KR20100078100A - Apparatus for cleaning engine and feeding engine-oil - Google Patents

Abstract

PURPOSE: An apparatus for cleaning an engine and feeding engine oil is provided to consecutively perform an engine oil discharging and an injection process by changing a flow path using a first and second convert valve. CONSTITUTION: An apparatus for cleaning an engine and feeding engine oil comprises an engine oil tank(110), a connecting member(120), oil supply pipes, an oil circulation pipe, a first and a second switching valve, a cleaning filter, a first and a second compressed-air pipe. The connecting member has an oil supply flow path(121) and an oil recovery flow path(122). The oil supply pipe connects the outlet of the oil tank and the oil supply flow path of the connecting member. The oil circulation pipe is connected to the oil recovery flow path of the connecting member. The first switching valve is installed in the connection point of the oil supply pipe and oil circulation pipe. The first compressed-air pipe connects a compressed air source and oil tank. The second compressed-air pipe is connected to an oil supply pipe between the first switching valve and the oil tank. The second switching valve is installed in the connection point of the oil supply pipe and the second compressed-air pipe.

Description

Engine Cleaning and Engine Oil Filling Equipment {APPARATUS FOR CLEANING ENGINE AND FEEDING ENGINE-OIL}

The present invention relates to an engine cleaning and engine oil injection device, and more particularly, to an engine cleaning and engine oil injection device capable of performing the cleaning operation of the engine and the injection of the engine oil.

The engine oil is filled inside the engine of the internal combustion engine. Engine oil not only reduces the friction generated inside the engine, but also reduces the wear, cooling, lubricating and buffering, dustproof, and corrosion protection. These engine oils need to be periodically replaced because they are oxidized due to temperature increase during operation of the engine or are contaminated by metal powder generated inside the engine and dust introduced through the intake pipe, and thus the function thereof decreases with time.

When the engine oil is replaced, the oil discharge port provided in the oil pan of the lower part of the engine is opened to discharge the oil, and then new engine oil is injected into the engine with the oil discharge port closed. However, this method could not completely discharge the used oil, and waste oil, oil sludge, impurities, etc. remaining in the engine may promote contamination of newly injected oil, resulting in deterioration of engine performance.

Therefore, the engine used for a long time was cleaned to remove oil sludge and impurities remaining in the engine. The general cleaning operation is to discharge the engine oil by opening the oil outlet at the bottom of the engine after washing the sludge or impurities accumulated in the engine by operating the engine for a predetermined time while the cleaning liquid is added through the oil inlet before the engine oil is discharged. It was. Or by connecting an external cleaning device with a cleaning filter to the oil filter connection part of the engine to circulate the engine oil to perform the cleaning and filtering of impurities, etc., it was also a way to discharge the engine oil.

However, these methods have a problem that the engine oil containing the cleaning liquid remains inside the engine because it cannot be completely discharged even after the engine oil is discharged through the oil outlet after the cleaning operation. The cleaning liquid remaining in the engine could damage the bearings, packings, etc. of the engine.

After cleaning, new engine oil is injected into the engine using a separate oil filling equipment. However, the method of cleaning the engine and injecting the engine oil has a problem of low work efficiency because oil must be injected using a separate equipment after the cleaning operation.

SUMMARY OF THE INVENTION The present invention has been made to solve these problems, and an object of the present invention is to provide an engine cleaning and engine oil injecting apparatus which allows the engine oil inside the engine including the cleaning solution to be almost completely discharged after the cleaning operation.

Another object of the present invention is to provide an engine cleaning and engine oil injecting apparatus which can perform the cleaning operation of the engine, the engine oil discharge operation, the engine oil injection operation successively.

Still another object of the present invention is to provide an engine cleaning and engine oil injection device that can selectively perform an engine cleaning operation and an engine oil injection operation as necessary.

Still another object of the present invention is to provide an engine cleaning and engine oil injecting apparatus which can selectively perform cleaning and oil injection operations of gasoline and diesel engines.

Engine cleaning and engine oil injection device according to the present invention for achieving the above object is coupled to the oil tank for storing the engine oil, the oil filter mounting portion of the engine and having an oil supply flow path and oil recovery flow path, An oil supply pipe connecting the outlet of the oil tank and the oil supply flow path of the connection member, an oil circulation pipe branched from the oil supply pipe and connected to the oil return flow path of the connection member, and the connection between the oil circulation pipe and the oil supply pipe. A first switching valve installed at the point, a cleaning filter installed at the oil circulation pipe or the oil supply pipe downstream of the first switching valve, a first compressed air engine connecting the compressed air supply source and the oil tank, and the first A second compressed air engine branched from a compressed air engine and connected to the oil supply pipe between the oil tank and the first switching valve, and the second pressure And a second switching valve disposed in a connection point on the air pipe and the oil supply pipe.

The engine cleaning and engine oil injection device is installed adjacent to the transparent liquid pipe and the transparent liquid pipe installed outside the oil tank so that an upper portion communicates with an upper inside of the oil tank and a lower portion communicates with a lower inside of the oil tank. The scale plate may further include an oil injection amount setting member installed to ascend and descend the scale plate.

The engine cleaning and engine oil injection device may further include an air pressure regulating device for adjusting a pressure of air supplied to the first compression air engine, and a pressure gauge installed in the first compression air pipe downstream of the air pressure adjusting device.

The engine cleaning and engine oil injection device further comprises a main body for supporting the oil tank, the main body is an upper support member for supporting the upper portion of the oil tank, a lower support member for supporting the lower portion of the oil tank, It may include a plurality of struts connecting the upper support member and the lower support member.

The oil tank may have a cylindrical shape and include an inlet provided at an upper portion and an outlet provided at a lower portion thereof.

A plurality of moving wheels may be installed on the lower support member.

The first switching valve, the second switching valve, and the cleaning filter may be mounted to the upper support member.

In addition, the engine cleaning and engine oil injection device according to the present invention includes a main body, equipment for gasoline and diesel equipment provided on both sides of the main body for cleaning and oil injection of gasoline engine and diesel engine, the equipment for the gasoline And the diesel equipment includes an oil tank for storing engine oil, a connecting member coupled to an oil filter mounting part of the engine and having an oil supply flow path and an oil return flow path, an outlet of the oil tank and an oil supply flow path of the connection member. An oil supply pipe to be connected, an oil circulation pipe branched from the oil supply pipe and connected to an oil return flow path of the connection member, a first switching valve installed at a connection point between the oil circulation pipe and the oil supply pipe, and the oil circulation pipe. Or a cleaning filter installed in the oil supply pipe downstream of the first switching valve, a first compression air pipe connected to the oil tank, and the first filter. And a second compressed air engine branched from the axial air engine and connected to the oil supply pipe between the oil tank and the second switch valve, and a second switch valve installed at a connection point between the second compressed air engine and the oil supply pipe. And a third compressed air engine for connecting the first compressed air engine for gasoline and the first compressed air engine for diesel with a compressed air supply source, and a connection point between the third compressed air engine and the first compressed air engine for gasoline and diesel. Air flow path switching valves are included.

Since the engine cleaning and engine oil injection device according to the present invention can inject compressed air into the engine after the engine cleaning operation and forcibly discharge the engine oil, the engine oil inside the engine including the cleaning liquid can be discharged almost completely. It works.

In addition, since the flow path can be changed through the flow path switching operation of the first and second switching valves, the present invention can perform the engine cleaning operation, the engine oil discharge operation, and the engine oil injection operation without changing the apparatus. Therefore, the efficiency of service work can be improved. In addition, there is an effect that can selectively perform the engine cleaning operation, the engine oil discharge operation, the engine oil injection operation as needed.

In addition, the present invention has an effect that can selectively perform the cleaning and oil injection operations of the gasoline engine and the diesel engine because the equipment for the gasoline engine and the diesel engine for the service of the diesel engine for the service of the gasoline engine.

In addition, since the present invention can measure the amount of engine oil injected through the setting of the oil amount setting member when the engine oil is injected, the engine oil can be easily injected, and the amount of engine oil can be accurately injected. Can be.

Hereinafter, with reference to the accompanying drawings a preferred embodiment according to the present invention will be described in detail.

1 is a perspective view of an engine cleaning and engine oil injection device according to a first embodiment of the present invention, FIG. 2 is a rear view of the apparatus shown in FIG. 1, and FIG. 3 is a configuration diagram of the apparatus shown in FIG. 1. .

Engine cleaning and engine oil injection device according to a first embodiment of the present invention, as shown in Figures 1 to 3, the gasoline equipment for cleaning and oil injection of the gasoline engine 100, and the diesel engine and Diesel equipment 200 for oil injection, which is provided on each side of the body 10 to form a set. This allows the operator to perform services for gasoline engines and diesel engines with just one set.

As shown in FIGS. 1 and 2, the main body 10 includes an upper support member 11 and a lower support member 12, and an upper support member 11 and a lower support member 12 spaced apart from each other. It includes a plurality of struts 13 to connect. The upper support member 11 and the lower support member 12 are provided in the form of a rectangular panel, and the struts 13 connect the corner portions of the upper support member 11 and the lower support member 12. A plurality of moving wheels 14 are installed at the lower portion of the lower support member 12 so as to easily move the main body 10, and handles 15 are provided at both sides of the upper support member 11, respectively.

As shown in FIG. 3, the gasoline equipment 100 includes an oil tank 110 storing new engine oil, a connecting member 120 coupled to an oil filter mounting portion 21 of the engine 20, and an oil tank ( Oil supply pipes (131, 132, 133) connecting the oil supply passage 121 of the 110 and the connection member 120, the oil circulation pipe 134 branched from the oil supply pipe connected to the oil return passage 122 of the connection member 120 A first switching valve 141 is installed at the connection point between the oil circulation pipe 134 and the oil supply pipe 133, and a cleaning filter 142 installed in the oil circulation pipe 134.

The gasoline equipment 100 is branched from the first compressed air engine 135 and the first compressed air engine 135 connecting the compressed air supply 40 and the oil tank 110 to the oil tank 110 and the first switch. And a second compressed air pipe 136 connected to the oil supply pipes 131 and 132 between the valves 141, and a second switching valve 143 installed at a connection point between the second compressed air pipe 136 and the oil supply pipes 131 and 132. .

The oil tank 110 for gasoline has a cylindrical shape and includes an upper inlet 111 and a lower outlet 112. And the engine oil for the gasoline engine is filled inside. The oil tank 110 is supported by the upper support member 11 of the main body 10, the lower portion is supported by the lower support member 12 of the main body 10. The upper portion of the oil tank 110 is installed to penetrate the upper support member 11 so that the inlet 111 is exposed on the upper support member 11, and there is a stopper 113 that can open and close the inlet 111. ) Is installed. The inlet 111 of the oil tank 110 is provided with a screen 114 that can filter foreign matter when the engine tank is filled in the oil tank 110.

The outlet 112 under the oil tank 110 is connected to the oil supply pipe 131, and the first compression air pipe 135 is connected to the upper side of the oil tank 110 so as to communicate with the inside. This is to supply the compressed air into the upper side of the oil tank 110 so that the engine oil inside the oil tank 110 can be injected into the engine 20 through the oil supply pipe (131, 132, 133). A pressure gauge 144 is installed in the first compression air pipe 135 to allow a user to check the pressure of the air supplied to the oil tank 110.

On the outside of the oil tank 110, a transparent liquid pipe 115 is installed so that the upper portion communicates with the upper inside of the oil tank 110 and the lower portion communicates with the lower inside of the oil tank 110, and is adjacent to the transparent liquid pipe 115. The scale plate 150 is installed. In addition, the scale plate 150 is provided with an oil injection amount setting member 116 which is in the form of a needle indicating a scale and is moved up and down along the scale plate 150. The user can visually check the amount of oil inside the oil tank 110, and by setting the amount of oil to be injected by moving the setting member 116 up and down, it is possible to estimate the amount of oil injected when the engine oil is injected. I would have to.

The coupling member 120 may be manufactured in the same manner as the coupling portion of the oil filter 22 so that the coupling unit 120 may be separated from the oil filter 22 of the engine 20 and then coupled to the oil filter mounting portion 21. . In addition, since the size of the oil filter mounting portion 21 may vary according to the type of the engine 20, the connection member 120 may be manufactured in various forms correspondingly. An end portion of the oil supply pipe 133 and the oil circulating pipe 134 coupled with the connection member 120 may be provided with a socket-type connection member for easily mounting or detaching the connection member 120.

The first switch valve 141 and the second switch valve 142 may be formed of a 3-way valve that can change the flow path by a user's manual operation. Therefore, the first switching valve 141 may allow the oil supply pipe 133 downstream thereof to communicate with any one of the oil supply pipe 132 and the oil circulation pipe 134 upstream thereof. When the oil circulation pipe 134 and the oil supply pipe 133 downstream of the first switching valve 141 communicate with each other by the operation of the first switching valve 141, as shown in FIG. 3, the oil of the engine 20 The engine oil inside the engine is circulated through the oil circulation pipe 134 and the oil supply pipe 133 by a pump (not shown) operation.

The second switching valve 143 may also allow the downstream oil supply pipe 132 to communicate with any one of the upstream oil supply pipe 131 and the second compressed air engine 136. When the oil supply pipes 131 and 132 upstream and downstream of the second switching valve 143 communicate with each other, the oil of the oil tank 110 may be injected into the engine 20, and the second compression air pipe 136 may be connected to the second switching valve. (143) When communicating with the downstream oil supply pipe 132, compressed air may be injected toward the engine 20.

As shown in FIG. 3, the cleaning filter 142 is installed in the oil circulation tube 134 so as to filter out foreign substances when circulating oil in the engine for cleaning of the engine 20. Although not shown in detail in the drawing, the cleaning filter 142 has a built-in large-capacity filtration member that can be replaced after the cleaning operation. Since the oil filter 22 mounted on the engine 20 has a small capacity, the oil filter 22 bypasses a considerable amount of oil circulating in the engine 20, whereas the cleaning filter 142 is an engine oil flowing through the oil circulation pipe 134. All of them pass through the inner filtration member. 3 illustrates the case where the cleaning filter 142 is installed in the oil circulation pipe 134, the cleaning filter 142 may be installed in the oil supply pipe 133 downstream of the first switching valve 141.

The equipment 200 for diesel is also configured substantially the same as the equipment 100 for gasoline mentioned above. That is, the diesel equipment 200 also includes an oil tank 210, a connecting member 220, an oil supply pipe 231, 232, 233, an oil circulation pipe 234, a first switching valve 241, a cleaning filter 242, and a second switching. A valve 243, a first compression air pipe 235, a second compression air pipe 236, a pressure gauge 244, a transparent liquid pipe 215, and an oil injection amount setting member 216 are provided.

In addition, as shown in FIG. 3, the third embodiment includes a third compressed air engine 300 connecting the first compressed air engine 135 for gasoline and the first compressed air engine 235 for diesel with the compressed air supply 40. And, an air flow path switching valve 310 installed at a point where the third compression air pipe 300 and the first compression air pipes 135 and 235 for gasoline and diesel are connected, and an air pressure regulating device installed in the third compression air pipe 300. 320 is provided.

The air flow path switching valve 310 may switch the flow path to supply the compressed air supplied through the third compression air pipe 300 to the first compression air pipe 135 for gasoline or to the first compression air pipe 235 for diesel. Can be. This is to allow compressed air to be supplied toward the gasoline equipment 100 when servicing the gasoline engine 20, and to provide compressed air to the diesel equipment 200 when servicing the diesel engine 30.

The third compressed air engine 300 has a connection port 330 at its end to connect or disconnect the air pipe 41 extending from the compressed air supply source 40. This connection port 330 is coupled to the upper support member 11 of the main body 10, as shown in FIG. The compressed air source 40 may be a mobile air compressor.

1 and 2, the air flow path switching valve 310, the first switching valve (141, 241), the second switching valve (143, 243), the cleaning filter (142, 242), the pressure gauge ( 144 and 244, the air pressure regulating device 320 is mounted to the upper support member 11 of the main body 10 to facilitate the user operation.

The engine cleaning and engine oil injecting device includes an air flow path switching valve 310, first switching valves 141 and 241, second switching valves 143 and 243, and a flow path switching operation to operate the gasoline engine 20 and the diesel engine 30. Engine cleaning, engine oil draining and engine oil filling can optionally be performed. Hereinafter, a description will be given of the operation and usage of the device for these operations by taking the case of serving the gasoline engine 20 as an example.

[Engine cleaning work]

When cleaning the gasoline engine 20, as shown in FIG. 3, the oil inlet 23 of the upper part of the engine 20 is opened and the cleaning liquid is injected without discharging the engine oil inside the engine 20. . In addition, after removing the oil filter 22 of the engine 20, the coupling member 120 is mounted on the oil filter mounting part 21 of the engine, and then the first switching valve 141 is switched to the cleaning mode so that the oil circulation pipe ( 134 and the oil supply pipe 133 downstream of the first switching valve 141 communicate with each other.

When the engine 20 is operated in this state, the oil inside the engine 20 circulates through the cleaning filter 142 by an oil pump (not shown) operation inside the engine. At this time, the inside of the engine 20 is washed by the action of the cleaning liquid, and impurities included in the engine oil are filtered while passing through the cleaning filter 142. The cleaning operation maintains this state for a predetermined time. After the cleaning is finished, a discharge operation for forcibly discharging the engine oil inside the engine 20 is performed.

[Engine oil discharge operation]

After the cleaning operation, as shown in FIG. 4, the oil discharge port 24 under the engine 20 is opened to discharge the engine oil. At the same time, the air flow path switching valve 310 is operated to allow the compressed air to flow into the first compressed air engine 135 for gasoline from the compressed air source 40, and the first switching valve 141 and the second switching valve 143. ) To the oil filling mode. In this case, the oil supply pipes (131, 132, 133) are communicated from the oil tank 110 to the connecting member 120, and compressed air is injected into the oil tank 110, so that the new engine oil inside the oil tank 110 is a predetermined amount of engine ( 20). Therefore, the waste engine oil inside the engine 20 is discharged to the oil outlet 24 while being diluted by the newly injected engine oil, thereby improving the cleaning effect of the engine 20.

After injecting new engine oil for a predetermined time, as shown in FIG. 5, the second switching valve 143 is switched to the air injection mode. In this way, the injection of new engine oil to the engine 20 is blocked, and the compressed air of the first compressed air engine 135 is supplied with the oil supply pipe 132 downstream from the second compressed air engine 136 and the second switching valve 143. It is injected into the engine 20 through the). Therefore, the remaining engine oil inside the engine 20 is forcibly discharged to the oil outlet 24 by the compressed air injected.

When the engine oil is discharged by injecting the compressed air as described above, since the remaining engine oil inside the engine including the cleaning liquid can be almost completely discharged, damage to the engine 20 that may occur due to the cleaning liquid can be minimized. .

[Engine oil injection work]

Injection of the new engine oil is performed after completing the above-described engine oil discharge operation. When injecting the engine oil, as shown in FIG. 6, first, the amount of remaining engine oil in the oil tank 110 is checked through the transparent liquid pipe 115, and when insufficient, the engine oil is replenished in the oil tank 110. Then, the amount of engine oil to be injected is set by moving the oil injection amount setting member 116. In this state, the air flow path switching valve 310 is operated to allow the compressed air to flow into the first compressed air engine 135 for gasoline from the compressed air supply source 40, and the first switching valve 141 and the second switching valve. Switch (143) to oil injection mode.

In this case, the oil supply pipes 131, 132, and 133 communicate with each other from the oil tank 110 to the connection member 120, and compressed air is injected into the oil tank 110, so that a new engine oil inside the oil tank 110 is provided. Is injected into the engine. When the engine oil is injected, the user looks at the transparent liquid pipe 115 to allow the engine oil of the oil tank 110 to be injected to the position of the oil injection amount setting member 116, and then finishes the injection of the engine oil. Then, the connection member 120 is separated from the engine 20, and a new oil filter is mounted on the oil filter mounting part 21 of the engine 20.

As described above, since the present invention can perform the engine cleaning operation, the engine oil discharge operation, and the engine oil injection operation in succession through one device, the operations from the cleaning of the engine to the injection operation of the engine oil can be performed quickly. Can be. Here, the case of performing these operations in succession has been described, but the present invention may selectively perform these operations through the operation of the first and second switching valve.

In the case of the diesel engine 30 can be serviced in the same manner as above using the equipment for diesel (200). Of course, in this case, the air flow path switching valve 310 is operated in a diesel mode so that the compressed air supplied from the third compression air engine 300 is supplied to the first compression air engine 235 for diesel.

Figure 7 shows an example of using the device according to the invention in a different way for the injection of engine oil. As shown in FIG. 7, the oil is injected in a state in which a separate oil injection connecting member 160 connected to the oil supply pipe 133 is connected to the oil inlet 23 of the engine 20. This operation may be performed in the same manner in the gasoline equipment 100 and the diesel equipment 200.

8 shows an engine cleaning and engine oil injection device according to a second embodiment of the present invention, in which the oil tank 410 is one. In this case, the air pressure regulating device 420 may be installed in the first compression air pipe 435 and the system may be configured in a state in which the air flow path switching valve 320 mentioned in the first embodiment is excluded. The other configuration is substantially the same as the equipment for gasoline of the first embodiment. In the second embodiment, since the oil tank 410 and the cleaning filter 442 are one, it is preferable to use the gasoline engine or the diesel engine only.

1 is a perspective view of an engine cleaning and engine oil injection device according to a first embodiment of the present invention.

FIG. 2 is a rear view of the apparatus shown in FIG. 1. FIG.

FIG. 3 is a diagram showing the configuration of the apparatus shown in FIG. 1, illustrating an engine cleaning operation.

FIG. 4 is a configuration diagram of the apparatus shown in FIG. 1 and illustrates an operation of injecting a predetermined amount of new engine oil for cleaning the inside of the engine after the engine cleaning operation.

FIG. 5 is a configuration diagram of the apparatus shown in FIG. 1 and illustrates an operation of discharging engine oil of an engine.

FIG. 6 is a diagram illustrating the configuration of the apparatus shown in FIG. 1, in which a new engine oil is injected into an engine.

FIG. 7 is a configuration diagram of the apparatus shown in FIG. 1 and shows another example of use.

8 is a block diagram of an engine cleaning and engine oil injection device according to a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: main body, 11: upper support member,

12: lower support, 13: prop,

100: gasoline equipment, 110: oil tank,

115: transparent liquid pipe, 116: oil injection amount setting member,

120: connecting member, 131,132,133: oil supply pipe,

134: oil circulation pipe, 135: first compressed air pipe,

136: second compressed air engine, 141: first switching valve,

142: cleaning filter, 143: second switching valve,

300: third compressed air engine, 310: air flow path switching valve.

Claims (14)

An oil tank for storing engine oil, a connecting member coupled to an oil filter mounting part of the engine, the oil supply passage and an oil return passage, an oil supply pipe connecting the outlet of the oil tank and the oil supply passage of the connecting member; An oil circulation pipe branched from the oil supply pipe and connected to an oil return passage of the connection member, a first switching valve installed at a connection point between the oil circulation pipe and the oil supply pipe, and the oil circulation pipe or the first switching valve. A cleaning filter installed in the oil supply pipe on the downstream side, a first compressed air pipe connecting the compressed air supply source and the oil tank, and the oil supply pipe branched from the first compressed air pipe between the oil tank and the first switching valve. An engine including a second compression air pipe connected to the second compression valve and a second switching valve installed at a connection point between the second compression air pipe and the oil supply pipe. Definitions and engine oil injection device. The method of claim 1, The transparent liquid pipe provided on the outside of the oil tank so that an upper portion communicates with an upper inside of the oil tank and a lower portion communicates with a lower inside of the oil tank, a scale plate installed adjacent to the transparent liquid tube, and installed to move up and down on the scale plate. Engine cleaning and engine oil injection device further comprising an oil injection amount setting member. The method of claim 1, And an air pressure regulating device for adjusting the pressure of the air supplied to the first compression air engine, and a pressure gauge installed in the first compression air engine downstream of the air pressure adjusting device. The method according to any one of claims 1 to 3, Further comprising a body for supporting the oil tank, The main body includes an upper support member for supporting an upper portion of the oil tank, a lower support member for supporting a lower portion of the oil tank, and a plurality of struts for connecting the upper support member and the lower support member. Engine oil injection device. The method of claim 4, wherein The oil tank has a cylindrical shape and the engine cleaning and engine oil injection device comprising an inlet provided in the upper portion and the outlet provided in the lower portion. The method of claim 4, wherein The lower support member is an engine cleaning and engine oil injection device, characterized in that a plurality of moving wheels are installed. The method of claim 4, wherein And the first switch valve, the second switch valve, and the cleaning filter are mounted to the upper support member. It includes a main body, gasoline equipment and diesel equipment provided on both sides of the main body for cleaning and oil injection of the gasoline engine and diesel engine,  The gasoline equipment and the diesel equipment are connected to an oil tank for storing engine oil, a coupling member coupled to an oil filter mounting part of the engine and having an oil supply passage and an oil recovery passage, and an outlet of the oil tank and the connection member. An oil supply pipe connecting an oil supply flow path, an oil circulation pipe branched from the oil supply pipe and connected to an oil return flow path of the connection member, a first switching valve installed at a connection point between the oil circulation pipe and the oil supply pipe; The oil filter pipe installed in the oil supply pipe downstream of the oil circulation pipe or the first switch valve, the first compression air pipe connected to the oil tank, and the first compression air pipe branched from the oil tank and the first switch valve. A second compression ball pipe connected to the oil supply pipe between the second conversion valve installed at a connection point between the second compression air pipe and the oil supply pipe; Each of which includes A third compressed air engine connecting the first compressed air engine for gasoline and the first compressed air engine for diesel with a compressed air supply source, and air installed at a connection point between the third compressed air engine and the first compressed air engine for gasoline and diesel Engine cleaning and engine oil injection device including a flow path switching valve. The method of claim 8, Longitudinally installed up and down outside the gasoline oil tank and the diesel oil tank, respectively, and the upper and lower transparent liquid tubes communicating with the inside of each oil tank, and the graduation plate installed between them so as to be adjacent to the two transparent liquid tubes; And two oil injection amount setting members installed on both sides of the scale plate so as to be lifted and lowered, respectively. The method of claim 8, And an air pressure regulating device installed in the third compression air engine, and a pressure gauge respectively installed in the two first compression air engines. The method according to any one of claims 8 to 10, Further comprising a body for supporting the gasoline oil tank and the diesel oil tank, The main body includes an upper support member for supporting the upper portions of the two oil tanks, a lower support member for supporting the lower portions of the two oil tanks, and an engine including a plurality of struts connecting the upper support member and the lower support member. Cleaning and engine oil injection device. The method of claim 11, Each of the oil tanks are cylindrical and includes an inlet provided in the upper portion and an outlet provided in the lower portion of the engine cleaning and engine oil injection device. The method of claim 11, The lower support member is an engine cleaning and engine oil injection device, characterized in that a plurality of moving wheels are installed. The method of claim 11, And the first switch valve, the second switch valve, and the cleaning filter are mounted to the upper support member.

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