KR101373717B1 - Hydraulic cylinder apparatus enhancing cushion generation structure for head cover side - Google Patents

Abstract

Hydraulic cylinder device with an improved head cover side cushion forming structure according to the present invention, the hollow portion formed cylinder; A rod slidably installed in the cylinder; A piston fixed to one end of the rod and slidable in contact with the inner circumferential surface of the cylinder; A piston nut fixed to the rod while supporting one surface of the piston to prevent the piston from being separated from the rod; And a head cover fixed to one end of the cylinder and having a flow path for supplying pressure oil to the piston from the outside. And a cushion plunger coupled to an end of the rod and connected to a flow path formed in the head cover, the cushion plunger being cushioned by being accommodated in an entry groove formed in the longitudinal direction of the rod. A cushion adjusting orifice disposed in parallel with the entry groove and spaced apart from the entry groove so as to connect a flow path with the hollow portion of the cylinder; And a pressure oil supplied from the cushion adjusting orifice connected to the cushion adjusting orifice while the rod is in contact with the head cover, and applied to the rod end. And a slot groove formed to increase pressure.

Description

Hydraulic cylinder apparatus enhancing cushion generation structure for head cover side}

The present invention relates to a hydraulic cylinder device, and more particularly to a cushion structure formed on the head cover side.

Hydraulic cylinder devices are generally mechanical devices that generate a large force using a small amount of oil using the principle of Pascal. Hydraulic cylinder devices are widely used in various industries.

The hydraulic cylinder device is a mechanical device that can work outside by the extension or compression of the rod by the hydraulic pressure applied to the piston. However, in general, the hydraulic cylinder device is provided with a cushion structure that prevents the main parts from being damaged by collision of the end of the rod or the piston and the head cover when the rod is in compression operation. An example of such a cushion structure is disclosed in Korean Patent Laid-Open Publication No. 2007-0063205.

1 shows the structure of a conventional hydraulic cylinder device. Referring to Figure 1, a brief description will be given of the cushion operating principle of a conventional hydraulic cylinder device.

Referring to FIG. 1, the hydraulic cylinder device 1 includes a rod 3 and a piston 4 slidably installed in a cylinder 2 in which a hollow is formed. In the hydraulic cylinder device 1, a head cover 5 having a flow path 6 through which hydraulic oil (oil) flows in and out is fixed to one end of the cylinder 2. In addition, the cushion plunger 7 is provided as a shock absorbing structure for preventing the end of the rod 3 from suddenly colliding with the head cover 5 when the rod 3 is in compression operation. The cushion plunger 7 is coupled to the end of the rod 3 in a floatable state by a stop ring 8. The head cover 5 has an entry groove 9 through which the cushion plunger 7 can enter, and the entry groove 9 is connected to the flow path 6. When the cushion plunger 7 enters the entry groove 9, a space in which oil can flow in the entry groove 9 is reduced, and the rod 3 is connected to the head cover 5 by the pressure. A sudden collision is prevented. In addition, a separate orifice (10, orifice) between the hollow portion of the cylinder (2) and the flow path (6) so that the reaction force of the cushion plunger (7) enters the entrance groove (9) does not occur too large Is provided. A check valve 11 is provided at a portion connecting the orifice 10 and the flow path 6. The check valve 11 serves to smoothly expand the operation by supplying sufficient oil to the piston 4 during the extension operation of the rod (3).

By the way, the check valve 11 installed to adjust the cushion filling in the conventional hydraulic cylinder device 1, as shown in Fig. 1 as well as the check valve 11 itself, as well as the head cover the check valve 11 Since the spring 12, the spring cap 13, the O-ring 14, and the plug 15 are additionally required to be installed at (5), there is a problem in that the productivity is high due to the large number of parts and the productivity of assembly is high. In addition, a part in which the check valve 11 is installed should be provided with a separate flow path for supplying oil to the check valve 11 separately from the flow path 6. This deterioration has a problem that may cause a problem of oil leakage to the outside of the hydraulic cylinder device (1).

An object of the present invention is to devise to solve the above problems can be prevented from leaking to the outside by changing the cushioning structure of the head cover side, reducing the manufacturing cost and productivity by simplifying the structure to reduce the number of parts It is to provide an improved hydraulic cylinder device.

In order to achieve the above object, a hydraulic cylinder device having an improved head cover side cushion forming structure according to an embodiment of the present invention includes: a cylinder in which a hollow part is formed;

A rod slidably installed in the cylinder;

A piston fixed to one end of the rod and slidable in contact with the inner circumferential surface of the cylinder;

A piston nut fixed to the rod while supporting one surface of the piston to prevent the piston from being separated from the rod; And

A head cover fixed to one end of the cylinder and having a flow path for supplying pressure oil to the piston from the outside; And

In the hydraulic cylinder device including a cushion plunger coupled to the end of the rod, connected to the flow path formed in the head cover and received in the entry groove formed in the longitudinal direction of the rod to perform a cushioning action,

A cushion adjusting orifice disposed in parallel with the entry groove and spaced apart from the entry groove to connect the flow path formed in the head cover and the hollow portion of the cylinder; And

A pressure applied to the rod end by pressure oil supplied from the cushion adjusting orifice connected to the cushion adjusting orifice in a state in which the rod is in contact with the head cover among the end faces of the rod. It is characterized in that it has a; slot groove portion formed to increase the.

Preferably, the slot groove portion is symmetrically formed with the cushion plunger interposed therebetween.

The hydraulic cylinder device according to the present invention improves the structure of forming an orifice for adjusting the cushion filling on the head cover side, so that good cushion filling is realized without applying a check valve, and the oil leakage can be eliminated at the source. Is prevented, manufacturing costs are reduced, and there is an effect of providing a hydraulic cylinder device with improved productivity.

1 is a view for explaining the cushion structure of a conventional hydraulic cylinder device.
2 is a view for explaining the structure of a hydraulic cylinder device according to an embodiment of the present invention.
3 is a view showing a state in which the rod is compressed in the hydraulic cylinder device shown in FIG.
4 is a view showing the shape of the rod end of the hydraulic cylinder device shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view for explaining the structure of a hydraulic cylinder device according to an embodiment of the present invention. 3 is a view showing a state in which the rod is compressed in the hydraulic cylinder device shown in FIG. 4 is a view showing the shape of the rod end of the hydraulic cylinder device shown in FIG.

2 to 4, the hydraulic cylinder device 100 (hereinafter referred to as a “hydraulic cylinder device”) having an improved head cover side cushioning structure according to an exemplary embodiment of the present invention includes a cylinder 110 and a rod 120. ), A piston 130, a piston nut 135, a head cover 140, a cushion adjusting orifice 160, and a slot groove portion 122.

The cylinder 110 may generally be manufactured by a casting method of a metal material to have a hollow portion therein. The hollow part is formed in the longitudinal direction of the cylinder 110. The hollow part is formed to penetrate the cylinder 110. Openings are formed at both ends of the cylinder 110. The cylinder 110 may be made of a material such as carbon steel.

The rod 120 is disposed inside the cylinder 110 and is slidably installed in the cylinder 110. One end of the rod 120 may be exposed to the outside of the cylinder 110. The rod 120 is a rod-shaped member. In general, the cross section of the rod 120 is circular. One end of the rod 120 is located in the cylinder 110. The other end of the rod 120 is exposed to the outside of the cylinder 110. That is, the rod 120 is installed to reciprocate in the longitudinal direction of the cylinder 110. That is, the rod 120 is slidably installed in the hollow cylinder.

One side of the rod 120 facing the head cover 140 to be described later is provided with a plunger receiving groove 124 for installing the cushion plunger 150 to be described later, as shown in FIG. The plunger receiving groove 124 is formed concave along the longitudinal direction of the rod 120. A stop ring accommodating portion formed in a circular concave shape along an inner circumferential surface of the plunger accommodating groove 124 to accommodate a stop ring 152 that prevents the cushion plunger 150 from being separated from the inner circumferential surface of the plunger accommodating groove 124. 126 is provided. In addition, the rod 120 is provided with a slot groove portion 122. The slot groove portion 122 is formed on a surface of the rod 120 that faces the head cover 140. The slot groove 122 is formed symmetrically with the plunger receiving groove 124 interposed therebetween. The slot groove portion 122 is formed to extend in the vertical direction and is a groove connecting the inner circumferential surface of the plunger receiving groove 124 and the outer circumferential surface of the rod 120. A cross section of the slot groove 122 may be formed in a semicircular shape. The slot groove portion 122 is provided to effectively transmit the pressure applied to the rod 120 by the pressure oil supplied from the cushion adjusting orifice 160 described later during the extension operation of the rod 120. As a result, the slot groove portion 122 is formed symmetrically with the cushion plunger 150 described later. The slot groove portion 122 is connected to the cushion adjusting orifice 160 in a state in which the rod 120 is in contact with the head cover 140 which will be described later, that is, the rod 120 is maximally compressed. The slot groove portion 122 is provided to increase the pressure applied to the end of the rod 120 by the pressure oil supplied from the cushion adjusting orifice 160.

The cushion plunger 150 is coupled to an end of the rod 120. More specifically, the cushion plunger 150 has one end portion inserted into the plunger accommodation groove 124 and is installed to protrude toward the head cover 140 from an end of the rod 120. The cushion plunger 150 is not separated from the plunger accommodation groove 124 by the stop ring 152 installed in the stop ring accommodation portion 126. The cushion plunger 150 is cushioned by being accommodated in the entry groove 144 which will be described later.

The piston 130 is fixed to one end of the rod 120. The piston 130 is arranged to be slidable in contact with the inner circumferential surface of the cylinder 110.

The piston nut 135 is fixed to the rod 120 while supporting one surface of the piston 130. In general, the piston nut 135 is screwed to the rod 120, is configured so as not to be separated from the rod 120 by a fixing pin 136 in some cases. That is, the piston nut 135 serves to prevent the piston 130 from being separated from the rod 120.

The head cover 140 is fixed to one end of the cylinder 110. The head cover 140 may be fixed to the cylinder 110 by welding, screwing, forcing or the like. The head cover 140 includes a flow path 142, an entrance groove 144, and a cushion adjusting orifice 160.

The flow path 142 is a flow path for supplying pressure oil to the piston 130 disposed inside the cylinder 110 from the outside of the head cover 140. The entrance groove 144 is connected to the flow path 142 or is formed as part of the flow path 142. The entrance groove 144 is a portion for receiving the cushion plunger 150. Therefore, the entry groove 144 is disposed in the longitudinal direction of the rod 120, and is disposed coaxially with the rod 120. One end of the entry groove 144 is connected to the cylinder 110 and the other end is connected to the flow path 142.

The cushion adjusting orifice 160 is formed in the head cover 140. The cushion adjusting orifice 160 is disposed in parallel with the entry groove 144. The cushion adjusting orifice 160 is formed at a position spaced apart from the entrance groove 144. The cushion adjusting orifice 160 connects the flow path 142 formed in the head cover 140 and the hollow portion of the cylinder 110. One end of the cushion adjusting orifice 160 is connected to the slot groove 122 in the state in which the rod 120 is fully compressed.

Hereinafter, the operation and effect of the hydraulic cylinder device 100 having the above-described configuration will be described in detail with reference to a process of compressing and extending the hydraulic cylinder device 100 as an example.

2 is a state in which the rod 120 is extended. Now look at the process of compression from FIG. 2 to FIG. When pressure oil is supplied to a rod cover (not shown) disposed opposite the head cover 140, the rod 120 and the piston 130 move toward the head cover 140. As the cushion plunger 150 is accommodated in the entrance groove 144 provided in the head cover 140, the cushioning operation is started. The cushion plunger 150 reduces the volume of the hydraulic oil flowing out of the head cover 140 through the entry groove 144 so that the piston 130 and the rod 120 suddenly face toward the head cover 140. To prevent movement. In addition, since the end of the cushion plunger 150 is tapered, the reaction force applied to the piston 130 as the cushion plunger 150 initially enters the entrance groove 144 has elapsed. You lose. When the cushion plunger 150 further enters the entry groove 144, it is almost impossible for the hydraulic oil to move to the flow path 142 through the entry groove 144. In this case, the piston 130 is subjected to a resistance similar to the impact of the head cover 140. However, in this process, the cushion adjusting orifice 160 still connects the hollow portion of the cylinder 110 and the flow path 142. Therefore, the pressure oil in the hollow part of the cylinder 110 may move to the flow path 142 through the cushion adjusting orifice 160. Thus, by cushioning the impact of the piston 130 and the rod 120 can be satisfactorily induced cushioning during compression.

Meanwhile, as shown in FIG. 3, the process of changing the piston 130 and the rod 120 from the maximum compressed state to the extended state shown in FIG. 2 is as follows.

Pressure oil is supplied to the flow path 142 to the outside, and the pressure oil may flow out to a rod cover (not shown). The pressurized oil supplied to the flow passage 142 exerts pressure on an end of the cushion plunger 150. However, since the cross-sectional area of the cushion plunger 150 is small, sufficient stretching pressure does not occur. In this process, the pressure oil is supplied to the slot groove portion 122 formed at the end of the rod 120 through the cushion adjusting orifice 160. The pressure oil supplied to the slot groove 122 is transferred along the slot groove 122 to push the rod 120 apart from the head cover 140. Then, the pressure oil introduced into the hollow part of the cylinder 110 through the cushion adjusting orifice 160 pushes the piston 130 out. In addition, when the cushion plunger 150 is out of the entry groove 144, the pressure oil flowing into the flow path 142 may apply normal pressure to the piston 130 through the entry groove 144. Will be done.

As described above, the hydraulic cylinder device according to the present invention acts as a cushion for the cushion adjustment orifice connecting the cylinder hollow portion and the head cover side channel, and acts as a check valve adopted to adjust the cushion filling in the conventional hydraulic cylinder device. Since the cushion filling is maintained well, parts such as check valves are not required, the manufacturing cost is significantly reduced, and the assembly labor is reduced, thereby improving productivity. In addition, since there is no separate flow path for installing the check valve, the problem of unexpected oil leakage from the inside of the cylinder to the outside due to prolonged use is eliminated. In addition, by the slot groove provided in the rod cover, it is possible to smoothly transfer the pressure oil supplied to the head cover side flow path to the rod during the initial stretching operation.

While the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not to be limited by the example, and various changes and modifications may be made without departing from the spirit and scope of the invention.

100: Hydraulic cylinder device with improved head cover side cushion forming structure
110: cylinder 120: rod
122: slot groove 124: plunger receiving groove
126: stop ring receiving portion 130: piston
135: piston nut 136: fixing pin
140: head cover 142: euro
144: entry groove 150: cushion plunger
152: stop ring 160: cushioning orifice

Claims (2)

A cylinder in which the hollow part is formed;
A rod slidably installed in the cylinder;
A piston fixed to one end of the rod and slidable in contact with the inner circumferential surface of the cylinder;
A piston nut fixed to the rod while supporting one surface of the piston to prevent the piston from being separated from the rod; And
A head cover fixed to one end of the cylinder and having a flow path for supplying pressure oil to the piston from the outside; And
In the hydraulic cylinder device including a cushion plunger coupled to the end of the rod, connected to the flow path formed in the head cover and received in the entry groove formed in the longitudinal direction of the rod to perform a cushioning action,
A cushion adjusting orifice disposed in parallel with the entry groove and spaced apart from the entry groove to connect the flow path formed in the head cover and the hollow portion of the cylinder; And
A pressure applied to the rod end by pressure oil supplied from the cushion adjusting orifice connected to the cushion adjusting orifice in a state in which the rod is in contact with the head cover among the end faces of the rod. The hydraulic cylinder device with improved head cover side cushion forming structure, characterized in that the slot groove portion formed to increase the. The method of claim 1,
And the slot groove portion is symmetrically formed up and down with the cushion plunger interposed therebetween.

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