KR20200062629A - Safety valve apparatus - Google Patents

Abstract

The present invention relates to a safety valve device, and more particularly, to a safety valve device for a quick coupler, which prevents a working object of an attachment from falling even when a check valve is damaged. The safety valve device of the present invention comprises a check valve and a spool means. The check valve is installed at a first flow path to be opened to allow a fluid to pass through the first flow path when a hydraulic pressure equal to or greater than a certain pressure is applied to the first flow path capable of supplying the hydraulic pressure into a cylinder in the direction that a piston rod is withdrawn from the cylinder so as to be supplied to the cylinder, or the hydraulic pressure equal to or greater than a certain pressure is applied to a second flow path capable of supplying the hydraulic pressure into a cylinder in the direction that the piston rod is inserted into the cylinder so as to be supplied to the cylinder. The spool means is installed at the first flow path to be opened to allow the fluid to pass through the first flow path when the hydraulic pressure applied to the first flow path continuously acts after the check valve is opened or the hydraulic pressure equal to or greater than a certain pressure is applied to the second flow path to allow the piston rod to be inserted into the cylinder. According to the present invention, the spool means is provided to prevent the piston rod from being retracted even when the check valve is damaged. Therefore, when the safety valve device of the present invention is applied to a quick coupler, an accident caused by falling an attachment can be prevented.

Description

Safety valve apparatus

The present invention relates to a safety valve device, and more particularly, to a safety valve device for a quick coupler that can prevent the workpiece of an attachment from falling even if the check valve is broken.

Excavators are heavy equipment used in civil engineering and construction sites, and are equipped with various types of attachments, such as buckets and crushers, depending on the purpose of various tasks. Therefore, various attachments are selectively performed on the excavator, so the attachments for these operations are combined to be replaced on the excavator.

The device that connects these attachments to the excavator is called a quick coupler. 1 is a conceptual diagram of a conventional quick coupler device.

In order to fix and attach the attachment to the excavator, oil is supplied into the cylinder 10 through the first flow path 1. Then, the check valve 5 is opened by hydraulic pressure, and oil is supplied into the cylinder 10 so that the piston rod 11 is advanced in the direction of the arrow 13. The attachment is then fixed to the excavator.

Meanwhile, in order to release the attachment, oil is supplied to the interior of the cylinder 10 through the second flow path 3. Then, the oil tries to reverse the piston rod 11 through the second flow path 3 in the direction of the arrow 15 while opening the check valve 5 through the flow path 3_1. At this time, when the hydraulic pressure supplied through the second flow path 3 is not large, the check valve 5 is not opened. Then, since the direction in which the oil flows from the cylinder 10 to the first flow path 1 is blocked, the piston rod 11 does not move and the hydraulic pressure supplied to the interior of the cylinder 10 through the second flow path 3 increases Is done. So, when the hydraulic pressure increases above a certain pressure, the check valve 5 is opened and the piston rod 11 moves in the direction of the arrow 15. The attachment is then released and can be removed from the excavator.

Registered Patent No. 10-1734763 (Registration Date May 02, 2017) Registered Patent No. 10-1721773 (Registration Date March 24, 2017) Registered Patent No. 10-1499298 (Registration Date February 27, 2015) Utility Model Registration No. 20-0469473 (Registration Date October 08, 2013)

When the attachment is fastened to the excavator, a load is applied to the piston rod 11. However, in the case of the conventional quick coupler shown in FIG. 1, since the check valve 5 is installed in the first flow path 1, the oil inside the cylinder 10 is prevented from being discharged through the first flow path 1. So the attachment can be combined without being separated from the excavator. However, when the check valve (5) is damaged, when the load is applied to the piston rod (11), the internal oil flows out through the first flow path (1), so the piston rod (11) retreats in the direction of the arrow (15). Occurs. The attachment is then removed from the excavator. Therefore, when the check valve 5 is damaged, there is a problem that the attachment falls and a safety accident occurs.

The present invention is to solve the above problems. An object of the present invention is to provide a safety valve device that can prevent the piston rod from retreating even if the check valve is damaged.

The safety valve device according to the present invention includes a check valve and a spool means. The check valve is applied such that a hydraulic pressure equal to or greater than a certain pressure is supplied to the cylinder in a first flow path capable of supplying hydraulic pressure into the cylinder in a direction in which the piston rod comes out of the cylinder, or into the cylinder in a direction in which the piston rod enters the cylinder. When a hydraulic pressure equal to or greater than a certain pressure is applied to the second flow path capable of supplying hydraulic pressure, the first flow path is installed to open the fluid to pass through the first flow path. The spool means continues to act after the hydraulic pressure supplied to the first flow path opens the check valve. When a hydraulic pressure equal to or greater than a predetermined pressure is applied to allow the piston rod to enter the cylinder through the second flow path, the first flow path is installed to open the fluid through the first flow path.

Further, in the safety valve device, it is preferable that the spool means includes a spool seat, a poppet, a spring, and a spool. The spool seat is mounted on the first flow path and the second flow path so that the first flow path and the second flow path can communicate with each other, and the inlet flowing out of the first flow path and the outlet flowing out of the first flow path deviate from each other. have. The poppet is such that the fluid may enter the spool seat in the direction of entering the cylinder through the first flow path, and the fluid does not flow into the spool seat in the direction exiting the cylinder through the first flow path. It is mounted on the spool seat so as to be able to slide to open the first flow path by the pressure of the fluid flowing into the spool seat. The spring is mounted on the spool seat so as to support the sliding of the poppet to return to sliding when the poppet slides to open the first flow path. The spool blocks the connection between the first flow path and the second flow path, and when hydraulic pressure is supplied to the second flow path, the spool seat can be pressed so that the poppet can slide to open the first flow path. It is mounted to be slidable.

According to the present invention, it is possible to prevent the piston rod from retreating even if the check valve is broken due to the provision of the spool means. Therefore, when applied to the quick coupler, it is possible to prevent the occurrence of a safety accident due to the attachment dropping.

1 is a conceptual diagram of a conventional quick coupler device,
2 is a conceptual diagram of an embodiment of a safety valve device applied to a quick coupler device according to the present invention,
Figure 3 is a cross-sectional view of the safety valve device applied to Figure 2,
4 and 5 is an operation diagram of the safety valve device applied to FIG.

An embodiment of a safety valve device according to the present invention will be described with reference to FIGS. 2 to 5.

The safety valve device according to the present invention includes a check valve 20 and a spool means 30.

The check valve 20 is installed in the first flow path 45 for supplying hydraulic pressure into the cylinder 43 in the direction in which the piston rod 41 comes out of the cylinder 43, and at this time, through the first flow path 45, the cylinder ( 43) It is opened only when a certain pressure or more is applied in the direction 21 in which hydraulic pressure is supplied. That is, the first flow path 45 is opened. In addition, the check valve 20 is opened when the hydraulic pressure of a predetermined pressure or more is applied to the second flow path 47 that supplies the hydraulic pressure into the cylinder 43 in the direction in which the piston rod 41 enters the cylinder 43. (45) to allow the fluid to flow.

The spool means 30 is installed in the first flow path 45 so that the hydraulic pressure supplied to the first flow path 45 can be opened if it continues to act after opening the check valve 20. That is, the fluid flows through the first flow path 45. In addition, the spool means 30 is opened when the hydraulic pressure of a predetermined pressure or more is applied to the piston flow path 41 so that the piston rod 41 can enter the cylinder 43 so that the fluid flows to the first flow path 45. do. To this end, the spool means 30 includes a spool seat 31, a poppet 33, a spring 35 and a spool 37.

The spool seat 31 makes the first flow path 45 and the second flow path 47 communicate with each other. That is, the spool seat 31 is installed on the first flow path 45 and the second flow path 47 so that the passage 31a is formed therein so that the first flow path 45 and the second flow path 47 communicate with each other. . And at this time, the spool seat 31, the inlet flowing from the first flow path 45 and the exit to the first flow path 45 are shifted from each other.

The poppet 33 allows the fluid to flow into the spool seat 31 in the direction 21 where the piston rod 41 comes out of the cylinder 43 through the first flow path 45, and the fluid flows in the opposite direction. It is mounted on the spool seat 31 so as to prevent it from entering the seat 31. At this time, the poppet 33 is mounted on the spool seat 31 so that it can slide to open the first flow path 45 by the pressure of the fluid flowing into the spool seat 31. So, when the fluid is supplied to the spool seat 31 through the first flow path 45, the poppet 33 can be supplied to the interior of the cylinder 43 by sliding.

The spring 35 is mounted on the spool seat 31 so as to support the poppet 33 so as to return the sliding of the poppet 33 when sliding to open the first flow path 45. That is, when the pressure of the fluid introduced inside the spool seat 31 is reduced, the fortune 33 returns by the spring 35 to block the first flow path 45. Therefore, the fluid in the cylinder 43 is not discharged through the first flow path 45.

The spool 37 blocks the connection between the first flow path 45 and the second flow path 47 inside the spool seat 31, and when hydraulic pressure is supplied into the spool seat 31 through the second flow path 47 The poppet 33 is slidably mounted on the spool seat 31 so that it can be pressed so as to be slidable to open the first flow path 45. On the other hand, the spool sheet 31 is formed with a locking jaw 31b so that the spool 37 does not slide over a certain limit toward the second flow path 47.

In the case of this embodiment, in order to couple the attachment to the excavator, oil is provided in the direction of the arrow 21 to the first flow path 45 so that the piston rod 41 is advanced. Then, the check valve 20 is opened by hydraulic pressure so that oil flows through the first flow path 45 and the oil flows into the spool means 30. That is, the spool means 30 is introduced into the spool seat 31. Then, the poppet 33 slides by the hydraulic pressure, and the spring 35 is contracted to open the spool means 30. When the spool means 30 is opened, oil flows into the cylinder 43 and advances the piston rod 41 in the direction of the arrow 51. When the piston rod 41 is advanced, the oil inside the cylinder 43 flows out through the second flow path 47. So the attachment is coupled to the excavator.

To separate the attachment, oil is provided to the second flow path 47 as shown in the direction of arrow 23 so that the piston rod 41 is reversed. Then, the oil is first supplied to the spool seat 31 and flows into the cylinder 43 inside. At this time, since the check valve 20 and the spool means 30 block the first flow path 45, the pressure of the oil supplied through the second flow path 47 increases. When the pressure of the oil supplied to the second flow path rises, the check valve 20 is first opened. And the oil moves inside the spool means 30 to spool 37 to move the poppet 33. So the poppet 33 opens the spool means 30. That is, since both the check valve 20 and the spool means 30 are opened, the first flow path 45 is opened. Therefore, the piston rod 41 is retracted in the direction of the arrow 53 by the oil supplied into the cylinder 43. When the piston rod 41 is reversed, the first spool valve 31 and the check valve 20 are open, so the oil inside the cylinder 43 flows out through the first flow path 45. So the attachment can be separated from the excavator.

On the other hand, when the attachment is coupled to the excavator, the supply of oil is stopped and the check valve 20 and the spool means 30 are all closed. At this time, a load is applied to the piston rod 41 by the weight or external force of the attachment. Therefore, the piston rod 41 is pressed in the direction of the arrow 53. In this case, since the spool means 30 is closed, the oil does not flow and the piston rod 41 is fixed. So the attachment is not separated. In addition, in this case, even if the check valve 20 is damaged, since the flow of oil does not occur by the spool means 30, it is possible to prevent the attachment from being separated. Therefore, in the case of the present embodiment, even if the check valve 20 is damaged, it is possible to prevent the attachment from being suddenly released and falling.

20: check valve 30: spool means
31: spool seat 33: poppet
35: spring 37: spool
41: piston rod 43: cylinder
45: Euro 1 47: Euro 2

Claims (2)

A hydraulic pressure of a predetermined pressure or more is applied to the first flow path through which the piston rod can supply hydraulic pressure into the cylinder in a direction from the cylinder, or the hydraulic pressure into the cylinder in the second direction in which the piston rod enters the cylinder. A check valve installed in the first flow path to open the fluid to pass through the first flow path when a hydraulic pressure of a certain pressure or more is applied to the second flow path to be supplied to the cylinder;
The hydraulic pressure supplied to the first flow path continues to operate after opening the check valve. It characterized in that it comprises a spool means installed in the first flow path so that the fluid is passed through the first flow path when a hydraulic pressure of a predetermined pressure or more is applied to the piston rod to enter the cylinder in the second flow path. Safety valve device. The method according to claim 1, wherein the spool means
The spool seat is mounted on the first flow path and the second flow path so that the first flow path and the second flow path can communicate with each other. ,
The fluid may enter the spool seat in the direction of entering the cylinder through the first flow path, and prevent the fluid from entering the spool seat in the direction exiting the cylinder through the first flow path, A poppet mounted on the spool seat so as to be able to slide to open the first flow path by the pressure of the fluid flowing into the spool seat,
A spring mounted on the spool seat to support the poppet to retract the sliding of the poppet when sliding to open the first flow path,
The connection between the first flow path and the second flow path is cut off, and when the hydraulic pressure is supplied to the second flow path, the poppet slides on the spool seat so that the poppet can be pressed to slide to open the first flow path. Safety valve device comprising a spool mounted to be able.

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