KR100349105B1 - System for automatically feeding oil - Google Patents

Abstract

The present invention relates to an automatic oil supply system for automatically supplying oil, wherein the amount of oil in the oil reservoir 53 and the oil reservoir 53 in which the oil is stored will be the maximum level (H) and the minimum level (L). When the output signal of the low level switch 57b is detected by detecting the signals of the high and low level switches 57a and 57b and the high and low level switches 57a and 57b which are turned on, respectively, A controller 61 which outputs an ON signal and detects an output signal of the high level switch 57a, and a contact switch 63 which is turned on or off in accordance with the ON and OFF signals output from the controller 61; , The solenoid valve 65 for selectively supplying air by operating when the contact switch 63 is turned on, the first switch for selectively supplying nitrogen gas by being operated by air supplied when the solenoid valve 65 is turned on Air valve (69 ), The oil storage tank 73 and the solenoid valve 65 in which the internal pressure is controlled by the nitrogen gas introduced when the first air valve 69 is turned on, and the oil for supplying oil to the oil reservoir 53 is stored. Is supplied by the air supplied when the tank is turned on, and includes a second air valve 77 for selectively supplying oil from the oil storage tank 73 to the oil reservoir 53 so as to automatically supply oil. Can be.

Description

Oil Automatic Supply System {SYSTEM FOR AUTOMATICALLY FEEDING OIL}

The present invention relates to an automatic oil supply system, and more particularly, to an automatic oil supply system for automatically supplying oil used for lubrication of various pumps.

Various devices, for example vacuum pumps, etc. are employed as a lubricant for its smooth operation, such oil is reduced in its amount by repeated lubrication or automatic evaporation over time. Therefore, this reduced oil must be supplied again.

1 shows a vacuum pump employing an oil supply system in which oil is supplied manually.

As shown, the vacuum pump includes an inlet flange 10 for connection with a chamber (not shown) to be evacuated, a cooling water system for reducing the temperature generated by the pumping action for vacuum, and a smooth pumping action. An oil supply system for supplying oil used as a lubricant.

The coolant system includes a coolant supply pipe 14 through which coolant is supplied, a coolant tank 16 in which coolant supplied through the coolant supply pipe 14 is stored, and a coolant discharge pipe 18 through which coolant is discharged after a cooling action. . With this configuration, the temperature raised by the pumping action of the vacuum pump is reduced by circulating the cooling water.

The oil supply system includes an oil reservoir 20 in which oil is stored. The oil reservoir 20 measures the oil amount of the oil reservoir 20 through the oil level measuring transparent plate 22 and the oil level measuring transparent plate 22 for measuring the amount of oil in the oil reservoir 20. And an oil supply lid 24 for supplying oil to the oil reservoir 20 when the amount of oil falls below a certain level. On the transparent plate 22 for oil level measurement, as shown in FIG. 2, the maximum level H and minimum level L of a desired oil quantity are displayed. That is, the amount of oil in the oil reservoir 20 is supplied to be located between the maximum level H and the minimum level L of the desired oil level when measured through the oil level measuring transparent plate 22.

In this configuration, when the oil supplied is lowered by the lubrication or automatic evaporation over time, if the oil amount is lower than the above-mentioned minimum level (L), the user stops the equipment, opens the oil supply cap 24 and opens the oil. It supplies until the level of reaches the maximum level H mentioned above.

However, such an oil supply system has the following problems. First, the equipment operation rate is lowered because the equipment must be stopped and operated to replenish oil. Second, the oil level must be checked and replaced from time to time. Accurate replenishment, etc., is difficult to bring the pump to shorten the life of the pump, and there is a problem that can reduce the quality of the product by reducing the cleanliness by polluting the surroundings during manual oil supply.

Accordingly, an object of the present invention is to provide an automatic oil supply system for automatically checking and supplying an oil amount to solve such a conventional problem.

In order to achieve the above object, the automatic oil supply system according to the present invention includes an oil reservoir in which oil is stored, a high and low level switch which is turned on when the amount of oil in the oil reservoir reaches a maximum level and a minimum level, respectively. The controller outputs a control signal by detecting a signal of the level switch, and outputs an on signal when the output signal of the low level switch is detected, and outputs an off signal when the output signal of the high level switch is detected. Contact switch to be turned on and off according to the OFF signal, solenoid valve for operating air selectively when contact switch is on, operated by air supplied when solenoid valve is on, and for selectively supplying nitrogen gas 1 air valve, by the nitrogen gas introduced when the first air valve is turned on A second pressure for selectively supplying oil from the oil storage tank to the oil reservoir by operating the oil storage tank and the air supply when the solenoid valve is turned on when the negative pressure is adjusted and the oil for supplying the oil reservoir is stored. It includes an air valve.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

1 is a perspective view of a vacuum pump employing a manual oil supply system,

2 is a front view of the transparent plate of the oil supply system of FIG.

Figure 3 is a schematic diagram of an automatic oil supply system according to the present invention.

<Description of the code for the main part of the drawing>

53: oil reservoir 55: transparent plate for measuring the oil level

57a, 57b: high and low level switch 61: controller

63: contact switch 65: solenoid valve

67 air line 69, 77 first and second air valve

71: nitrogen line 73: oil storage tank

75: oil supply line

Hereinafter, with reference to the accompanying drawings will be described in detail the oil automatic supply system according to the present invention.

3 is a schematic configuration diagram of an automatic oil supply system according to the present invention.

As shown, the automatic oil supply system according to the present invention is the oil reservoir 53, the high and low level switches 57a and 57b provided in the vacuum pump gearbox 51, the controller 61 ), A contact switch 63, a solenoid valve 65, a first air valve 69, an oil storage tank 73, and a second air valve 77.

The vacuum pump gearbox 51 includes a transparent plate 55 for measuring the amount of oil, and the transparent plate 55 displays the maximum level H and the minimum level L of the desired oil amount. have.

The high level switch 57a is turned on when the oil level reaches the maximum level H, and the low level switch 57b is turned on when the oil level reaches the minimum level L so as to control its signal respectively. 61) In addition, an alarm device 59 for generating an alarm sound when the low level switch L is turned on is connected to the low level switch 57b.

The controller 61 outputs an off signal when the on signal is output from the high level switch 57a to turn the contact switch 63 off, and outputs an on signal when the on signal is output from the low level switch 57b. To turn on the contact switch 63.

The contact switch 63 is turned on and off in accordance with the output signal from the controller 61 described above, and the solenoid valve 65 is provided on the air line 67 and connected to the contact switch 63.

The first air valve 69 is installed on the nitrogen line 71 to be turned on when air is supplied through the air line 67 described above, and selectively supplies nitrogen to the oil storage tank 73.

The second air valve 77 is for selectively supplying the oil of the oil storage tank 73 to the oil reservoir 53 provided in the vacuum pump through the oil supply line 75, through the air line 67 described above It is on when air is supplied.

Hereinafter, the process of supplying oil by the oil automatic supply system according to the present invention will be described.

When the oil in the oil reservoir 53 is lubricated or automatically evaporated over time, the low level switch 57b is turned on when the oil amount reaches the minimum level L described above. Thereby, the alarm device 59 is activated to generate an alarm sound to inform the user that oil is to be supplied, and the controller 61 outputs an ON signal to the contact switch 63 so that the contact switch 63 and the solenoid The valve 65 is turned on in turn. When the solenoid valve 65 is turned on, air is introduced through the air line 67 to turn on the first and second air valves 69 and 77. Thereafter, nitrogen gas flows into the oil storage tank 73 through the nitrogen line 71 by turning on the first air valve 69, and oil storage tank (by turning on the second air valve 77). Part of 73) is opened. Under this condition, by the pressure generated by the introduced nitrogen gas, the oil in the oil storage tank 73 is supplied to the oil reservoir 53 through the oil supply line 75.

On the other hand, when the oil supply amount in the oil reservoir 53 reaches the above-mentioned maximum level H, the high level switch 57a is turned on. Subsequently, the solenoid valve 65 is also turned off by the controller 61 turning off the contact switch 63 by detecting the on signal from the high level switch 57a. When the solenoid valve 65 is turned off, no air flows through the air line 67, so the first and second air valves 69 and 77 are turned off to stop the supply of nitrogen gas to the oil storage tank 73. And the open line of the oil storage tank 73 is blocked to stop the oil supply to the oil reservoir 53.

The foregoing merely illustrates a preferred embodiment of the present invention and those skilled in the art to which the present invention pertains may modify and modify the present invention without changing the gist of the present invention.

Therefore, according to the oil automatic supply system of the present invention, since the oil is automatically supplied, the operation rate of the apparatus can be improved and the contamination of the surroundings caused by the manual supply of oil can be prevented, thereby reducing the human and time loss. have.

Claims (1)

In the automatic oil supply system for automatically supplying oil, An oil reservoir where oil is stored, High and low level switches which are respectively turned on when the amount of oil in the oil reservoir reaches a maximum level (H) and a minimum level (L), A controller that detects the signals of the high and low level switches and outputs a control signal, and outputs an on signal when detecting the output signal of the low level switch, and outputs an off signal when detecting the output signal of the high level switch. , A contact switch turned on and off according to an on and off signal output from the controller, Solenoid valve for selectively supplying air by operating when the contact switch is on, A first air valve operated by air supplied when the solenoid valve is turned on, for selectively supplying nitrogen gas; An internal pressure of the oil storage tank is controlled by the nitrogen gas flowing when the first air valve is turned on, the oil storage tank for storing oil for supplying oil to the oil reservoir; And a second air valve actuated by the air supplied when the solenoid valve is turned on and for selectively supplying oil from the oil storage tank to the oil reservoir.