KR102057922B1 - Hydraulic cylinder apparatus provided with improved joint structure between piston and piston nut - Google Patents

Abstract

Hydraulic cylinder device is improved in the coupling structure of the piston and the piston nut according to the present invention, the hollow cylinder; A rod installed in the cylinder, one end of which is provided with a male screw, and which is reciprocated in the longitudinal direction of the cylinder; A piston fitted to one end of the rod to move with the rod during reciprocation of the rod; And a piston nut installed to pressurize the piston to prevent the piston from being separated from the rod, the piston nut including a piston nut having a female threaded portion engaged with the male threaded portion of the rod. The piston nut is formed on the surface facing each other is formed so as to pass through the inner circumferential surface from the piston and the outer peripheral surface of the piston nut has a screw coupling hole for screwing the set screw, the screw coupling hole is the first formed in the piston A screw coupling portion and a second screw coupling portion formed on the piston nut, wherein the first screw coupling portion has a structure in which a female screw portion is formed in a groove portion having a circular cross section extending from an outer circumference surface of the piston toward an inner circumference surface; 2 screw coupling portion to the outer peripheral surface of the piston nut The female screw part is formed in the groove part of which the circular cross section is extended by engaging with the circular cross section of the first screw coupling part toward the inner circumferential surface, and the first screw coupling part and the second screw coupling part face each other. It is combined to have one screw coupling hole, the female screw portion formed in the first screw coupling portion and the female screw portion formed in the second screw coupling portion is configured to form one continuous female screw structure, the set screw is the screw The piston and the piston nut is fixed to each other by screwing in the coupling hole.

Description

Hydraulic cylinder apparatus provided with improved joint structure between piston and piston nut}

The present invention relates to a hydraulic cylinder device, and more particularly to a coupling structure of a piston and a piston nut coupled to the end of the rod.

In general, a hydraulic cylinder device uses a hydraulic force generated by a hydraulic pump to inject a fluid into a cylinder, and when the piston moves by pushing the piston with the applied hydraulic force, the piston receives the movement of the piston to the rod to perform mechanical reciprocating motion. It is a kind of important mechanism to generate.

As shown in FIGS. 1 and 2, the conventional hydraulic cylinder device 1 includes a hollow cylinder 2, a rod 3 installed inside the cylinder 2, a piston 4, and The rod cover 5 is coupled to the cylinder 2. In the hydraulic cylinder device 1 having such a component, the piston 4 is arranged to reciprocate in the longitudinal direction of the cylinder 2 inside the cylinder 2 by hydraulic pressure. The piston 4 is screwed to the rod 3. That is, a male screw portion is formed at one end of the outer peripheral surface of the rod 3, and a female screw portion is formed at the inner peripheral surface of the piston 4, so that the female screw portion of the piston is fastened to the male screw portion of the rod 3, It is fixed. However, since the high pressure is applied to the piston 4 by the fluid during the operation of the hydraulic cylinder 1, the piston 4 can be released from the rod 3 only by screwing. Therefore, in general, the piston 4 is disposed in contact with the piston 4, and the piston nut 6 screwed to the rod 3 prevents the piston 4 from loosening. In addition, since a large amount of pressure is repeatedly applied to the piston nut 6, loosening may occur at the screw engagement portion. It is common to form a recess and fasten the stopper 7 for loosening, such as a set screw, to the female screw hole 8.

An example of a hydraulic cylinder device having such a structure is disclosed in Korean Patent Publication No. 2010-0094186.

However, since the piston nut 6 for preventing the piston from loosening is a separate component from the piston 4, the piston 4 and the piston nut 6 when the piston receives a force during the reciprocating motion by hydraulic pressure. Since the two are not firmly coupled to each other there is a problem that the piston 4 or the piston nut 6 can be released. In this case, there is a problem in that the piston 4 or the piston nut 6 is loosened in the hydraulic cylinder device operated at high pressure and high speed, thereby losing the fastening force. In this unexpected situation, the piston 4 or the piston nut 6 may be loosened and the piston 4 supported by the piston nut 6 may be released from the rod 3, and the rod ( 3) there is a problem that can be broken by the repeated load of the piston 4 and the piston nut (6).

Hydraulic cylinder device according to the present invention was devised to solve the above problems, by improving the coupling structure of the piston and the piston nut to implement the integrated structure of the piston and the piston nut to prevent the loosening of the piston and piston nut To provide a hydraulic cylinder arrangement.

In order to achieve the above object, a hydraulic cylinder device having an improved coupling structure between a piston and a piston nut according to an embodiment of the present invention includes a hollow cylinder;

A rod installed in the cylinder, one end of which is provided with a male screw, and which is reciprocated in the longitudinal direction of the cylinder;

A piston coupled to one end of the rod to move with the rod during reciprocation of the rod; And

A hydraulic cylinder device comprising a piston nut installed to pressurize the piston to prevent the piston from being separated from the rod, the piston nut including a piston nut having a female threaded portion engaged with the male threaded portion of the rod.

It is formed on the surface facing the piston and the piston nut is provided so as to pass through the inner peripheral surface from the outer peripheral surface of the piston and the piston nut is provided with a screw coupling hole for screwing the set screw,

The screw coupling hole includes a first screw coupling portion formed in the piston and a second screw coupling portion formed in the piston nut,

The first screw coupling portion has a structure in which a female screw portion is formed in a groove portion in which a part of a circular cross section extends from an outer circumferential surface of the piston toward an inner circumferential surface,

The second screw coupling portion is a structure in which a female screw portion is formed in the groove portion having a circular cross section extending from the outer circumferential surface of the piston nut toward the inner circumferential surface by engaging with a partial cross section of the circular shape of the first screw coupling portion.

The first screw coupling portion and the second screw coupling portion are merged to face each other to have a screw coupling hole, and the female screw portion formed on the first screw coupling portion and the female screw portion formed on the second screw coupling portion are Configured to form a continuous female thread structure,

The set screw is characterized in that the piston and the piston nut are fixed to each other by screwing into the screw coupling hole.

It is preferable that the first screw coupling portion and the second screw coupling portion have semicircular shapes facing each other on a cross section.

A ball receiving groove passing through a point where the center line of the screw coupling hole and the rod meet and concave on an outer circumferential surface of the rod in a circumferential direction of the rod; And

Preferably, the tip of the set screw is configured to contact and press the ball received in the ball receiving groove.

It is preferable that the direction in which the piston and the piston nut are screwed with the rod is configured to be opposite to each other.

Auxiliary coupling bolt screwed to the piston through the piston nut in the axial direction of the rod; preferably includes.

The center line of the screw coupling hole is preferably disposed to pass through the center of the rod.

The hydraulic cylinder device having an improved coupling structure of a piston and a piston nut according to the present invention is improved by a coupling screw and an arrangement structure of a set screw configured to be supported by a rod through only the piston nut to prevent loosening of the piston nut. It is coupled to a screw coupling hole formed to be mutually occupied at the interface between the piston and the piston nut, so that the piston and the piston nut are firmly fixed to a structure through a set screw, thereby preventing the piston and the piston nut from being released under repeated loads. to provide. In addition, when the auxiliary coupling bolt is screwed to the piston through the piston nut in the axial direction of the rod, it can be secondary to prevent the gap between the screw coupling hole in the interface between the piston and the piston nut. In addition, loosening of the piston and the piston nut is more effectively prevented when the screwing directions of the piston, the piston nut and the rod are reversed to each other.

1 is a view showing an example of a conventional hydraulic cylinder.
2 is a view showing a fixing structure of the piston nut in the hydraulic cylinder shown in FIG.
Figure 3 is a perspective view showing a coupling structure of the piston and the piston nut of the hydraulic cylinder device according to an embodiment of the present invention.
4 is a cross-sectional view taken along the line IV-IV shown in FIG.
5 is a right side view of the structure shown in FIG. 3.
FIG. 6 is a cross-sectional view taken along the line VI-VI of FIG. 3.
FIG. 7 is a sectional view taken along line VIII-VIII in FIG. 4.
8 is a view showing a detailed structure of the screw coupling hole shown in FIG.

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

Figure 3 is a perspective view showing a coupling structure of the piston and the piston nut of the hydraulic cylinder device according to an embodiment of the present invention. 4 is a cross-sectional view taken along the line IV-IV shown in FIG. 5 is a right side view of the structure shown in FIG. 3. FIG. 6 is a cross-sectional view taken along the line VI-VI of FIG. 3. FIG. 7 is a sectional view taken along line VIII-VIII in FIG. 4. 8 is a view showing a detailed structure of the screw coupling hole shown in FIG.

3 to 8, the hydraulic cylinder device 10 (hereinafter, referred to as a “hydraulic cylinder device”) having an improved coupling structure between a piston and a piston nut according to a preferred embodiment of the present invention may include a cylinder 20, The rod 30, the piston 40, the piston nut 50, the screw coupling hole 70, the set screw 60, and the auxiliary coupling bolt 90 are included.

The cylinder 20 may generally be manufactured by a casting method or a welding method of a metal material to have a hollow portion therein. An opening is formed at one end of the cylinder 20. The structure of the cylinder 20 can adopt a well-known structure.

The rod 30 is inserted into the cylinder 20 through an opening of the cylinder 20 and installed. The rod 30 is installed to reciprocate in the longitudinal direction of the cylinder 20 with respect to the cylinder 20. A male screw portion is formed on an outer circumferential surface of one end of the rod 30. The male screw portion of the rod 30 is provided with a first male screw portion 32 to which the piston 40 is screwed and a second male screw portion 34 to which the piston nut 50 is screwed. It is preferable that the screw directions of the first male screw portion 32 and the second male screw portion 34 are opposite to each other.

At the point where the first male screw portion 32 and the second male screw portion 34 meet, a ball receiving groove 36 formed in an annular shape is provided. The ball receiving groove 36 is disposed to intersect the center line of the screw coupling hole 70 to be described later.

The piston 40 has an annular annular shape. The outer circumferential surface of the piston 40 is in sliding contact with the inner circumferential surface of the cylinder 20. The inner circumferential surface of the piston 40 is screwed to the outer circumferential surface of the rod 30. The piston 40 is fixed to the rod 30 to move together with the rod 30 at the time of reciprocating movement of the rod 30.

The piston nut 50 is provided to prevent the piston 40 from being separated from the rod 30. The piston nut 50 is installed to press the piston 40. The piston nut 50 has a female thread portion which is fastened to the second male thread portion 34 of the rod 30.

The piston 40 and the piston nut 50 are firmly fixed to each other by the set screw 60.

The set screw 60 is a cylindrical rod-shaped member having a tapered structure in which a male screw portion is formed on an outer circumferential surface and a tip portion thereof is narrower than a body.

The set screw 60 serves to couple the piston 40 and the piston nut 50. More specifically, the screw coupling hole 70 to which the set screw 60 is coupled will be described in detail.

The screw coupling hole 70 is formed on a surface where the piston 40 and the piston nut 50 face. The screw coupling hole 70 is formed to penetrate the inner circumferential surface from the outer circumferential surface of the piston 40 and the piston nut 50. The set screw 60 is screwed to the screw coupling hole 70.

The screw coupling hole 70 includes a first screw coupling portion 72 and a second screw coupling portion 74.

The first screw coupling portion 72 is formed on the piston 40. The second screw coupling portion 74 is formed in the piston nut 50.

The first screw coupling portion 72 is a groove portion in which a circular cross section extends from the outer circumferential surface of the piston 40 toward the inner circumferential surface of the piston 40. The first screw coupling portion 72 has a structure in which a surface facing the piston nut 50 is open. The first screw coupling portion 72 may be, for example, a structure having a semicircular cross section extending in a straight line. A female screw portion is formed on the inner circumferential surface of the first screw coupling portion 72.

The second screw coupling portion 74 engages with a partial cross section of the circular shape of the first screw coupling portion 72 toward the inner circumferential surface of the piston nut 50 from the outer circumferential surface of the piston nut 50 to become a completely circular shape. Groove structure of the cross-sectional shape is extended. A female screw portion is formed on the inner circumferential surface of the second screw coupling portion 74. The second screw coupling portion 74 is formed in a structure in which the direction facing the piston 40 is open. For example, the first screw coupling portion 72 and the second screw coupling portion 74 may be configured in a semicircle shape facing each other on a cross section.

The first screw coupling portion 72 and the second screw coupling portion 74 are integrated to face each other to form one screw coupling hole 70. The female screw portion formed in the first screw coupling portion 72 and the female screw portion formed in the second screw coupling portion 74 are configured to form one continuous female screw structure.

The set screw 60 is screwed to the screw coupling hole 70. The set screw 60 is continuously screwed to the first screw engaging portion 72 and the second screw engaging portion 74 so that the piston 40 and the piston nut 50 are fixed to each other. Accordingly, the piston 40 and the piston nut 50 are firmly fixed to each other like a structure through the set screw 60 coupled to the screw coupling hole 70.

The ball receiving groove 36 passing through the point where the center line of the screw coupling hole 70 and the rod 30 meet and is concave on the outer circumferential surface of the rod in the circumferential direction of the rod 30 has been described above. It can be easily understood with reference to the structure of the rod 30.

The ball 80 may be accommodated in the ball receiving groove 36. The tip of the set screw 60 in contact with the ball 80 accommodated in the ball receiving groove 36 may be configured to press. Only one ball 80 may be used at a portion where the set screw 60 is coupled. The ball 80 compensates for the disadvantage that the contact area between the set screw 60 and the rod 30 is narrow so that surface contact with the rod 30 is made so that the piston 40 and the piston nut 50 are provided. ) Acts to further increase the anti-loosening effect.

When the screw directions of the first male screw portion 32 and the second male screw portion 34 provided in the rod 30 are formed opposite to each other, the piston 40 and the piston nut 50 are connected to the rod. 30 and the screwed direction is configured to be opposite to each other to increase the anti-loosening effect of the piston 40 and the piston 40.

The auxiliary coupling bolt 90 is a structure that assists the coupling of the piston 40 and the piston nut 50. The auxiliary coupling bolt 90 is threaded to the piston 40 through the piston nut 50 in the axial direction of the rod 30. The auxiliary coupling bolt 90 may be provided with a pair of 180 degrees apart in the circumferential direction of the rod (30).

The center line of the screw coupling hole 70 is preferably disposed to pass through the center of the rod (30).

Hereinafter, the effect of the operation of the hydraulic cylinder device 10 including the components described above will be described in detail by taking the process of coupling the piston 40 and the piston nut 50 to the rod 30 as an example.

First, the rod 30 must engage the piston 40 and the piston nut 50 before being inserted into the cylinder 20. The piston 40 is screwed to the first male screw portion 32 of the rod 30. For example, when the first male thread part 32 is a right hand thread, the female thread part formed on the piston 40 may also be formed as a right hand thread and may be screwed to the first male thread part 32. Now screw the piston nut 50 to the second male thread portion (34). When the second male thread part 34 is screwed in the opposite direction to the first male thread part 32, the female thread part formed on the piston nut 50 is also coupled to the second male thread part 34.

The ball 80 accommodated in the ball receiving groove 36 couples the piston 40 to the first male screw portion 32 and the piston nut 50 to the second male screw portion 34. You can combine before. Meanwhile, the ball 80 may be introduced through the screw coupling hole 70 after the piston 40 and the piston nut 50 are coupled to the rod 30.

In a state where the piston 40 and the piston nut 50 are coupled to the rod 30, the screw coupling hole 70 is the first screw coupling portion 72 and the second screw coupling portion 74. ) Face each other to form one screw coupling hole (70). The set screw 60 is screwed to the screw coupling hole 70. Accordingly, the set screw 60 is screwed to the first screw coupling portion 72 and the second screw coupling portion 74 at the same time continuously, so that the piston 40 and the piston 40 have a single structure. Secure with. Accordingly, even when the piston 40 and the piston nut 50 are subjected to hydraulic pressure while repeatedly reciprocating, the piston nut 50 is not loosened with respect to the piston 40. In addition, since the piston 40 and the piston nut 50 are in close contact with each other in the axial direction of the rod 30 by the auxiliary coupling bolt 90, the piston 40 and the piston nut 50 may be minutely generated at the interface of the screw coupling hole 70. The gap is not generated to reinforce the coupling structure of the piston 40 and the piston nut 50.

As described above, the hydraulic cylinder device having an improved coupling structure of the piston and the piston nut according to the present invention improves the coupling and arrangement structure of the set screw configured to be supported by the rod through only the piston nut to prevent loosening of the conventional piston nut. This ensures that the set screw is coupled to a screw coupling hole formed so as to occupy the interface between the piston and the piston nut. It provides an effect that prevents. In addition, when the auxiliary coupling bolt is screwed to the piston through the piston nut in the axial direction of the rod, it can be secondary to prevent the gap between the screw coupling hole in the interface between the piston and the piston nut. In addition, loosening of the piston and the piston nut is more effectively prevented when the screwing directions of the piston, the piston nut and the rod are reversed to each other.

As mentioned above, although the present invention has been described with reference to preferred embodiments, the present invention is not limited to such examples, and various forms of embodiments may be embodied within the scope without departing from the technical spirit of the present invention.

10: hydraulic cylinder device
20: cylinder
30: load
32: first male thread
34: second male thread
36: ball receiving groove
40: piston
50: piston nut
60: set screw
70: screwing holes
72: first screw coupling portion
74: second screw coupling portion
80: ball
90: secondary coupling bolt

Claims (6)

Hollow cylinder;
A rod installed in the cylinder, one end of which is provided with a male screw, and which is reciprocated in the longitudinal direction of the cylinder;
A piston coupled to one end of the rod to move with the rod during reciprocation of the rod; And
A hydraulic cylinder device comprising a piston nut installed to pressurize the piston to prevent the piston from being separated from the rod and having a female threaded portion engaged with the male threaded portion of the rod.
It is formed on the surface facing the piston and the piston nut is provided so as to penetrate the inner peripheral surface from the outer peripheral surface of the piston and the piston nut is provided with a screw coupling hole for screwing the set screw,
The screw coupling hole includes a first screw coupling portion formed in the piston and a second screw coupling portion formed in the piston nut,
The first screw coupling portion has a structure in which a female screw portion is formed in a groove portion having a portion of a circular cross section extending from an outer circumferential surface of the piston toward an inner circumferential surface,
The second screw coupling portion is a structure in which a female screw portion is formed in the groove portion having a circular cross section extending from the outer circumferential surface of the piston nut toward the inner circumferential surface by engaging with a partial cross section of the circular shape of the first screw coupling portion.
The first screw coupling portion and the second screw coupling portion are combined to face each other and have a screw coupling hole, and the female screw portion formed in the first screw coupling portion and the female screw portion formed in the second screw coupling portion are Configured to form a continuous female thread structure,
And said set screw is screwed into said screw coupling hole so that said piston and said piston nut are fixed to each other. The method of claim 1,
The first cylinder coupling portion and the second screw coupling portion is a semi-circular shape facing each other on a cross-section cross-section of the hydraulic cylinder device with improved coupling structure of the piston and the piston nut. The method of claim 1,
A ball receiving groove passing through a point where the center line of the screw coupling hole meets the rod and is concave on an outer circumferential surface of the rod in a circumferential direction of the rod; And
The hydraulic cylinder device with improved coupling structure of the piston and the piston nut, characterized in that configured to be in contact with the front end of the set screw in contact with the ball received in the ball receiving groove. The method of claim 1,
Hydraulic cylinder device with improved coupling structure of the piston and the piston nut, characterized in that the direction in which the piston and the piston nut is screwed with the rod is configured to be opposite to each other. The method of claim 1,
An auxiliary coupling bolt screwed to the piston through the piston nut in the axial direction of the rod; Hydraulic cylinder unit with improved coupling structure of the piston and the piston nut comprising a. The method of claim 1,
The center line of the screw coupling hole is arranged to pass through the center of the rod, the hydraulic cylinder device with improved coupling structure of the piston and the piston nut.

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