72: low level sensor
73: high level sensor
74: detection rod
80: control device

Claims (16)

In the cutting oil tank device for a machine tool in which a main tank is installed on one lower side of a machine tool body and an auxiliary tank is installed adjacent to the main tank,
The auxiliary tank is installed higher than the main tank,
A cutting oil recovery pump is installed on either side of the main tank or the auxiliary tank to supply cutting oil from the main tank to the auxiliary tank,
A hose for transferring cutting oil from the main tank to the auxiliary tank is connected between the main tank and the auxiliary tank via the recovery pump, and the hose is connected to the upper part of the auxiliary tank and connected to the auxiliary tank. At the end of the hose, a detachable inlet is installed in the upper direction,
A cutting oil supply pump is installed in the auxiliary tank to supply cutting oil to the processing part of the machine tool,
Inside the auxiliary tank, a floating ball that moves up and down according to the height of the oil level inside the auxiliary tank, a detection rod extending from the floating ball, and a predetermined minimum height section of the oil level of the auxiliary tank according to the movement of the detection rod It consists of a low-level sensor for detecting and a high-level sensor for detecting a predetermined maximum height section of the oil level of the auxiliary tank according to the movement of the detection rod. Install a level sensor that detects the height of the cutting oil level,
The level sensor controls the operation of the recovery pump by receiving the signal of the height of the oil level inside the auxiliary tank from the level sensor, but when the floating ball moves downward and both the high level sensor and the low level sensor are turned off, it is recognized as insufficient cutting oil to send an emergency signal, and while the cutting oil supply pump is supplying cutting oil to the processing unit, the floating ball moves upward so that the low level sensor is turned off and the high level sensor is turned on for a predetermined time A cutting oil tank device for a machine tool, characterized in that it has a control device for recognizing it as an overflow of cutting oil and sending an emergency signal when it elapses. delete delete The cutting oil tank of claim 1, wherein the control device operates the recovery pump from when the low level sensor is turned on until the low level sensor is turned off and the high level sensor is turned on. Device. The machine tool according to claim 4, wherein the control device does not operate the recovery pump until the high level sensor is turned off and the low level sensor is turned on after the operation of the recovery pump is stopped. Coolant tank device. delete delete A cutting oil control method for a machine tool having a main tank at the bottom of one side of a machine tool body for collecting cutting oil from a processing unit and an auxiliary tank for receiving cutting oil from the main tank through a recovery pump and supplying cutting oil to the processing unit. ,
A low level sensor installed inside the auxiliary tank to detect a predetermined minimum height section according to the height of the cutting oil level, and a high level sensor to detect a predetermined maximum height section, and the oil level inside the auxiliary tank from the low level sensor When the height signal is received and the oil level in the auxiliary tank is lower than the predetermined minimum height range, the recovery pump is operated to replenish the cutting oil in the auxiliary tank until the oil level in the auxiliary tank reaches the predetermined maximum height range. control,
After the operation of the recovery pump is stopped, the oil level of the auxiliary tank is lowered to stop the operation of the recovery pump until the high level sensor is turned off and the low level sensor is turned on,
When the oil level level detected by the low level sensor is maintained for a predetermined time at a level lower than the predetermined minimum height range while the recovery pump is continuously operated, an emergency signal is sent by recognizing a cutting oil shortage condition,
In the state where cutting oil is being supplied to the processing unit, if the height of the oil level in the auxiliary tank detected by the high level sensor is maintained at a level higher than the predetermined maximum height range for a predetermined time, it is recognized that the auxiliary tank is overflowing with cutting oil. A method for controlling a cutting oil tank for a machine tool, characterized in that for sending an emergency signal. delete delete The method of claim 8, wherein the lower limit height of the auxiliary tank is set lower than the predetermined minimum height section, and when the low level sensor detects that the oil level height of the auxiliary tank is lower than the lower limit height, A method for controlling a cutting oil tank for a machine tool further comprising recognizing a cutting oil shortage state and sending an emergency signal. The method of claim 8, wherein the upper limit height of the auxiliary tank is set higher than the predetermined maximum height range, and when the oil level height of the auxiliary tank detected by the high level sensor is higher than the upper limit height, A method for controlling a cutting oil tank for a machine tool further comprising recognizing that the auxiliary tank is overflowing with cutting oil and sending an emergency signal. delete delete delete delete