JPH1029132A - System for supplying water soluble cutting fluid - Google Patents

Abstract

PROBLEM TO BE SOLVED: To supply cutting fluid of desired concentration to a plurality of machine tools at a proper time by providing an oil supply pump for sending out water soluble cutting fluid from a mixed valve device through a storage tank to the tanks of the respective machine tools. SOLUTION: Water flow from a water supply source 12 to a first inlet 11 of a mixed valve device 10 and, according to this, the specified quantity of original solution is scooped up from a pail can 15 through a ball valve 16 and a hose 14 to a second inlet 13. Then, the water and the original solution are mixed/diluted and the cutting fluid of a specified concentration is stored from an outlet 17 in a storage tank 20. When the inside of the storage tank 20 reaches a specified water level, a float sensor 21 is actuated and turned OFF, an operate valve 19 is shut off and the production of cutting fluid is interrupted. This cutting fluid is supplied through an oil supply pump 40 to the tank 1 of a machine tool.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for supplying a water-soluble cutting fluid for producing a water-soluble cutting fluid for a machine tool in a concentrated manner and supplying it to a tank of each machine tool.

[0002]

2. Description of the Related Art In a machine tool, a cutting fluid is applied to a tip of a cutting tool when processing a part in order to improve cutting performance and cool the cutting tool. Each machine tool has a dedicated tank for storing cutting fluid, and the cutting fluid applied to the cutting edge is collected and circulated again in the tank by a pump. As cutting fluid,
There are a water-insoluble oil agent containing a vegetable oil as a main component and a water-soluble oil agent obtained by adding various additives to water. In recent years, water-soluble oil agents have been used more frequently than water-insoluble oil agents because of easy handling.

[0003] By the way, the cutting fluid adheres to the swarf and is discarded, or is evaporated and consumed, so that it must be replenished periodically. However, the amount of consumables differs depending on the degree of operation of the machine, so the replenishment time does not match.Moreover, since the amount of cutting fluid used differs depending on the cutting mode, for example, a lathe or a milling machine, etc. There was a situation that it could not be generated. Therefore, conventionally, each worker independently diluted the stock solution of cutting oil with water to adjust the concentration at the time of replenishment, and replenished the tank of the machine tool in charge each time.

[0004]

However, the fact that the operator prepares the water-soluble cutting fluid independently each time tends to cause a variation in the concentration of the water-soluble cutting fluid, and furthermore, the work of mixing with the cutting oil stock solution. Is not only complicated but also meanwhile,
Since the work must be interrupted, there is a problem that the production efficiency is significantly reduced.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a water-soluble cutting fluid supply system capable of supplying a desired concentration of cutting fluid to a plurality of machine tools in a timely manner. To be.

[0006]

According to the first aspect of the present invention, a stock solution of a cutting oil is diluted with water to produce a cutting fluid for a machine tool having a predetermined concentration, which is supplied to respective tanks of a plurality of machine tools. A first inlet connected to a water supply source and a second inlet connected to a stock solution of cutting oil, the system being responsive to a water flow supplied from the first inlet. A mixing valve device for sucking a stock solution of the cutting oil from the second inlet, mixing the water and the stock solution of the cutting oil and sending out a water-soluble cutting fluid having a predetermined concentration, the water supply source and the first inlet, An operation valve connected between the storage valve and a storage tank that has a float sensor that controls opening and closing of the operation valve and stores the water-soluble cutting fluid sent from the mixing valve device,
It is characterized in that an oil supply pump for sending the water-soluble cutting fluid in the storage tank to the tank of each machine tool is provided.

The invention according to claim 2 is characterized in that the operating valve is configured to be opened and closed by a remaining amount sensor of the stock solution of the cutting oil in preference to the float sensor of the storage tank.

[0008] The invention of claim 3 is characterized in that a flow sensor by a flow meter is provided between the operating valve and the mixing valve device so as to issue an alarm when the flow is abnormal.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS. First, in FIGS. 1 to 3, this supply system is one set for a group of machine tools using the same concentration of water-soluble cutting fluid, for example, several to several tens of machine tools. Each machine tool is provided with a tank 1 for storing a cutting fluid, and an operator operates a valve 2 to manage the liquid level. Incidentally, a float sensor or a float valve may be provided in the tank 1 to automatically manage the liquid level.

The mixing valve device 10 is for diluting a stock solution of a cutting oil with water and mixing a cutting fluid for a machine tool with a predetermined concentration. In this embodiment, for example, a self-priming type which can obtain a spraying effect is obtained. A mix control valve is used. The first inlet 11 is connected to a water supply 12,
A hose 14 connected to the second inlet 13 is inserted into a pail 15 containing a stock solution of cutting oil. This hose 1
A ball valve 16 is attached to the tip of 4 to prevent backflow of the stock solution. When the water passes through the first inlet 11, the mixing valve device 10 uses the velocity energy of the water to
An undiluted cutting fluid is pumped up in a self-priming manner from the inlet 13 of the nozzle, and the mixed and diluted cutting fluid is sent out from the outlet 17. The mixing valve device 10 has a hydraulic pressure of 1.
It is connected to a water supply source 12 of 3 kg / cm ² or more to operate effectively, and the flow rate of the stock solution passing through the second inlet 13 can be adjusted by turning the adjustment knob 18. That is, if the flow rate of the stock solution is set to be large, the ratio of the stock solution which is self-primed by the water flow flowing from the first inlet 11 is large, so that the concentration of the mixed water-soluble cutting fluid increases,
If the flow rate of the stock solution is set small, the concentration of the cutting fluid will be small.

The operating valve 19 is connected to the first inlet 11.
An electromagnetic valve connected between the water supply source 12 and the water supply source 12, which is opened when energized and supplied with water from the first inlet 11, and is closed and cut off when power is cut off. The cutting fluid sent from the outlet 17 is stored in the storage tank 20. A float sensor 21 is attached to the storage tank 20,
When the inside of the storage tank 20 reaches a predetermined water level, the float sensor 21 operates to shut off the operation valve 19.
When the water level of the water-soluble cutting fluid falls below a predetermined height, the operating valve 19 is operated. In addition, a flow meter 22 as a flow sensor for detecting a water supply state is attached between the operation valve 19 and the first inlet 11, and an on-off valve 1 is provided upstream of the operation valve 19.
2a is provided. Further, the water pressure of the water supply source 12 is managed by a pressure gauge 23.

Next, a weight-type embodiment of the apparatus 30 for detecting the remaining amount of the undiluted solution in the pail can 15 will be described with reference to FIG. The base 31 has a bearing 32 attached to the center and a buffer spring 33 attached to both ends.
The mounting table 34 has a shaft portion 35 on the lower surface of the central portion fitted to the bearing 32, and is mounted so as to swing left and right with the shaft portion 35 as a fulcrum. Two pail cans 15 containing a stock solution of cutting oil are placed. The pail can 15 is placed as it is without transferring the can sent from the oil and fat maker. The lower surface of the mounting table 34 is pressed against the buffer spring 33.

An adjusting weight 36 is attached to the mounting table 34 at the end of the pail 15 on which the undiluted solution is drawn. The weight of the adjustment weight 36 is set in accordance with the remaining amount when the amount of liquid in the pail 15 is reduced and the pumping is stopped. Further, a remaining amount sensor 37 that operates when the end of the mounting table 34 is raised is attached to the base 31. The remaining amount sensor 37 illuminates the stock solution shortage warning lamp 53 shown in FIG. 5, resets the start button 51, disconnects the operation valve 19 in preference to the float sensor 21 of the storage tank 20, and turns off the mixing valve device. 10
This stops the water supply and the supply of the stock solution.

On the other hand, the oil supply pump 40 is connected to the storage tank 20.
The cutting fluid whose concentration is controlled to be constant is pumped up, and a pressurized water-soluble cutting fluid, for example, a cutting fluid of 3 to 5 kg / cm ² is supplied into the pressurized tank 41. The pressurized tank 41 is connected to the tanks 1 of a plurality of machine tools via a pipe 42. Therefore, when the valve 2 of each pipe 42 is opened, the cutting fluid is supplied from the pressurized tank 41 to the tank 1 of the machine tool, and the oil supply pump 40 automatically starts and stops so as to maintain the set pressure in the pressurized tank 41. repeat. In FIG.
The switchboard 50 is provided with a start button 51, a water flow abnormality alarm lamp 52, a stock solution shortage alarm lamp 53, an abnormality reset button 54, and a stop button 55.

Next, the operation of the above configuration will be described with reference to FIGS. 1. The adjustment knob 18 of the mixing valve device 10 is set in advance according to the concentration of the cutting fluid to be generated. Then, the two pail cans 15 are placed on the mounting table 34, and for example, the pail 15 on the right side (the side on which the adjustment weight 36 is attached) is placed.
The tip of the hose 14 is inserted into the hose [FIG. 6 (a)]. The right side of the mounting table 34 is heavier by the weight of the adjustment weight 36,
The mounting table 34 is lowered to the right, a gap is formed between the mounting table 34 and the remaining amount sensor 37, and the remaining amount sensor 37 is in a non-operating state.

2. When the start button 51 is pressed, the operation valve 19 and the oil supply pump 40 are activated. Here, the case where the float sensor 21 of the storage tank 20 is turned off will be described. In this case, the cutting fluid is stored in the storage tank 20 to a predetermined water level. Then, the float sensor 21 is turned off, the operation valve 19 is shut off, and no water is supplied into the mixing valve device 10. That is, the stock solution of the cutting oil is not pumped.

At this time, if the flow is detected by the flow meter 22 in spite of the operation valve 19 being in the off state, the water flow abnormality alarm lamp 52 is lit because the water leakage of the operation valve 19 is abnormal. Then, the operation is stopped by the stop button 55. Then, after removing the cause of the abnormality, the reset button 54 is pressed, and the start button 51 is pressed again to restart. On the other hand, the refueling pump 40 is in the operating state, and the pressure of the cutting fluid in the storage tank 20 is increased, and the cutting fluid is stored in the pressurized tank 41 of the refueling pump 40.

Here, in the machine tool group, for example, the liquid level of the tank 1 of one machine tool is lowered, and the operator
Is opened, the cutting fluid in the pressurized tank 41 is supplied to the tank 1 through the pipe 42. Then, when the liquid level of the tank 1 rises to a predetermined water level and the valve 2 is closed, the supply of the cutting fluid is stopped. The cutting fluid in the pressurized tank 41 is
Is supplied to the pressure tank 41, the pressure in the pressurized tank 41 decreases, and the oil supply pump 40 operates to maintain the pressurized tank 41 in a predetermined pressurized state again. The pressurized tank 4
The fuel supply pump 40 may be started each time in conjunction with the valve 2 without providing 1.

3. Next, the case where the float sensor 21 is turned on will be described. When the inside of the storage tank 20 is in a state where the cutting fluid is not stored to a predetermined water level, it is required to replenish the cutting oil. First, it is detected whether the remaining amount sensor 37 of the remaining liquid amount detecting device 30 is operating. If not, then operate valve 1
9 is detected as being open. Operate valve 1
9 is opened and if water is supplied to the flow meter 22,
The device is in a normal state.

That is, water flows from the water supply source 12 to the first inlet 11, and accordingly, a predetermined amount of undiluted solution passes from the pail can 15 through the ball valve 16 and the hose 14 to the second inlet 1.
Pumped to 3. Then, the water and the undiluted solution are mixed and diluted, and the cutting fluid having a predetermined concentration is supplied from the outlet 17 to the storage tank 20
Is stored within. When the inside of the storage tank 20 reaches a predetermined water level, the float sensor 21 is operated and turned off, the operation valve 19 is shut off, and the generation of the cutting fluid is interrupted. If the supply amount of the machine tool to the tank 1 is large, the water level in the storage tank 20 drops, so that the float sensor 21 is turned on again and returns to the above-described state.

4. If the remaining amount sensor 37 is on in the process of "3" described above, the stock solution in the pail can 15 is insufficient, so the stock solution shortage alarm lamp 53 is turned on. The start button 51 is returned by the stop button 55 to stop the system. Then, if the cause of the abnormality is removed, that is, a new pail can 15 is refilled, the hose 14 and the ball valve 16 are inserted into the pail 15, and the start button 51 is pressed after the reset button 54 is reset. Is done.

5, In the above-described process of "3", if the operation valve 19 is closed due to, for example, an electrical failure, despite the ON signal of the operation valve 19, the signal of the flow meter 22 is not received. The water flow abnormality alarm lamp 52 is turned on, and the start button 51 is returned by the stop button 55. Therefore, if the cause of the abnormality is eliminated and the reset button 51 is pressed after the reset, the generation of the cutting fluid is restarted. 6, In the above-mentioned process of "3", even if the operation valve 19 is opened, if the flow meter 22 does not detect water supply due to, for example, water supply abnormality, the water flow abnormality alarm lamp 52 is also turned on, and the stop button is pressed. With 55, the start button 51 is returned. Therefore, if the cause of the abnormality is eliminated and the reset button 51 is pressed after the reset, the generation of the cutting fluid is restarted.

7. Next, the operation of the remaining liquid amount detecting device 30 will be described. On the mounting table 34, two pail cans 15 are mounted, and the right side (adjustment weight 36) shown in FIG.
The hose 14 and the ball valve 16 are inserted into a pail 15 on the side where is mounted (FIG. 6A). Hose 1
Since the pail 15 into which the undiluted solution is inserted and the undiluted solution is pumped is heavier by the weight of the adjustment weight 36, the mounting table 3
4 falls to the right to form a gap between the mounting table 34 and the remaining amount sensor 37, and the mounting table 34 is supported by the buffer spring 33.

As the cutting fluid is generated, the pail can 15
The liquid amount WL in the inside gradually decreases, and the mounting table 34 shifts upward from the horizontal state (FIG. 6B) to the right. Then, when the remaining liquid amount in the pail can 15 reaches the water level WL at which the pumping stops (FIG. 6C), the ball valve 16 is exposed from the liquid level WL, and the right end of the mounting table 34 rises. Then, the remaining amount sensor 37 is turned on. As a result, the stock solution shortage warning lamp 53 is turned on, the operating valve 19 is turned off in preference to the float sensor 21 of the storage tank 20, and the supply of water from the water supply source 12 to the mixing valve device 10 is stopped. Pumping is also stopped. The operator refills the new pail can 15, inserts the hose 14 and the ball valve 16 therein, operates the reset button 54, and then presses the start button 51 to resume the generation of the cutting fluid.

The amount of liquid remaining in the pail can 15 when the remaining amount sensor 37 is turned on can be adjusted by changing the weight and the mounting position of the adjusting weight 36. For example, the weight of the adjusting weight 36 is reduced. If the mounting position is increased or the mounting position is moved to the front end side, the lifting of the mounting table 34 is delayed, so that the amount of remaining liquid is reduced, and the weight of the adjustment weight 36 is reduced or the mounting position is moved to the center side. Then, the remaining liquid volume will increase.

According to the above embodiment, the following effects are obtained. a. Since the water-soluble cutting fluid is generated in a concentrated manner and supplied to the tank 1 of the machine tool in a timely manner, it is not necessary for the operator to individually mix and prepare the cutting fluid each time, so that the concentration control of the cutting fluid can be performed. Can be implemented reliably. b. In addition, when replenishing the water-soluble cutting fluid, the worker does not need to interrupt the work, so that the productivity can be improved.

(C) When the remaining amount of the stock solution in the container is reduced, an alarm is issued and the water supply is stopped, so that only water does not flow into the storage tank 20 and the concentration control of the cutting fluid is reliably performed. Done. d. Also, in the case of a system abnormality (water leakage, malfunction of the operating valve, etc.), an alarm is issued in the same manner as the above item c.
Can operate safely. e. Since the replenishment of the cutting fluid to the machine tool is performed immediately and in a timely manner, there is no burden on the operator and no trouble occurs in the work.

FIG. 8 shows another embodiment for controlling the remaining amount of the undiluted solution. One container 61 containing the undiluted solution is placed on a base 31, and a float switch 62 is mounted on the container 61. Things. The float switch 62 operates when the undiluted liquid drops to a predetermined water level to shut off the operation valve 19. Also,
For example, a liquid level sensor using a photoelectric sensor may be used in place of the float switch 62, or a weight sensor may be attached to the base 31, and the weight of the container 61 may be measured to detect the remaining weight. Good.

[0029]

According to the first aspect of the present invention, a water-soluble cutting fluid having a predetermined concentration is produced by diluting a stock solution of a cutting oil with water and supplying the same to respective tanks of a plurality of machine tools. A supply system for a liquid, comprising a first inlet connected to a water supply source and a second inlet connected to a stock solution of cutting oil, wherein a second inlet is connected to the second inlet in response to the water flow supplied from the first inlet. A mixing valve device that sucks a stock solution of cutting oil from an inlet, mixes the water with the stock solution of cutting oil, and sends out a predetermined concentration of a water-soluble cutting fluid, and is connected between the water supply source and the first inlet. Operating valve, a storage tank having a float sensor for controlling the opening and closing of the operating valve and storing the water-soluble cutting fluid sent out from the mixing valve device, and a water-soluble cutting fluid in the storage tank being supplied to each machine tool. And a refueling pump to send to the tank Because it was example, generated by concentrating the water-soluble cutting oil optimum concentration for each machine tool group, it can be supplied in a timely manner, in which excellent effects that can improve the productivity.

According to a second aspect of the present invention, since the operating valve is configured to be controlled to open and close by a remaining amount sensor of the stock solution of the cutting oil in preference to the float sensor of the storage tank, only water is supplied. As a result, it is possible to reliably prevent the accident of dilution of the cutting fluid in the storage tank, and to achieve the stable supply of the appropriate cutting fluid.

According to the third aspect of the present invention, a flow sensor using a flow meter is provided between the operating valve and the mixing valve device to generate an alarm when a flow is abnormal, so that the system can be safely managed. It has an excellent effect that it can be done.

[Brief description of the drawings]

FIG. 1 is a piping diagram of an embodiment of the present invention.

FIG. 2 is a front view of the device.

FIG. 3 is an enlarged front view of the mixing valve device.

FIG. 4 is a front view of the remaining liquid amount detection device.

FIG. 5 is a front view of a switchboard.

FIG. 6 is a diagram illustrating the operation of the remaining liquid amount detection device.

FIG. 7 is a flowchart.

FIG. 8 shows another embodiment of the remaining liquid amount detecting device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Machine tool tank 10 Mixing valve device 11 1st inlet 12 Water supply source 13 2nd inlet 17 Outlet 19 Operate valve 20 Storage tank 21 Float sensor 30 Residual liquid amount detection device 40 Oil pump

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Yoshihiro Sakaki 2-4-1, Hamamatsucho, Minato-ku, Tokyo World Trade Center Building Kayaba Industry Co., Ltd. (72) Yoneyoshi Tanaka 2-chome Hamamatsucho, Minato-ku, Tokyo 4-1 World Trade Center Building Kayaba Industry Co., Ltd. (72) Inventor Kozo Takase 2-198-1, Shinmachi, Komaki, Aichi Prefecture (72) Inventor Takeo Fujii 13-Jodoji, Kamijocho, Anjo-shi, Aichi Prefecture 1

Claims (3)

[Claims] 1. A water-soluble cutting fluid supply system for diluting a stock solution of a cutting oil with water to produce a cutting fluid for a machine tool having a predetermined concentration and supplying the same to respective tanks of a plurality of machine tools. A first inlet connected to a water supply source and a second inlet connected to a stock solution of cutting oil, wherein a stock solution of cutting oil is supplied from the second inlet in accordance with a water flow supplied from the first inlet. A mixing valve device that sucks, mixes the water with the stock solution of the cutting oil, and sends out a predetermined concentration of a water-soluble cutting fluid; an operating valve connected between the water supply source and the first inlet; A storage tank having a float sensor for controlling opening and closing of an operating valve and storing a water-soluble cutting fluid sent from the mixing valve device; and an oil supply pump for sending the water-soluble cutting fluid in the storage tank to a tank of each machine tool. It is characterized by having Supply system of a water-soluble cutting fluid to. 2. The water-soluble system according to claim 1, wherein the operation valve is configured to be controlled to open and close by a remaining amount sensor of the stock solution of the cutting oil in preference to a float sensor of the storage tank. Cutting fluid supply system. 3. A water-soluble cutting fluid according to claim 1, wherein a flow sensor by a flow meter is provided between the operating valve and the mixing valve device to generate an alarm when a flow is abnormal. Supply system.