JPH1035798A - Detector for residual liquid level in liquid oil supply device - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To provide a residual liquid amount detecting device in a supply device for liquid oil or the like which stops pumping of a raw liquid when the residual liquid amount in a container decreases. SOLUTION: A mounting table 34 swinging around a center fulcrum.
A container 15 containing the same amount of undiluted solution is placed on both sides of the mounting table 34, and a supply device for pumping the undiluted solution from one container 15 and supplying the undiluted solution to the use device side detects the remaining amount of undiluted solution. The liquid level detection device 30 includes a mounting table 34
Among them, the adjusting weight 36 corresponding to the remaining liquid amount is attached to the container 15 side for pumping the undiluted solution, and the remaining amount sensor 37 for stopping the undiluted solution when the end of the mounting table 34 is raised is operated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a supply apparatus for supplying a liquid oil or the like to an external use apparatus by circulating and using a liquid in the tank by independently providing a tank. The present invention relates to a residual liquid amount detection device in a supply device for supplying liquid oil or the like for detecting a liquid amount and stopping pumping from a container.

[0002]

2. Description of the Related Art In an industrial machine, there are various kinds of supply devices which have their own tank and circulate the liquid stored in this tank or send the liquid to an external device. For example, in a machine tool, a cutting fluid is stored in a tank, the cutting fluid is applied to a cutting edge during cutting, and then collected and circulated again in the tank by a pump. Also,
The stored plating solution is also circulated in the plating tank. Then, the amount of the liquid in the tank on the side of the used device evaporating or consumed is replenished from the supply device in a timely manner.

[0003] Further, in a coating facility, a chemical spraying device, a sterilizer for an automatic water supply device, etc., a liquid stored in a tank is sprayed as required or a required amount is supplied according to use. Then, a liquid amount according to the consumption amount is replenished from the supply device each time. As the liquid to be supplied, when the undiluted solution stored in the container is pumped and supplied to the use device as it is, or the undiluted solution in the container is pumped and mixed with other liquids, and this mixed solution is supplied to the use device side. There are various cases such as a case of supplying, or a case of drawing a stock solution in a container, diluting the solution with water, and supplying a dilute solution having a predetermined concentration.

[0004]

The supply device described above pumps up the stock solution in the container, and it is necessary to replenish the stock solution in a timely manner when the amount of the remaining solution in the container becomes small. Therefore, it is desired to accurately detect the remaining liquid amount.

The present invention has been made in view of the above circumstances, and has as its object to reduce the amount of liquid remaining in a container.
An object of the present invention is to provide a residual liquid amount detection device in a supply device for liquid oil or the like which stops pumping of a stock solution.

[0006]

According to a first aspect of the present invention, there is provided a mounting table swinging about a central fulcrum, and a container containing the same amount of undiluted solution is mounted on both sides of the mounting table. A supply device for pumping the undiluted solution from the storage device to supply the undiluted solution to the use device side, wherein the unreacted liquid amount detection device detects the undiluted solution amount of the undiluted solution, and the remaining liquid is located on the container side of the mounting table that is pumping the undiluted solution. It is characterized in that an adjustment weight corresponding to the amount is attached, and a remaining amount sensor for stopping the pumping of the undiluted solution when the end of the mounting table is raised is operated.

According to a second aspect of the present invention, the supply device includes an electric motor drive pump that is started and stopped by a liquid oil use signal on the use device side to pump up the undiluted liquid in the container. It is characterized in that it is controlled by a sensor in preference to the liquid oil use signal on the use device side.

According to a third aspect of the present invention, there is provided an operating valve connected to a water supply passage and controlled to open and close by a liquid oil use signal on a use device side, a first liquid flowing through the operating valve, and the first liquid. A self-priming type mixing valve device that mixes the undiluted solution in the container sucked in accordance with the water flow of the liquid, and the operating valve is given priority over the liquid oil usage signal on the usage device side by the remaining amount sensor. It is characterized by being controlled by

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a first embodiment according to claims 1 and 2 will be described.
Will be described with reference to FIGS. 1, 2 and 4. FIG. First, in FIG. 2, each use device is provided with its own tank 1, and a worker operates a valve 2 to generate a liquid oil use signal to control the drive stop of the electric motor 6 on the supply side. ing. Note that a float sensor 3 or a float valve 3 may be provided in the tank 1 in place of the open / close signal of the valve 2 to generate a control signal to control the electric motor 6 so as to automatically manage the liquid level. And float valve 3
May be combined to control the supply side.

The first supply device 5 supplies the undiluted solution of the pail can 15 to the tank 1 on each use device side. The use devices include a machine tool, a coating facility, a chemical spraying apparatus, and a sterilization facility for an automatic water supply device. And so on. In this embodiment, an example in which the present invention is applied to cutting oil for a machine tool will be described. That is, one set of the first supply device 5 is installed for several to several tens of machine tools.

Hereinafter, the first supply device 5 will be described. As shown in FIG. 1, two pail cans 15 as two containers are placed on symmetrical positions on the upper surface of the residual liquid amount detection device 30. This pail can 15 was purchased from an oil and fat maker, and is placed as purchased without transferring the stock solution of the cutting oil to another container.

A pump 7 driven by an electric motor 6 is disposed above the pail can 15. This pump 7 has a hose 1 inserted into one pail 15.
4 and a stock fluid of cutting oil is pumped up through a ball valve 16 for preventing backflow, and is pressurized, for example, 3 to 5 kg /
It is stored in the pressurized tank 8 as cm ² of cutting oil. That is, when the pressure in the pressurized tank 8 drops to the lower limit of the set pressure, the electric motor 6 starts to pump up the undiluted solution, and when the pressure rises to the upper limit of the set pressure, the electric motor 6 stops,
The cutting oil in the pressurized tank 8 is kept in a certain pressure range. The pressurized tank 8 is connected to the tanks 1 of a plurality of machine tools via a pipe 9.

The electric motor 6 and the pump 7 are operated when a liquid oil use signal of the valve 2 or a liquid level control signal of the tank 1 is issued on the use side, that is, the valve 2 of each pipe 9 is opened or closed, or When the float switch 3 operates,
It is started and stopped with a time delay. That is, when the valve 2 is opened, the cutting oil is supplied from the pressurized tank 8 to the tank 1. As a result, the pressure in the pressurized tank 8 gradually decreases, and when the pressure reaches the lower limit of the set pressure, the electric motor 6 and the pump 7 are activated to pump up the stock solution. The pressurized tank 8
When the pressure inside increases gradually and reaches the upper limit of the set pressure,
The electric motor 6 and the pump 7 stop. The pressurized tank 8 is provided with a relief valve 8a when the pressure inside the pressurized tank 8 exceeds a set pressure, and the pipe 9 is located downstream from the pressurized tank 8 An on-off valve 9a and a ball valve 9b for a stop valve are mounted.

Next, a weight type embodiment of the present invention for the apparatus 30 for detecting the remaining amount of the undiluted solution in the pail can 15 is shown in FIG.
This 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 is configured such that the shaft 35 on the lower surface of the center
2, two pail cans 15 containing the stock solution of the cutting oil are pivotally mounted on the shaft 35 so as to be able to swing left and right around the fulcrum. It is placed. In this pail can 15, a can purchased from an oil and fat maker is placed as it is. 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 (right side in the figure) on which the undiluted solution is drawn.
Is attached. 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. The base 31 has a remaining amount sensor 37 that operates when the end of the mounting table 34 is raised.
Is installed. The remaining amount sensor 37 stops the electric motor 6 and the pump 7 in preference to the liquid oil use signal of the valve 2 or the liquid level control signal of the tank 1 on the use device side. That is, the electric motor 6 and the pump 7 are stopped regardless of whether the valve 2 of each pipe 9 is opened or closed, or whether the float switch 3 is turned on or off. If the valve 2 is open, an alarm may be issued to warn that the valve 2 will be closed. If the electric motor 6 and the pump 7 are restarted when the valve 2 is left open, there is a risk that the stock solution will be supplied and the tank 1 will overflow.

Next, the operation of the above configuration will be described with reference to FIG. 1. The two pail cans 15 are mounted on the mounting table 34, and the tip of the hose 14 is inserted into, for example, the pail 15 on the right side (the side on which the adjustment weight 36 is attached) [FIG. 4 (a)]. Since the right side of the mounting table 34 is heavier by the weight of the adjusting weight 36, the mounting table 34 is lowered to the right, and a gap is formed between the mounting table 34 and the remaining amount sensor 37.
7 is in a non-operation state. The mounting table 34 is supported by the buffer spring 33.

2. Here, in the group of machine tools, for example, when the liquid level of the tank 1 of one machine tool is lowered and the operator opens the valve 2, the cutting oil in the pressurized tank 8 passes through the pipe 9. And supplied to the tank 1. 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 oil is stopped. When the cutting oil in the pressurized tank 8 is supplied to the tank 1, the pressure in the pressurized tank 8 decreases, so that the electric motor 6 and the pump 7 are activated and the inside of the pressurized tank 8 is again pressurized to a predetermined pressure. Maintained state.

3. The liquid amount WL in the pail can 15 gradually decreases as the undiluted solution is sent to the use apparatus side, that is, to the tank 1,
The mounting table 34 shifts upward from the horizontal state (FIG. 4B). Then, when the amount of liquid remaining in the pail can 15 reaches the water level WL (FIG. 4C) at which pumping is stopped, the ball valve 16 is exposed from the liquid level WL, and the mounting table 3 is set.
4 rises, and the remaining amount sensor 37 is turned on. As a result, the electric motor 6 and the pump 7 are kept stopped. That is, the supply of the undiluted solution into the pressurized tank 8 is maintained in a stopped state prior to the liquid oil use signal from the valve 2. At the same time, an alarm is issued to notify that the pail 15 has been replaced.

When the worker refills a new pail can 15, inserts the hose 14 and the ball valve 16 therein, and starts the electric motor 6 and the pump 7 again, the delivery of the stock solution is resumed. When the electric motor 6 and the pump 7 are restarted, it is necessary to confirm that each of the above-mentioned valves 2 is closed and manage the liquid level of the tank 1 so as not to overflow.

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.

FIG. 3 shows an application to the second supply device 20 according to the first and third aspects. This second supply device 2
0 is applied when mixing two solutions or diluting a stock solution with water. The equipment used includes a machine tool that uses a water-soluble cutting fluid, a plating tank, a coating facility, a chemical spraying apparatus, and a sterilization facility for an automatic water supply device.

As the mixing valve device 10, in this embodiment, for example, a self-priming type mix control valve is used to obtain a spraying effect. First entrance 11
Is connected to a water supply source 12, and a hose 14 connected to a second inlet 13 is inserted into a pail can 15 containing a stock solution. A ball valve 16 is attached to the end of the hose 14 to prevent backflow of the stock solution.

When the undiluted solution is diluted with water, for example, when a water-soluble cutting oil, a pesticide, or water is produced in a machine tool, a chemical sprayer, a sterilizer for an automatic waterer, or the like, the water supply source 12 is a water supply source. A source or an industrial water source is used, and the pail 15 contains a stock solution such as a cutting oil, a pesticide, or a sterilizing solution. Further, when mixing two liquids, for example, when supplying a mixed liquid of two liquids to the plating tank, a supply source of the first liquid is used as the water supply source 12, and the pail can 15 is supplied with the second liquid. Contain undiluted solution. In the case of a coating facility, a supply source of a solvent is used as the water supply source 12, and the pail can 15 contains a paint or a solvent. In this embodiment, a case where a water-soluble cutting fluid for a machine tool is generated will be described.

When the water passes through the first inlet 11, the mixing valve device 10 uses the velocity energy of the water to pump up the stock solution of the cutting oil from the second inlet 13 in a self-priming manner. The mixed / diluted cutting fluid is sent to the outlet 17
From the tank 1 on the use side. The mixing valve device 10 includes a water supply source 12 having a water pressure of 1.3 kg / cm ² or more.
To effectively operate, 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 high, the ratio of the stock solution that 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, and the flow rate of the stock solution decreases. If you set
The concentration of the cutting fluid decreases.

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. When a liquid oil use signal is issued on the use device side, that is, when the valve 2 is opened, electricity is supplied, and when the valve 2 is closed, the power is cut off. You. Then, it is opened at the time of energization and water is supplied from the first inlet 11, and is closed at the time of power failure and is not passed. still,
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 opening / closing valve 12 a is provided upstream of the operation valve 19. Further, the water pressure of the water supply source 12 is managed by a pressure gauge 23.

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. 4 (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. Here, in the group of machine tools, for example, when the liquid level of the tank 1 of one machine tool drops and the operator opens the valve 2, the operating valve 19 is opened and the first valve is opened.
Water flows from the water supply source 12 to the entrance 11 of the
A predetermined amount of the stock solution is pumped from the pail can 15 to the second inlet 13 through the ball valve 16 and the hose 14. Then, the water and the stock solution are mixed and diluted, and a cutting fluid having a predetermined concentration is sent to the tank 1 from the outlet 17. When the inside of the tank 1 on the use side reaches a predetermined water level, the operator closes the valve 2. Then, the operation valve 19 is closed, the supply of water from the water supply source 12 is stopped, and at the same time, the pumping of the stock solution from the pail can 15 is also stopped, so that the generation of the water-soluble cutting fluid is stopped.

3, The operation of the unremaining liquid amount detecting device 30 is the same as that of the first supply device 5, and therefore the description is omitted, and only the case where the remaining amount sensor 37 is turned on will be described. When the liquid amount WL in the pail can 15 decreases and the remaining liquid amount reaches the water level WL (FIG. 4C) at which the pumping stops, the right end of the mounting table 34 rises and the remaining amount sensor 37 is turned on. . As a result, the operation valve 19 is turned off, the supply of water from the water supply source 12 is stopped, and at the same time, the pumping of the stock solution is also stopped, so that the generation of the cutting fluid is stopped.

The remaining amount sensor 37 is a sensor for turning off the operating valve 19 prior to the opening operation signal of the valve 2 on the use side, that is, the liquid oil use signal or the liquid level control signal of the tank 1, that is, Water supply can be stopped and maintained regardless of whether the valve 2 of each pipe 9 is opened or the float switch 3 is turned on. That is,
Even when the valve 2 is open, when the remaining amount of the stock solution in the pail can 15 is small, the operation valve 19 may be kept closed and an alarm for closing the valve 2 may be issued.

Then, the worker is asked to enter a new pail can 15
Is refilled, the hose 14 and the ball valve 16 are inserted therein, and the operation valve 19 is reset, whereby the generation of the cutting fluid is resumed.

According to the above embodiment, the following effects can be obtained. a. Since two containers are placed on the mounting table, they can be pumped up alternately and the setup time can be shortened. b. Since the pumping is automatically stopped by a simple weight sensor, there is no need to constantly monitor the liquid surface of the pail can 15, so that the management is simplified. c) The container can use the pail can 15 purchased from the oil and fat maker as it is, so that the labor of transferring the undiluted solution to another container can be omitted. d, Even when the mixed liquid or the diluting liquid is generated, when the remaining liquid amount in the container comes to the stoppage time of the pumping of the undiluted solution, the remaining amount sensor 37 operates to stop the water supply and terminate the pumping of the undiluted solution. Therefore, the water or the first liquid alone does not flow into the tank 1, and the concentration control of the cutting liquid is reliably performed.

FIG. 5 shows a second embodiment of the residual liquid amount detecting device according to the present invention. Differences from the first embodiment will be described. A lever 61 having a fulcrum on the shaft 35 is rotatably attached to the side surface of the mounting table 34, and the adjustment weight 36 is slidably attached to the lever 61. The position of the adjustment weight 36 is appropriately selected according to the remaining liquid amount when the pumping is stopped. In other words, if it moves to the tip side, the remaining liquid amount decreases, and if it moves to the center side,
The remaining liquid volume increases. The tip of the lever 61 is the mounting table 3
4 is fixed to the side surface. Also, remaining amount sensors 37A and 37B are attached to both ends of the mounting table 34, respectively.

The lever 61 and the adjustment weight 36 are
It is located on the container side where the undiluted solution is pumped. That is, when the undiluted solution is pumped from the right pail 15, it is arranged on the right side shown in FIG. 5A, the remaining amount sensor 37A on this side is enabled, and the remaining amount sensor 37B on the opposite side is disabled. .

In the second embodiment, FIG.
5 (b) from the start of pumping shown in FIG.
When the pumping stop time is reached, the remaining amount sensor 37A is activated, the operation valve 19 is turned off, and the water supply source 12 is turned off.
Then, the supply of water to the mixing valve device 10 is stopped, the pumping of the stock solution is also stopped, and the generation of the cutting fluid is interrupted.

Here, as shown in FIG. 5D, the lever 61 and the adjustment weight 36 are moved to the left to activate the remaining amount sensor 37B, and the ball valve 16 and the hose 14 are connected to the left pail 15. Upon insertion, the undiluted solution can be immediately pumped from the left pail 15 to generate cutting oil. Therefore, if the empty pail can 15 is replaced with a new pail can, the state returns to the normal pumping state shown in FIG. Since the cutting fluid is generated even during the replacement of the pail can 15, the replacement operation of the pail can 15 can be carried out with sufficient time.

According to the second embodiment, if two pail cans 15 are prepared and placed on the mounting table 34, when the pumping of one pail 15 is completed, the other pail can 15 is immediately moved from the other pail can 15. Can be switched to pumping, so that the production line is not stopped even during the working time for replacing the old and new pail cans 15. According to the second embodiment, in addition to the effects of the first embodiment, there is an effect that the productivity can be further improved.

FIG. 6 shows a third embodiment of the present invention. The difference from the second embodiment is that a switching valve 62 is attached to a hose 14 connected to a first inlet 11. And a switching lever 63. Two hoses 64 and 65 are connected to the switching valve 62, and are inserted into the pail can 15, respectively. When the knob 63 is turned to the right, the hose 64 is connected to the hose 14 and the remaining amount sensor 37A is activated. When the knob 63 is turned to the left, the hose 65 is connected to the hose 14. , And is switched so that the remaining amount sensor 37B is activated. The third embodiment also has the same effects as the second embodiment.

[0038]

According to the first aspect of the present invention, there is provided a mounting table which swings around a center fulcrum, and a container containing the same amount of undiluted solution is mounted on both sides of the mounting table, and the undiluted solution is pumped from one container. In the supply device for supplying to the use device side, a residual liquid amount detecting device for detecting the residual liquid amount of the undiluted solution, wherein the mounting table corresponds to the residual liquid amount on the container side that is pumping the undiluted solution. Since the adjustment weight is attached and the remaining amount sensor for stopping the pumping of the undiluted solution when the end of the mounting table is raised is operated, the remaining amount can be detected by weight and the liquid level in the container is monitored. Since there is no necessity, the management is simplified, and since the stock solution container can be used as it is, the transfer of the stock solution can be omitted, and the effect that setup can be made extremely easily can be achieved. Sa If the container resting on the mounting table even container's, it is possible to make the equipment and operation state by providing a pair versatile, large practical effect.

According to a second aspect of the present invention, the supply device is provided with an electric motor drive pump that is started and stopped by a liquid oil use signal on the use device side to pump up the undiluted liquid in the container. Since the control is performed by the sensor in preference to the liquid oil use signal on the use device side, there is an effect that the liquid oil supply management on the use device side can be performed reliably and easily.

According to a third aspect of the present invention, the supply device is connected to the water supply passage, and the operation valve is controlled to open and close by a liquid oil use signal on the use device side, the first liquid flowing through the operation valve and the first liquid. A self-priming type mixing valve device that mixes the undiluted solution in the container sucked in accordance with the water flow of the liquid, and the operating valve is given priority over the liquid oil usage signal on the usage device side by the remaining amount sensor. Therefore, the concentration of the mixed solution can be reliably controlled.

[Brief description of the drawings]

FIG. 1 is a front view showing a first embodiment of a residual liquid amount detection device according to the present invention.

FIG. 2 is a piping diagram in which the present invention is applied to a first supply device.

FIG. 3 is a piping diagram in which the present invention is applied to a second supply device.

FIG. 4 is a diagram showing the operation of the remaining liquid amount detection device.

FIG. 5 is a diagram showing the operation of the second embodiment of the present invention.

FIG. 6 is a diagram illustrating the operation of a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Tank (used apparatus side) 2 Valve 3 Float switch 5 First supply device 6 Electric motor 7 Pump 8 Pressurized tank 9 Piping 10 Mixing valve device 12 Water supply source 15 Pail (container) 19 Operate valve 20 Second supply Device 30 Remaining liquid amount detecting device 31 Base 32 Bearing 34 Mounting table 35 Shaft 36 Adjusting weight 37 Remaining sensor 37A remaining sensor 37B remaining sensor

 ──────────────────────────────────────────────────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 mounting table that swings around a center fulcrum, a container containing the same amount of undiluted solution is mounted on both sides of the mounting table, and the undiluted solution is pumped up from one of the containers and supplied to the use apparatus side. In the supply device, a residual liquid amount detection device for detecting a residual liquid amount of the undiluted solution, wherein an adjusting weight corresponding to the residual liquid amount is attached to the container side of the mounting table that is pumping the undiluted solution, A residual liquid amount detecting device in a supply device for liquid oil or the like, wherein a residual amount sensor for stopping pumping of the undiluted solution is activated when an end of the mounting table is raised. 2. A supply device, comprising: an electric motor drive pump which is started and stopped by a liquid oil use signal on a use device side and pumps up a stock solution in a container, and the electric motor drive pump is provided by the use amount sensor by the remaining amount sensor. 2. The residual liquid amount detecting device in the liquid oil supply device according to claim 1, wherein the control is performed prior to the liquid oil use signal on the side. 3. An operation valve connected to a water supply passage and controlled to open and close by a liquid oil use signal on a use device side, a first liquid flowing through the operation valve and a flow of the first liquid. A self-priming type mixing valve device that mixes the undiluted liquid in the container with the suction according to the operation. The operation valve is controlled by a residual amount sensor in preference to a liquid oil usage signal on the usage device side. The residual liquid amount detection device in the supply device for liquid oil or the like according to claim 1, wherein: