KR102583098B1 - Internal lubrication device of compressor for rock drill - Google Patents

Abstract

The internal lubrication device of the rock drill compressor according to the present invention is a device that is employed in the rock drill to lubricate the inside of the compressor that compresses and discharges the intake air, and includes a receiving tank, a main supply line, a shut-off valve, and a sub supply. line, and differential pressure valve. The receiving tank stores oil for lubrication and discharges the oil by the pressure of the compressed air discharged from the compressor as the compressor operates. The main supply line supplies oil discharged from the receiving tank to the main lubrication area in the compressor. The shut-off valve stands by with the main supply line closed and then opens the main supply line by the pressure of the compressed air discharged from the compressor. The sub-supply line branches off from the main supply line to supply oil that has passed through the shut-off valve to the sub-lubrication area in the compressor. The differential pressure valve closes the sub supply line when the oil pressure at the outlet becomes higher than the combined pressure of the compressed air discharged from the compressor and the spring pressure while the sub supply line is open.

Description

Internal lubrication device of compressor for rock drill}

The present invention relates to an internal lubrication device for a compressor for a rock drill, and more specifically, to a device for lubricating the inside of a compressor used in a rock drill to provide compressed air.

In general, rock drills are used to break rock or drill blast holes for the purpose of excavating and removing rocks at various tunnel construction sites such as ore extraction in quarries, road construction or tunnel construction in rocky areas, and subway construction sites. .

The most commonly used rock drills are the Down-the-hole Hammer (DTH), Top Hammer, and Rotary drill methods. Among them, in the DTH type rock drill, the drill rig rotates the entire tube, and the pneumatic hammer in contact with the rock strikes with compressed air, crushing the rock with impact energy and crushing the rock fragments with the compressed air discharged after the blow. Blow out and perforate.

This DTH type rock drill is equipped with a compressor that generates compressed air for driving the pneumatic hammer and supplies it to the pneumatic hammer. A compressor is a device that compresses gas and increases pressure. Since the compressor is equipped with many mechanical elements that cause mutual friction, lubrication is necessary to prevent damage due to friction between the mechanical elements. In particular, since the compressor used in a rock drill is configured to generate high-pressure compressed air, a method for effectively lubricating the inside of the compressor is required.

Registered Patent Publication No. 10-1652991 (2015.05.13, published)

The object of the present invention is to provide an internal lubrication device for a rock drill compressor that can effectively lubricate the inside of the compressor in conjunction with the operation of the compressor.

The internal lubrication device of the compressor for rock drill according to the present invention to achieve the above problem is a device that is employed in the rock drill to lubricate the inside of the compressor that compresses and discharges the intake air, and includes a receive tank and a main It includes a supply line, a shut-off valve, a sub-supply line, and a differential pressure valve. The receiving tank stores oil for lubrication and discharges the oil by the pressure of the compressed air discharged from the compressor as the compressor operates. The main supply line supplies oil discharged from the receiving tank to the main lubrication area in the compressor. The shut-off valve stands by with the main supply line closed and then opens the main supply line by the pressure of the compressed air discharged from the compressor. The sub-supply line branches off from the main supply line to supply oil that has passed through the shut-off valve to the sub-lubrication area in the compressor. The differential pressure valve closes the sub supply line when the oil pressure at the outlet becomes higher than the combined pressure of the compressed air discharged from the compressor and the spring pressure while the sub supply line is open.

In a further aspect, the internal lubrication device of the rock drill compressor may further include an oil filter installed in the main supply line to receive oil discharged from the receiving tank, filter the oil, and discharge the oil to the shut-off valve.

In a further aspect, the internal lubricator of the rock drill compressor includes a check valve installed in a bypass line connected to the main supply line to bypass the oil filter to protect the main supply line, and a differential pressure sensor to check whether the oil filter is clogged. may further include.

In a further aspect, the internal lubrication device of the compressor for rock drill may further include an oil separator that separates oil from the compressed air discharged from the compressor, returns it to the receiving tank, and discharges the compressed air from which the oil has been removed. there is.

According to the present invention, the interior of the compressor can be effectively lubricated using the air pressure of the compressor in conjunction with the operation of the compressor.

Figure 1 is a configuration diagram of an internal lubrication device of a rock drill compressor according to an embodiment of the present invention.

The present invention will be described in detail with reference to the attached drawings as follows. Here, the same symbols are used for the same components, and repetitive descriptions and detailed descriptions of known functions and configurations that may unnecessarily obscure the gist of the present invention are omitted. Embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer explanation.

Figure 1 is a configuration diagram of an internal lubrication device of a rock drill compressor according to an embodiment of the present invention.

Referring to FIG. 1, the internal lubrication device 100 of a rock drill compressor according to the present invention is a device that is employed in a rock drill to lubricate the inside of the compressor 10 that compresses and discharges intake air, and includes a receiving tank 110. ) and a main supply line 120, a shut-off valve 130, a sub-supply line 150, and a differential pressure valve 160.

The receiving tank 110 stores oil for lubrication and discharges the oil by the pressure of compressed air discharged from the compressor 10 as the compressor 10 operates. The air inlet end of the receiving tank 110 may be connected to the air outlet end of the compressor 10 through an air discharge line 101.

The receiving tank 110 can receive compressed air discharged from the air outlet end of the compressor 10 through the air inlet end along the air delivery line 101. The receiving tank 110 may discharge the stored oil through the oil outlet end due to an increase in internal pressure due to the pressure of compressed air supplied inside.

The oil separator 116 may separate the oil content from the compressed air discharged from the compressor 10, return it to the receiving tank 110, and discharge the compressed air from which the oil content has been removed. The oil recovered in the receiving tank 110 is supplied and used again for internal lubrication of the compressor 10, and the compressed air from which the oil has been removed can be supplied and used to drive the hammer of the rock drill.

The oil separator 116 may be installed in the upper space of the receiving tank 110. The oil separator 116 may be configured to separate oil while passing compressed air while the oil separation filter is supported on a filter support in the receiving tank 110.

The main supply line 120 supplies oil discharged from the receiving tank 110 to the main lubrication area in the compressor 10. The main supply line 120 has an oil inlet end connected to the oil outlet end of the receiving tank 110 and an oil outlet end connected to the main lubrication part in the compressor 10.

The shut-off valve 130 stands by with the main supply line 120 closed and then opens the main supply line 120 by the pressure of the compressed air discharged from the compressor 10. The shut-off valve 130 may receive compressed air discharged from the compressor 10 along the air delivery line 101. The shut-off valve 130 may be configured to be operated by air pressure to open the opening degree of the valve housing while the valve body closes the opening degree of the valve housing by a spring.

When the compressor 10 starts operating, the compressed air discharged from the compressor 10 is supplied to the receiving tank 110, and the oil in the receiving tank 110 is pumped through the shut-off valve along the main supply line 120 by compressed air pressure. Move to (130).

At the same time, the compressed air discharged from the compressor 10 is supplied to the shut-off valve 130 and opens the shut-off valve 130 by compressed air pressure to open the main supply line 120. The oil that moves to the shut-off valve 130 may pass through the open main supply line 120 and be supplied to the main lubrication area in the compressor 10.

When the compressor 10 stops operating, the compressed air supplied to the shut-off valve 130 disappears and the shut-off valve 130 operates to close the main supply line 120, thereby closing the receiving tank 110. ) can block oil coming from the source. When the compressor 10 is restarted, if the main supply line 120 is filled with oil, it receives a corresponding load. The load can be reduced by blocking the oil in advance using the shut-off valve 130.

The sub supply line 150 branches off from the main supply line 120 to supply oil that has passed through the shut-off valve 130 to the sub lubrication area in the compressor 10. Here, the sub-lubricating area within the compressor 10 may correspond to internal parts vulnerable to high pressure. The sub-supply line 150 has its oil inlet end located at the oil outlet end of the shut-off valve 130 and is connected to the main supply line 120, and its oil outlet end is connected to the sub-lubrication part in the compressor 10. .

The differential pressure valve 160 opens the sub-supply line 150 when the oil pressure at the outlet becomes higher than the combined pressure of the compressed air discharged from the compressor 10 and the spring pressure while the sub-supply line 150 is open. Close it. The differential pressure valve 160 can receive compressed air discharged from the compressor 10 along the air delivery line 101.

The differential pressure valve 160 has an inlet end and an outlet end connected to the sub supply line 150 to pass or block oil. The differential pressure valve 160 may be configured to close the opening degree of the valve housing when the oil pressure at the outlet end becomes higher than the combined pressure of the compressed air pressure and the spring pressure while the valve body opens the opening degree of the valve housing by the spring. That is, the differential pressure valve 160 allows the oil pressure at the outlet end to be reduced to a desired pressure, and therefore operates in the same manner as the operating principle of a typical direct-acting pressure reducing valve.
The differential pressure valve 160 may adjust the oil pressure at the outlet end in proportion to the pressure of compressed air. Accordingly, the differential pressure valve 160 adjusts the pressure of the oil supplied to the sub-lubrication area in the compressor 10 according to the pressure of the compressed air generated by the compressor 10, thereby smoothly lubricating internal parts vulnerable to high pressure. You can.

In a further aspect, the internal lubrication device 100 of the rock drill compressor may further include an oil filter 140.

The oil filter 140 is installed in the main supply line 120 to receive oil discharged from the receiving tank 110, filter it, and discharge it to the shut-off valve 130. The oil filter 140 is connected to the main supply line 120 to pass oil flowing along the main supply line 120. The oil filter 140 filters foreign substances in the oil, allowing the oil with the foreign substances filtered out to be supplied to the main lubrication area in the compressor 10.

In a further aspect, the internal lubrication device 100 of the rock drill compressor may further include a check valve 170 and a differential pressure sensor 180.

The check valve 170 is installed in the bypass line 171 connected to the main supply line 120 to bypass the oil filter 140 and protects the main supply line 120. The bypass line 171 has one end disposed at the inlet end of the oil filter 140 and is connected to the main supply line 120, and the other end is disposed at the outlet end of the oil filter 140 to connect the main supply line 120. ) is connected to the

The check valve 170 may be configured so that the valve body maintains the opening degree of the valve housing closed by a spring. The check valve 170 opens the valve body when the inlet pressure of the oil filter 140 is higher than the sum of the outlet pressure and the spring pressure of the oil filter 140, so that oil flows through the oil filter (171) along the bypass line 171. 140) to flow by bypassing it. Accordingly, when a phenomenon such as clogging of the oil filter 140 occurs, the check valve 170 can protect the main supply line 120 by preventing overpressure.

The differential pressure sensor 180 is used to check whether the oil filter 140 is clogged. The differential pressure sensor 180 measures the pressure difference between the inlet and outlet ends of the oil filter 140. The differential pressure sensor 180 may be installed in the sensing line 181 connected to the main supply line 120 to bypass the oil filter 140. One end of the sensing line 181 is disposed at the inlet end of the oil filter 140 and is connected to the main supply line 120, and the other end is disposed at the outlet end of the oil filter 140 to connect to the main supply line 120. ) is connected to the

The differential pressure sensor 180 may detect that the oil filter 140 is clogged when the pressure difference between the inlet and outlet ends of the oil filter 140 exceeds a set value. Information measured from the differential pressure sensor 180 may be provided to a controller that controls the overall device. The controller recognizes whether the oil filter 140 is clogged based on information measured from the differential pressure sensor 180, and can warn the user with an alarm when the oil filter 140 is clogged.

An example of operation of the internal lubrication device 100 of the above-described rock drill compressor will be described as follows.

When the compressor 10 starts operating for the rock drill operation, the compressed air discharged from the compressor 10 is supplied to the receiving tank 110, and the oil in the receiving tank 110 is supplied to the main supply line 120 by air pressure. The discharged oil is filtered through the oil filter 140 along the main supply line 120 and moves to the shut-off valve 130.

At the same time, the compressed air discharged from the compressor 10 is supplied to the shut-off valve 130 and the differential pressure valve 160. The shut-off valve 130 opens by air pressure to open the main supply line 120. The oil that moves to the shut-off valve 130 may pass through the open main supply line 120 and be supplied to the main lubrication area in the compressor 10.

In addition, the differential pressure valve 160 remains open while the oil pressure at the outlet end is lower than the combined pressure of the compressed air discharged from the compressor 10 and the spring pressure, and the oil pressure at the outlet end is reduced from the compressor 10. When the combined pressure of the discharged compressed air and the spring pressure becomes higher, it closes, allowing the oil pressure at the outlet end to be adjusted according to the pressure of the compressed air. Oil moving to the differential pressure valve 160 may pass through the open sub supply line 150 and be supplied to the sub lubrication area in the compressor 10.

When the compressor 10 stops operating, the compressed air supplied to the shut-off valve 130, the receiving tank 110, and the differential pressure valve 160 disappears. The shut-off valve 130 is closed, thereby blocking oil flowing from the receiving tank 110. Additionally, oil discharge from the receiving tank 110 stops, and the differential pressure valve 160 returns to the open state.

Meanwhile, when a phenomenon such as clogging of the oil filter 140 occurs, the check valve 170 opens the bypass line 171 to allow oil to flow from the receiving tank 110 along the bypass line 171 to the oil filter 140. By bypassing, overpressure of the main supply line 120 can be prevented and protected.

The differential pressure sensor 180 measures the pressure difference between the inlet and outlet ends of the oil filter 140 and provides it to the controller, so that the controller sends an alarm, etc. when the oil filter 140 is clogged based on the information measured from the differential pressure sensor 180. You can warn the user.

In this way, the internal lubrication device 100 of the rock drill compressor according to this embodiment can effectively lubricate the inside of the compressor 10 using the air pressure of the compressor 10 in conjunction with the operation of the compressor 10. there is.

The present invention has been described with reference to an embodiment shown in the attached drawings, but this is merely illustrative, and those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. You will be able to. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

10..Compressor 110..Receive tank
120..main supply line 130..shutoff valve
140..Oil filter 150..Sub supply line
160..Differential pressure valve 170..Check valve
180..Differential pressure sensor

Claims (5)

It is a device used in rock drills to lubricate the inside of the compressor that compresses and discharges the intake air.
a receiving tank that stores oil for lubrication and discharges the oil by the pressure of compressed air discharged from the compressor as the compressor operates;
a main supply line that supplies the oil discharged from the receiving tank to the main lubrication part in the compressor;
a shut-off valve that stands by with the main supply line closed and then opens the main supply line by the pressure of compressed air discharged from the compressor;
a sub-supply line branched from the main supply line to supply oil that has passed through the shut-off valve to a sub-lubrication portion in the compressor; and
A differential pressure valve that closes the sub-supply line when the oil pressure at the outlet becomes higher than the combined pressure of the pressure of the compressed air discharged from the compressor and the spring pressure while the sub-supply line is open;
Internal lubrication device of a rock drill compressor including.
According to paragraph 1,
An internal lubricating device for a rock drill compressor further comprising an oil filter installed in the main supply line to receive oil discharged from the receiving tank, filter the oil, and discharge the oil to the shut-off valve.
According to paragraph 2,
The internal lubrication device of the compressor for a rock drill, further comprising a check valve installed in a bypass line connected to the main supply line to bypass the oil filter and protecting the main supply line.
According to paragraph 2,
An internal lubrication device for a compressor for a rock drill, further comprising a differential pressure sensor for checking whether the oil filter is clogged.
According to paragraph 1,
An internal lubrication device for a compressor for a rock drill, further comprising an oil separator for separating oil from the compressed air discharged from the compressor, returning it to the receiving tank, and discharging the compressed air from which the oil has been removed.

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