JPH03559B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a lubricating oil monitoring device applied to machine tools and the like.

<Prior Art> Conventionally, lubricating oil monitoring devices applied to machine tools etc. issue a signal when the amount of oil reaches a certain level and replenish the oil at that time. Therefore,
If the detection position is set to the last possible position, the machine will have to be stopped from the time the signal is issued until it is replenished, which will have a negative impact on the machine's operating rate. It is set and used.

<Problems to be Solved by the Invention> However, the conventional lubricating oil monitoring device described above cannot detect troubles such as a failure of a float switch, a clogged pipe in the middle of piping, or an oil leak. There was a problem that there was no.

The purpose of the present invention was proposed in order to solve the problem in view of the above circumstances, and the purpose of the present invention is to measure the amount of lubricating oil used and when the remaining amount of lubricating oil reaches a preset amount of lubricating oil. Along with displaying the alarm,
It is an object of the present invention to provide a lubricating oil monitoring device in which the remaining amount of lubricating oil is compared with parameters such as upper and lower limit values of the usage amount to detect oil leaks, clogging of pipes, etc.

<Means and effects for solving the problems> The present invention is a conventional lubricating oil monitoring device in which a device for detecting oil leakage or pipe clogging is added, and the specific means thereof are as follows: In a lubricating oil supply device that supplies lubricating oil stored in a tank to a specified machine via a valve, there is a machine stop position where the standard usage amount of lubricating oil is stored from the bottom, and a machine stop position where the standard usage amount of lubricating oil is stored from the bottom. A lubricant shortage position that warns of lubricant shortage where twice as much lubricant is stored, a mid-position where a certain amount of lubricant is stored from the bottom, and a mid-position where approximately the same amount of lubricant is stored from the bottom. A tank that displays the upper limit position where lubricant is stored, a first counter that counts the amount of lubricant used that decreases as lubricant is used from the upper limit position to the intermediate position, and A second counter that counts the amount of lubricant used that decreases as the lubricant is used, and a count number of the amount of lubricant used that is counted from the intermediate position by the second counter and a preset standard amount of use. A first calculation means for calculating and stopping the machine with the count number, and a second counter that calculates the amount of lubricant used counted from the intermediate position and twice the preset standard amount used. a second calculation means for processing the count and issuing a lubricant shortage warning, and a maximum usage amount and minimum usage amount in which the count number of the lubricant usage amount from the upper limit position to the intermediate position is set in advance. compared to the count number of
It is comprised of a comparison means for warning of oil leakage and pipe clogging when the counted number of lubricating oil usage exceeds the counted number of maximum usage and is less than the counted number of minimum usage. With the device of the present invention, when lubricating oil is being supplied from the lubricating oil system to machine tools, etc. through the valve, it is possible to automatically detect oil leakage or pipe clogging and issue a warning. It will be done.

<Example> Hereinafter, one embodiment of the present invention will be described in detail based on the drawings.

1 First, the basic principle of the present invention will be explained.

FIG. 2 is a model diagram of a lubricating oil system for explaining the basic principle of the present invention.

In FIG. 2, a pump 102 sucks up lubricating oil into a tank 101 of the lubricating oil system, stores it therein, and supplies it to the machine tool from below the tank 101 via a valve 103.

When the lubricating oil currently stored in the tank 101 is sent to the machine tool by opening the valve 103 and used, the remaining amount of lubricating oil in the tank 101 gradually decreases and the float switch FS-A is moved to the position A,
The float switch FS-B reaches position B and the float switch FS-C reaches position C. Furthermore, the position where the remaining amount of lubricating oil in the tank 101 is Pφ from the bottom of the tank 101 (here, Pφ is a count) is designated as D, and the position of the float switch FS-C is designated as C. Position D
Let the amount of lubricating oil between them be φ (here, Pφ is the count number).

Here, as shown in Fig. 3, the lubricating oil in the tank 101 is sequentially used, and when the lubricating oil amount reaches position A of the float switch FS-A, the float switch FS-A opens and the counter Mi starts counting. If the number of counts when the amount of lubricating oil reaches the position of float switch FS-B is Ni, then position A of float switch FS-A and position B of float switch FS-B are The number of counts for the amount of lubricating oil between is Mi=Ni. The position B of the float switch FS-B is set so that the count number of the amount of lubricating oil to the bottom of the tank 101 becomes Mi=Ni.
When the lubricating oil in the tank 101 is continuously used and moves from the position B of the float switch FS-B to the position C of the float switch FS-C, the number of counts of the lubricating oil amount becomes Mi=Ni-2Pφ. When the float switch FS-C reaches position C, tank 10
Issues a warning that the amount of lubricating oil in 1 is insufficient and needs to be replenished. Furthermore, even if the amount of lubricating oil in the tank 101 is set to float switch FS-C at position C, the lubricating oil is sometimes not refilled even if the lubricating oil level is set at position C of float switch FS-C. The count number when it reaches is Mi=Ni-Pφ, and in this case, a signal to stop the machine is issued and the machine is stopped.

Furthermore, the concept for issuing warnings regarding oil leaks and pipe clogging, which is the main part of the present invention, is explained in a third section.
This will be explained using figures.

FIG. 3 is a model diagram showing a part of the tank in FIG. 2. In Fig. 3, if there is an oil leak between position A of float switch FS-A and position B of float switch FS-B, for example in the piping that supplies lubricating oil to the machine, for example, the count number P ₁ = 5.
If the number of counts in a normal case with no oil leakage is Ni=6 times, then P ₁ <Ni. If this condition of P ₁ <Ni is met, a warning that there is an oil leak will be issued.

Also, if there is a pipe blockage in the pipe that supplies lubricating oil to the machine, for example, the count number P ₂ = 8 times,
If the number of counts in a normal case where the pipe is not clogged is Ni=6, then P ₂ >Ni. If this condition of P ₂ >Ni is met, a warning is issued to the effect that the pipe is clogged.

Although an example has been shown in which the amount of lubricating oil is detected using a counter, other means such as the amount of lubricating oil may be used.

2 Next, the configuration of the present invention will be specifically explained.

FIG. 1 is a control block diagram illustrating the configuration of the present invention.

In FIG. 1, the CPU 1 is sent from the screen keyboard 2 as parameters such as a count number Pφ of the average amount of lubricant used per day, a count number _P1 of the maximum amount used to warn of oil leakage, and a minimum usage amount to warn of pipe clogging. The quantity count P ₂ is stored in the parameter memory 4 via the input/output circuit 2a.

Pump start 3 is connected to CPU 1 and turned on and off as necessary. Float switch installed in the tank 101 explained in Section 2 (A) and (B)
FS-A, FS-B and FS-C are connected via an input/output circuit 5. Lubricating oil is supplied from a valve 103 attached below a tank 101 to a main spindle 104, a cross slide 105, a saddle 106, and a turret tool rest 107 of a lathe M using a machine tool via a pipe 108.

The count number Pφ of the average amount of lubricant used per day stored in the parameter memory 4, the count number P1 of the maximum amount used to warn of oil leaks, and the count number _P2 of the minimum amount used to warn of pipe clogging, _respectively . It is temporarily stored in registers 6, 7 and 8.

Float switch installed inside the tank 101
FS-A is AND gate 9, float switch
FS-B is connected to AND gate 10 and AND gates 11 and 12. The tank 101 is filled with lubricating oil and is sent from the valve 103 to the lathe M via the pipe 108 for use.

Float switch FS-A uses lubricating oil
When the float switch FS decreases to position A,
-A works to reset the count number of the counter 14 and send the pump start signal to the AND gate 9.
It passes through the AND gate 13, and the counter 14 starts counting. The counter 14 is designed to stop counting when the float switch FS-B is activated. When the lubricating oil is further used and is reduced to the position B of the float switch FS-B, the float switch FS-B operates, and the signal for starting the pump is taken into the AND gate 10, passed through, and counted by the counter 15. Note that before the counter 15 counts, the count number of the counter 15 is reset by a reset signal from the float switch FS-A.

Number of counts counted by counter 15
Ni, the count number Mi already counted in the counter 14, and the count number Pφ counted in the register 6 are respectively
The data is taken into the calculation unit 17 of. First calculation unit 16
Then, the arithmetic processing of Ni = Mi - Pφ is performed, and in this case, a warning is issued that the lubricating oil is insufficient.
The second arithmetic unit 17 performs arithmetic processing of Ni=Mi-2Pφ, and in this case, the machine is stopped.

On the other hand, the count number P ₁ of the maximum amount used to warn of oil leaks stored in the register 7 is sent to the AND gate 11, and the count number P ₂ of the minimum amount used to warn of pipe clogging stored in the register 8 is sent to the AND gate 11. - Taken into gate 12. When the lubricating oil is used and decreases and the float switch FS-B is activated, AND gates 11 and 12 are opened, and the maximum usage amount count P ₁ is activated by the AND gate 11, and the minimum usage amount count number P ₂ is activated. Passes the AND gate 12, and the maximum usage count P ₁ is the comparator 1.
8, the count number P ₂ of the minimum usage amount is the comparator 19
be taken in.

Further, the count number Ni counted by the counter 15 is taken into the comparators 18 and 19.
A comparator 18 compares P ₁ and Ni, and if P ₁ <Ni, an oil leak warning is issued. P ₂ and Ni in comparator 19
If P ₂ > Ni, a pipe clogging warning will be issued. As described above, the present invention supplies the lubricating oil stored in the tank 101 from the valve 103 to the main shaft 104 and cross slide 10 of the lathe M, which is a machine tool.
5. When feeding the saddle 106 and the turret turret 107 via the piping 108, the remaining lubricating oil in the tank 101 is, for example, 2 of the average amount used per day.
When the amount of lubricating oil has doubled, a warning is issued that the lubricating oil is insufficient, and the machine is stopped when the amount used is equal to the average daily amount.Furthermore, there is a lack of lubricating oil and before the machine can be stopped, there is an oil leak or a clogged pipe. It is automatically operated to issue a warning at times.

<Effects> The present invention measures the amount of lubricant used, and sets the average amount used per day, for example. In addition to issuing a warning to stop the machine,
It is now possible to detect oil leaks or pipe clogging by comparing the amount of lubricating oil used with the upper and lower limits. By constantly measuring and capturing the amount of lubricating oil used, troubles such as malfunctions of float switches, pipe blockages, oil leaks, etc. can be discovered in advance, making it easier than ever before. Treatment can be taken quickly.

[Brief explanation of the drawing]

FIG. 1 is a control block diagram illustrating the configuration of the present invention. FIG. 2 is a model diagram of a lubricating oil system for explaining the basic principle of the present invention. FIG. 3 is a model diagram showing a part of the tank in FIG. 2. 1...CPU, 2...Keyboard with screen, 4...
...Parameter memory, 6,7,8...Register, 9,10...And gate, 11,12...
...and gate, 14,15...counter, 1
6, 17... Arithmetic unit, 18, 19... Comparator, 1
01...Tank, 102...Pump, 103...
Valve, FS-A, FS-B, FS-C...Float switch.

Claims (1)

[Claims] 1 In a lubricating oil supply device that supplies lubricating oil stored in a tank to a predetermined machine via a valve, the intermediate position where a certain amount of lubricating oil is stored from the bottom and the intermediate position from the bottom There is an upper limit position where approximately the same amount of lubricating oil is stored, a machine stop position which is lower than the intermediate position and where the standard amount of lubricant is stored from the bottom, and a machine stop position where the standard amount of lubricant is stored from the bottom. A tank that displays the lubricant shortage position that warns of lubricant shortage, where twice as much lubricant oil is stored, and the amount of lubricant used that decreases as lubricant oil is used from the upper limit position to the middle position is counted. A first counter, a second counter that counts the amount of lubricant used that decreases as lubricant is used from the middle position toward the bottom, and a second counter that counts the lubricant used from the middle position. A first calculation means for processing the count number of usage amount and a preset standard usage amount count number to stop the machine, and a second counter for calculating the amount of lubricant usage counted from the intermediate position. a second calculating means for issuing a lubricant shortage warning by processing the count number twice the preset standard usage amount; Compare the count number with the preset maximum usage amount and minimum usage amount counts, and if the lubricant usage amount count exceeds the maximum usage amount count and is less than the minimum usage amount count number. A lubricating oil monitoring device comprising a comparison means for warning of oil leakage and pipe clogging.