KR101364760B1 - system for supplying grease of multi-function excavator - Google Patents

Abstract

The present invention relates to a grease supply system of an excavator having a complex function, and more particularly, to control the operation of the grease pump according to attachments attached to each function, so that an appropriate amount of grease is supplied to each attachment. A grease supply system for an excavator having a function.
The present invention provides a grease pump for supplying grease; Driving means for driving the grease pump; A supply pipe communicating with the grease pump and configured to supply grease; A check valve installed in the supply pipe to prevent grease from flowing back to the grease pump; A main function supply pipe, an auxiliary function supply pipe, and a manual function supply pipe branched at an end of the supply pipe; A recovery pipe provided to be in communication with the supply pipe so that grease is recovered to the grease pump; A relief valve provided to open when the pressure of the recovery pipe rises to a predetermined or higher pressure; And a control unit configured to control the driving means in a separate mode according to the main function supply pipe, the auxiliary function supply pipe, and the manual function supply pipe to which the grease is supplied by being branched from the supply pipe. Provide a supply system.

Description

System for supplying grease of multi-function excavator

The present invention relates to a grease supply system of an excavator having a complex function, and more particularly, to control the operation of the grease pump according to attachments attached to each function, so that an appropriate amount of grease is supplied to each attachment. A grease supply system for an excavator having a function.

In general, an excavator is a construction machine that installs a bucket at the tip of the arm, and rotates the arm and the bucket to dig or digging soil.

The excavator is installed with a hydraulic line for the rotation of the arm and the bucket, and grease is supplied to the rotating part subjected to a large load to prevent wear and smooth operation. The grease is a highly viscous lubricating oil. Particularly, when grease is loaded by friction, the grease refers to a lubricating oil which becomes liquid and loses fluidity when stopped.

On the other hand, the operator injects the grease gun directly into the required place while holding the grease gun for grease feeding.

However, because the operator injects grease into each part by experience, not only can not inject grease in the right place, but also has a problem inconvenient because the operator has to inject directly to the necessary place.

In order to solve this problem, a remote grease injection apparatus has been developed, and an example thereof is disclosed in Japanese Patent Laid-Open Publication No. 2005-98817 (hereinafter referred to as 'prior art 1').

1 is a view showing a conventional remote grease injection apparatus disclosed in the prior art document 1.

As shown in FIG. 1, in the conventional remote grease injection device, when the engine 102 rotates, compressed air is generated in the compressor 104 interlocked with the engine 102, and the compressed air is stored in the air tank 106. The compressed air stored in the air tank 106 is sent to the grease pump 108 to pressurize the high pressure grease to the solenoid valve 110. When the driver presses a remote controller (not shown) to operate the solenoid valve 110 in such a standby state, the corresponding valve of the solenoid valve 110 is opened and closed, and thus high pressure grease is transmitted to each working part through the pipeline 112. do.

However, although the conventional remote grease injection apparatus disclosed in the above-mentioned prior art document 1 aims at the driver's convenience, grease cannot be supplied in a timely manner since the determination of the timing of supply of the grease depends solely on the driver's experience.

In addition, the current excavator is equipped with attachments such as a breaker that replaces the bucket to the front end to perform a variety of tasks, such as drilling the rock in addition to the excavator's own work to dig or digging soil.

However, when the attachment is applied to the supply system, grease is supplied in a uniform amount, so there is a problem in that grease is insufficient and friction heat is generated or grease overflows to pollute the surrounding environment.

1. Patent Publication No. 2005-98817 (October 12, 2005 publication)

The present invention has been made to solve the above problems, the grease supply of the excavator having a compound function to supply a fixed amount of grease according to the type of attachment connected by selectively supplying grease to the excavator and the compound attachment The purpose is to provide a system.

In addition, the present invention has a complex function to be able to supply the grease to the excavator and the complex attachment separately, if necessary by installing the main function supply pipe for supplying grease to the excavator and the auxiliary function supply pipe for supplying grease to the complex attachment, respectively. The purpose is to provide a grease supply system for excavators.

In addition, the present invention can be equipped with a grease gun on the downstream end of the auxiliary function supply pipe, so that the grease supply system of the excavator having a compound function that can easily supply the grease manually to the required place when the compound attachment is not installed The purpose is to provide.

In addition, an object of the present invention is to provide a grease supply system of an excavator having a combined function that the recovery pipe is in communication with the lower portion of the pressing plate to prevent contamination of grease generated in the process of recovering grease. have.

In addition, an object of the present invention is to provide a grease supply system of an excavator having a combined function to reduce the installation space by having the recovery pipe is in communication with the lower portion of the pressing plate through the inner peripheral surface of the cylinder.

In addition, the present invention controls the operation of the grease distribution unit so that the grease can be supplied to the excavator and the composite attachment separately, so that the excavator supply system of the excavator having a complex function provided to independently lubricate the excavator and the composite attachment, respectively. The purpose is to provide.

In addition, the present invention is installed in the relief valve is provided with a projection pin when opening the relief valve is exposed to the outside, so that the operator knows that the lubrication system is overloaded, so that the safety accident due to this complex is provided in advance It is an object to provide a grease supply system for an excavator that has a function.

In addition, the present invention is to provide a grease supply system of an excavator having a multiple function to improve the response speed of the lubrication system because the check valve is provided with a hollow pin to form a backflow prevention circuit without loss of cross-sectional area There is a purpose.

In addition, an object of the present invention is to provide a grease supply system of an excavator having a complex function to install the sensing means to determine the amount of grease remaining in the tank.

In addition, the present invention has a telescopic depth measuring instrument that extends in multiple stages as a sensing means, so it is an object to provide a grease supply system of an excavator having a complex function that is easy to carry the sensing means.

The present invention provides a grease pump for supplying grease; Driving means for driving the grease pump; A supply pipe through which grease is discharged from the grease pump; A check valve installed in the supply pipe to prevent grease from flowing back to the grease pump; A grease distribution part installed at a downstream end of the supply pipe to selectively supply grease to the excavator and the composite attachment; A recovery pipe installed between the supply pipe and the grease pump to recover the grease with the grease pump; A relief valve installed in the recovery pipe; And a control unit for controlling the operation of the grease distribution unit; provides a grease supply system of an excavator having a complex function.

The grease distribution unit may include a main function supply pipe installed to supply grease to the excavator, an auxiliary function supply pipe installed to supply grease to the multifunction attachment, and a grease to the main function supply pipe and the auxiliary function supply pipe. It is preferable that the three-way valve to be supplied to.

In addition, the auxiliary function supply pipe is preferably equipped with a fixed amount supply valve for supplying a predetermined amount of grease.

In addition, the downstream end of the auxiliary function supply pipe is preferably provided to mount the grease gun.

The grease pump may include a tank in which grease is accommodated, a press plate sliding along the inside of the tank, and an inlet formed at a lower portion thereof so that grease under the press plate may be introduced therein so that grease introduced from the inlet may be discharged. A stop is formed in the upper portion and the cylinder is formed in the upper portion of the inlet, and is provided for lifting up and down along the inner circumferential surface of the cylinder, the flow path is formed so that grease flows therein and is restrained upward by the block Wave is formed of a piston, the drive means is preferably provided to raise and lower the piston of the grease pump.

In addition, the recovery pipe is preferably provided so that the lower end is in communication with the lower portion of the pressing plate.

In addition, the recovery pipe is preferably provided to communicate with the lower plate through the inner peripheral surface of the cylinder.

In addition, the control unit is preferably controlled to the operation of the grease distribution unit so that the grease can be supplied to the excavator and the complex attachment, respectively.

In addition, the relief valve is preferably formed with a protruding pin that is exposed to the outside when opened.

In addition, the check valve is in communication with the grease pump inlet and grease is introduced, and the discharge portion and the inlet portion is in communication with the end side of the supply pipe and the discharge portion and the inlet portion between the inlet and outlet portion is greater than It consists of a large diameter portion having a diameter, a ball formed on the inlet side of the large diameter portion, and a hollow pin formed on the outlet side of the large diameter portion, and the grease flows back from the outlet side to the inlet side by the pressure difference between the inlet and outlet. It is preferable that it is provided so that it may prevent.

In addition, the tank is preferably provided with a sensing means for detecting the amount of grease remaining in the tank.

Preferably, the sensing means is a telescopic depth measuring instrument that is extended in multiple stages.

As described above, the grease supply system of an excavator having a compound function according to the present invention may supply grease in a quantity according to the type of attachments connected by selectively supplying grease to the excavator and the compound attachment.

In addition, the grease supply system of an excavator having a compound function according to the present invention is installed separately from the excavator and the compound attachment as necessary by installing a main function supply pipe for supplying grease to the excavator and an auxiliary function supply pipe for supplying grease to the complex attachment, respectively. Grease can be supplied by

In addition, since the grease supply system of the excavator having a compound function according to the present invention can be equipped with a grease gun at the downstream end of the auxiliary function supply pipe, grease can be easily supplied manually to a required place when the compound attachment is not installed. .

In addition, the grease supply system of the excavator having a complex function according to the present invention is provided with a recovery pipe to communicate with the lower portion of the pressing plate can prevent the contamination of grease generated in the process of recovering grease in advance.

In addition, the grease supply system of the excavator having a complex function according to the present invention is provided so that the recovery pipe is in communication with the lower portion of the pressing plate through the inner peripheral surface of the cylinder can reduce the installation space.

In addition, the grease supply system of the excavator having a compound function according to the present invention, since the control unit controls the operation of the grease distribution unit so that the grease can be supplied to the excavator and the complex attachment, respectively, the excavator and the complex attachment are independently lubricated. can do.

In addition, the grease supply system of the excavator having a composite function according to the present invention is installed by the relief pin in the relief valve, the relief pin is exposed to the outside when the relief valve is opened, so the operator can know that the lubrication system is overloaded, resulting in safety The accident can be prevented in advance.

In addition, the grease supply system of the excavator having a complex function according to the present invention can be configured to check flow is provided with a hollow pin inside the backflow prevention circuit without loss of cross-sectional area can improve the response speed of the lubrication system.

In addition, the grease supply system of the excavator having a complex function according to the present invention can be installed to detect the amount of grease remaining in the tank.

In addition, since the grease supply system of the excavator having a complex function according to the present invention has a telescopic depth measuring instrument that is extended in multiple stages as a sensing means, it is easy to carry the sensing means because it is normally folded.

1 is a view showing a conventional remote grease injection apparatus disclosed in the prior art document 1.
2 is a block diagram showing a grease supply system of an excavator having a combined function according to an embodiment of the present invention.
3 is a cross-sectional view showing a state where a piston of a grease supply system according to an embodiment of the present invention is located at a bottom dead center.
4 is a cross-sectional view showing a state where the piston of the grease supply system according to an embodiment of the present invention is located at the top dead center.
5A is a cross-sectional view illustrating a state in which grease flows through a check valve of a grease supply system according to an exemplary embodiment of the present invention.
5B is a cross-sectional view illustrating a state in which a check valve of a grease supply system blocks grease according to an embodiment of the present invention.
Figure 6a is a cross-sectional view showing when the relief valve of the grease supply system according to an embodiment of the present invention.
6B is a cross-sectional view illustrating a relief valve of the grease supply system according to an embodiment of the present invention when it is opened.
7 is a cross-sectional view showing a telescopic depth measurement sphere of a grease supply system according to an embodiment of the present invention.

Hereinafter, an embodiment of a grease supply system of an excavator having a multiple function according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram showing a grease supply system of an excavator having a compound function according to an embodiment of the present invention, Figure 3 shows a state in which the piston of the grease supply system according to an embodiment of the present invention is located at the bottom dead center. 4 is a cross-sectional view showing a state where a piston of a grease supply system according to an embodiment of the present invention is located at a top dead center.

2 to 4, a grease supply system of an excavator having a combined function according to an embodiment of the present invention includes a grease pump 10 for supplying grease and a driving means for driving the grease pump 10. And a supply pipe 20 for supplying grease discharged from the grease pump 10, a grease distribution unit 21 provided at a downstream end of the supply pipe 20, and a supply pipe 20. And a check valve 28 for preventing grease from flowing back, a recovery pipe 30 for communicating with the supply pipe 20 to recover the grease to the grease pump 10, and a recovery pipe 30. Relief valve 32 is opened and closed in accordance with the pressure of the recovery pipe 30 and the control unit 40 for controlling the driving means for each mode.

The grease pump 10 includes a tank 12 in which grease is accommodated, a press plate 14 sliding along the inside of the tank 12, and an inlet 16a to allow grease under the press plate 14 to enter. A cylinder 16 formed at an upper portion thereof, a discharge hole 16b formed at an upper portion thereof, and a block 16c formed at an upper portion of the inlet portion 16a so that grease introduced from the inlet portion 16a can be discharged. The piston 18 is provided to move up and down along the inner circumferential surface of the cylinder 10, and a flow path 18a is formed to allow grease to flow therein, and a stop wave 18b is formed to be constrained upward by the block 16c. )

The tank 12 is preferably provided to accommodate the grease and made of a cylindrical shape to facilitate the sliding of the pressure plate (14).

The pressing plate 14 is provided to slide the tank 12 in the vertical direction, and is preferably provided to be inclined downward toward the radial direction so that the peripheral grease of the tank 12 may be gathered to the center and discharged to the outside. The edge of the pressing plate 14 is in close contact with the inner circumferential surface of the tank 12 in order to prevent contaminants from penetrating the lower portion of the pressing plate 14.

The cylinder 16 is installed to penetrate the pressing plate 14 in an up and down direction, and an inlet 16a is formed at a lower portion corresponding to the lower portion of the pressing plate 14 so that grease can be introduced therein, and the grease at the upper portion thereof. The outlet 16b is formed so that it can be discharged. In addition, a hollow 16d is formed in the cylinder 16b so that the piston 18 can be elevated in the vertical direction. In addition, a block 16c is formed above the inlet 16a of the cylinder 16 to restrain the stop wave 18b of the piston 18, which will be described later, from moving. The block 16c is formed with an opening 16ca to allow pressurized grease to flow into the piston 18 flow path 18a.

The piston 18 is provided to move up and down along the inner circumferential surface of the cylinder 16, and a flow path 18a is formed therein to allow grease to flow therein. Here, the ball check 18c provided with the grease which flowed in the flow path 18a of the said piston 18 only flows upward is provided. In addition, a stop wave 18b is formed below the piston 18 to restrain the lifting of the piston 18 by the block 16c of the cylinder 16. In this case, the stop wave 18b preferably has a disk shape.

The driving means is provided to drive the grease pump 10 and the grease is discharged through the flow path of the piston 18 as the piston 18 of the grease pump 10 is elevated. The drive means consists of a hydraulic motor 19 which is sure to operate in this embodiment. However, if necessary, the driving means may use a variety of driving means, such as an electric motor, LM guide.

The supply pipe 20 is provided to communicate with the grease pump 10. Therefore, grease supplied from the grease pump 10 is supplied to the required place through the supply pipe 20. The supply pipe 10 is provided to communicate with the outlet 16b of the cylinder 16. Here, the outlet 16b communicating with the supply pipe 10 is preferably screwed to be detachable.

The grease distribution unit 21 installed at the downstream end of the supply pipe 20 has a main function supply pipe 21a provided to supply grease to the excavator, and an auxiliary function supply provided to supply grease to the complex attachment. It consists of a three-way valve 26 provided to selectively supply grease to the pipe 21b and the main function supply pipe 21a and the auxiliary function supply pipe 21b.

Here, grease is supplied to the main function supply pipe 22a and the auxiliary function supply pipe 22b by the operation of the three-way valve 26. In addition, the downstream end of the auxiliary function supply pipe (22b) is provided so that the grease gun can be mounted, it is possible to manually supply the grease to the place required when the attachment is not attached.

5A is a cross-sectional view illustrating a state in which grease flows through a check valve of a grease supply system according to an embodiment of the present invention, and FIG. 5B is a check valve of the grease supply system according to an embodiment of the present invention to block grease. It is sectional drawing which shows the state.

As shown in FIGS. 5A to 5B, the check valve 28 is installed in the supply pipe 20 to prevent grease from flowing back to the grease pump 10. Here, the check valve 20 is in communication with the grease pump 10, the inlet portion 28a through which grease is introduced, the outlet portion 28b communicating with the end side of the supply pipe 10 and the grease is discharged; Large diameter portion 28c having a larger diameter than the discharge portion 28a and the inlet portion 28b between the inlet portion 28a and the discharge portion 28b, and the inlet portion 28a of the large diameter portion 28c. A ball 28d formed on the side and a hollow pin 28e formed on the discharge portion 28a side of the large diameter portion 28c. Here, the check valve 28 can prevent the grease from flowing back from the discharge portion 28b side to the inlet portion 28a side due to the pressure difference between the inlet portion 28a and the discharge portion 28b. Here, as the hollow pin 28e is provided, the backflow prevention circuit can be configured without loss of the cross-sectional area.

The recovery pipe 30 communicates with the supply pipe 20 to allow the grease to be recovered by the grease pump 10 when the pressure of the grease supplied to each location is greater than or equal to the set pressure. Figure 6a is a cross-sectional view showing when the relief valve of the grease supply system according to an embodiment of the present invention, Figure 6b is a cross-sectional view showing when the relief valve of the grease supply system according to an embodiment of the present invention. to be.

The recovery pipe 30 is provided with a relief valve 32 to operate based on the set pressure. Here, the recovery pipe 30 is preferably provided so that the lower end is in communication with the lower plate 14 of the tank 12. Here, since the recovery pipe 30 communicates with the lower plate 14, grease may be recovered into the tank 12 without contamination of the grease. In addition, the recovery pipe 30 is preferably in communication with the lower plate 14 through the inner peripheral surface of the cylinder (16). Therefore, the installation space required to recover the grease can be minimized.

In addition, the relief valve 32, as described above, is provided to prevent the pressure of the grease from rising above the set pressure, and protruding pins penetrating the inside of the ball 32b, the spring 32c, and the spring 32c ( 32a). When the relief valve 32 is opened, the protruding pin 32a protrudes to the outside, so that the operator can know that the lubrication system is overloaded, thereby preventing a safety accident.

The control unit 40 controls the operation of the grease distribution unit so that the grease may be individually supplied to the excavator connected to the main function supply pipe 22a and the complex attachment connected to the sub function supply pipe 22b. desirable. In this case, the composite attachment is generally made of a breaker. Therefore, the excavator or compound attachment controls the operation of the grease distribution unit 21 and the driving means according to the mode, so that the excavator and the compound attachment can be independently lubricated.

7 is a cross-sectional view showing a telescopic depth measurement sphere of a grease supply system according to an embodiment of the present invention.

In the grease supply system of the excavator having a compound function according to an embodiment of the present invention, as shown in FIG. 7, a sensing means for sensing the amount of grease remaining in the tank 12 is further provided. Do. The sensing means is preferably telescopic depth measuring sphere 50 extending in multiple stages. Therefore, it is easy to carry because the sensing means is usually folded.

Referring to the accompanying drawings, the operation of the grease supply system of the excavator having a complex function according to an embodiment of the present invention as described above are as follows.

First, the grease pump 10 is filled with grease in the lower part of the press plate 14, and grease is also filled between the block 16c of the cylinder 16 and the stop wave 18b of the piston 18 at the same time.

Here, when the switches 22aa and 22ba are turned on to operate the excavator or the breaker, the hydraulic motor 19, which is the same means, operates to move the piston 18 upward. When the piston 18 moves upward, the grease filled between the block 16c of the cylinder 16 and the stop wave 18b of the piston 18 becomes the opening 16ca of the block 16c of the cylinder 16. Flows upward through. The grease flowing upward through the block 16c opening 16ca of the cylinder 16 moves through the flow path 18a. At this time, since the grease is an incompressible fluid, the grease flows upwards, overcoming the spring tension of the ball check 18c. The grease that has passed the ball check 18c is communicated with the complex attachment serving as an excavator or a breaker via the supply pipe 20 and supplied to the required position through the main function supply pipe 21a or the auxiliary function supply pipe 21b. .

In addition, as the piston 18 moves up and down, grease contained in the lower plate 14 is introduced between the block 16c of the cylinder 16 and the stop wave 18b of the piston 18, and the cylinder 16. The grease introduced between the block 16c and the stop wave 18b of the piston 18 continuously flows upward through the flow path 18a.

Next, when the pressure of the grease flowing into the supply pipe 20 rises above the set pressure, the relief valve 32 installed in the recovery pipe 30 communicating with the supply pipe 20 opens, and a part of the grease is transferred to the grease pump 10. ) Is recovered. At this time, the relief valve 32 is provided with a protrusion pin (32a) is provided so that the operator knows that the lubrication circuit is overloaded. When grease is recovered through the recovery pipe 30 and the pressure drops, the relief valve 32 is closed to maintain a pressure below the set pressure in the supply pipe 20.

10: Grease Pump
20: supply pipe
21: grease distribution unit
21a: main function supply pipe
21b: auxiliary function supply pipe
26: three way valve
28: check valve
30: recovery pipe
32: relief valve
40:
50: telescopic depth measuring sphere

Claims (12)

A grease pump for supplying grease;
Driving means for driving the grease pump;
A supply pipe through which grease is discharged from the grease pump;
A check valve installed in the supply pipe to prevent grease from flowing back to the grease pump;
A grease distribution part installed at a downstream end of the supply pipe to selectively supply grease to the excavator and the composite attachment;
A recovery pipe installed between the supply pipe and the grease pump to recover the grease with the grease pump;
A relief valve installed in the recovery pipe; And
Control unit for controlling the operation of the grease distribution unit;
The grease pump includes a tank in which grease is accommodated, a press plate sliding along the inside of the tank, and an inlet formed at a lower portion thereof so that grease under the press plate can be introduced therein, and a grease introduced from the inlet can be discharged. Is formed in the upper portion and the block is formed on the upper portion of the inlet, and the stop wave is provided to the elevating along the inner circumferential surface of the cylinder and the flow path is formed so that grease flows therein and is constrained upward by the block Consists of a formed piston,
The driving means is provided to raise and lower the piston of the grease pump,
The recovery pipe is a lower end of the grease supply system of the excavator having a complex function, characterized in that the lower plate is provided so as to communicate with.
The method according to claim 1,
The grease distribution unit selectively greases the main function supply pipe installed to supply grease to the excavator, the auxiliary function supply pipe installed to supply grease to the multifunction attachment, and the main function supply pipe and the auxiliary function supply pipe. A grease supply system for an excavator having a multiple function, characterized by comprising a three-way valve for supplying.
The method according to claim 2,
The auxiliary function supply pipe is a grease supply system of an excavator having a multiple function, characterized in that the fixed amount supply valve for supplying a predetermined amount of grease is mounted.
The method according to claim 3,
The downstream end of the auxiliary function supply pipe is a grease supply system for an excavator having a multiple function, characterized in that it is provided to mount a grease gun.
The method according to claim 1,
The pressing plate is provided to slide the tank in the vertical direction and the grease supply system of the excavator having a compound function, characterized in that it is provided inclined downward toward the radial direction so that the peripheral grease of the tank is gathered to the center and discharged to the outside.
The method according to claim 1,
And the recovery pipe communicates with the supply pipe so that the grease is recovered by the grease pump when the pressure of the grease supplied to each location is equal to or higher than the set pressure.
The method according to claim 1,
And the recovery pipe is provided to communicate with the lower portion of the press plate through the inner circumferential surface of the cylinder.
The method according to claim 2,
The control unit is a grease supply system of an excavator having a compound function, characterized in that for controlling the operation of the grease distribution unit so that the grease can be supplied to the excavator and the compound attachment, respectively.
The method according to claim 1 or 2,
The relief valve is a grease supply system of an excavator having a complex function, characterized in that the protrusion pin is formed to be exposed to the outside when opened.
The method according to claim 1 or 2,
The check valve is in communication with the grease pump and the inlet to which grease is introduced, and the outlet and the outlet portion where the grease is discharged by communicating with the end side of the supply pipe and a larger diameter than the outlet and the inlet between the inlet and the outlet. It consists of a large diameter portion, a ball formed on the inlet side of the large diameter portion, and a hollow pin formed on the outlet side of the large diameter portion to the grease flows back from the outlet side to the inlet side by the pressure difference between the inlet and outlet Grease supply system of an excavator having a multiple function, characterized in that provided to prevent.
The method according to claim 1,
And said tank is provided with a sensing means for sensing the amount of grease remaining in said tank.
The method of claim 11,
The sensing means is a grease supply system of an excavator having a multiple function, characterized in that the telescopic depth measuring sphere extending in multiple stages.

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