KR101828951B1 - Dust preventing apparatus for cylinder - Google Patents

Abstract

The present invention relates to a foreign substance introduction preventing device for a cylinder, and more specifically, to a device for preventing foreign substances from being introduced into a cylinder tube through which a cylinder rod is inserted in or drawn out, wherein the device includes: an inner block coupled to a side of a front end of the cylinder tube so as to surround a part of an outer surface of the cylinder rod, and having an air inlet groove formed on a surface opposite to the cylinder rod, and a spraying port with a longitudinal end communicating with a space inside the air inlet groove, and the other longitudinal end facing the outer surface of the cylinder rod; and an outer block mounted to enclose the inner block so as to cover the air inlet groove and having an air injection port communicating with the air inlet groove.

Description

[0001] Dust receiving apparatus for cylinder [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for preventing foreign substances such as moisture and dust from being introduced into a cylinder tube along a surface of a cylinder rod, To prevent foreign matter from adhering to the surface of the cylinder rod and the periphery of the cylinder rod.

Generally, in a hydraulic cylinder, a fluid is introduced into a cylinder tube by using a hydraulic pressure generated by a hydraulic pump, and when the cylinder rod is pushed by the applied hydraulic pressure, a mechanical reciprocating motion is generated by the movement of the cylinder rod It is a kind of mechanical equipment.

Such a hydraulic cylinder device is widely used not only for a heavy-duty work vehicle used for working at a high place from the ground but also for a heavy equipment such as a forklift, an excavator, etc., as well as a manufacturing apparatus and a robot apparatus. Such a hydraulic cylinder device is configured such that the cylinder rod moves by the pressure of the oil filled in the cylinder tube, so that the oil filled in the cylinder tube is not leaked to the outside during the operation of the cylinder rod.

At this time, when foreign substances such as moisture and dust on the surface of the cylinder rod flow into the cylinder tube along the cylinder rod, there arises a problem that the inside of the cylinder tube is corroded and the output is lowered. A rod cover (Korean Registration Practice No. 20-0146484) has been proposed in order to remove foreign matter adhering to the surface of the cylinder rod when it is introduced.

The rod cover is mounted so as to surround a part of the cylinder rod-side portion of the cylinder rod. When the cylinder rod is drawn into the cylinder tube, the foreign matter adhering to the surface of the cylinder rod is caught by the rod cover, It is possible to obtain an effect that the tube can not be introduced into the tube.

At this time, if the rod cover is strongly pressed on the surface of the cylinder rod, it may affect the pull-out operation of the cylinder rod, so that the rod cover is brought into close contact with the cylinder rod with an appropriate force. Therefore, the rod cover effectively removes relatively large particles such as soil and dust on the surface of the cylinder rod, but has a problem in removing foreign particles having small particles such as moisture and fine dust.

KR 20-0146484 Y1

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems. It is an object of the present invention to provide an apparatus and a method for reliably removing foreign matter such as moisture, dust and the like on the surface of a cylinder rod, Which can be mounted on a conventional hydraulic cylinder, is excellent in usability, and is capable of spraying compressed air in various patterns.

In order to accomplish the above object, according to the present invention, there is provided an apparatus for preventing foreign matter from flowing into a cylinder tube in which a cylinder rod is drawn in and out, An air inlet groove is formed on the side opposite to the cylinder rod, one end in the longitudinal direction communicates with the space inside the air inlet groove, and the other end in the longitudinal direction is directed toward the outer side of the cylinder rod An inner block in which a jetting port is formed; And an outer block mounted to surround the inner block and covering an inlet of the air inlet groove, and an air injection hole communicating with the air inlet groove is formed.

A plurality of the injection ports are provided so as to be radially arranged around a longitudinal central axis of the cylinder rod.

The injection port is arranged to be inclined such that the injection direction is in a direction away from the cylinder tube.

The injection port is arranged so that the injection direction is directed to a point spaced a certain distance from the longitudinal center axis of the cylinder rod.

The injection port is formed so that the injection direction spirally surrounds the outer surface of the cylinder rod.

The jetting port is applied as a forward jetting port in which the other longitudinal direction end is formed on the distal end surface of the inner block.

The injection port is applied as an inner injection port whose other longitudinal end is formed on a surface of the inner block facing the outer surface of the cylinder rod.

The injection port is composed of a front injection port in which the other end in the longitudinal direction is formed at the end surface of the inner block and an inner injection port at the other end in the longitudinal direction formed on a surface of the inner block facing the outer surface of the cylinder rod.

The front injection port and the inner injection port are each provided in a plurality of radial directions about a longitudinal central axis of the cylinder rod, and the inner injection port is arranged between two adjacent front injection ports.

By using the apparatus for preventing foreign matter inflow according to the present invention, it is possible to reliably remove foreign matter such as moisture and dust from the surface of the cylinder rod or around the cylinder rod, such as steam or steam, It can be mounted on a conventional hydraulic cylinder, and air can be injected in various patterns.

1 is a use state diagram of a foreign matter inflow preventing apparatus according to the present invention.
2 to 4 are a vertical sectional view, an exploded view and a cross sectional view of the foreign matter inflow preventing apparatus according to the present invention.
5 to 7 are a longitudinal sectional view and an exploded view and a cross sectional view, respectively, of a foreign matter inflow preventing apparatus according to a second embodiment of the present invention.
Figs. 8 to 12 are a longitudinal sectional view and an exploded view and a cross sectional view, respectively, of a third embodiment of the foreign matter inflow preventing apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a foreign matter inflow preventing apparatus for a cylinder according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a vertical cross-sectional view and an exploded view and a cross-sectional view of a foreign body inflow preventing device according to the present invention, and FIG. 2 is a perspective view of the foreign body inflow preventing device according to the present invention. 100 is mounted on a cylinder composed of a cylinder tube 10 and a cylinder rod 20 to prevent foreign matter from flowing into the cylinder tube 10 from which the cylinder rod 20 is drawn in and out. Even if the foreign matter such as moisture or dust such as steam or steam in the vicinity of the cylinder rod 20 is foreign matter of very small particles such as water or oil, So that foreign matter can be prevented from being introduced into the apparatus.

That is, the foreign matter inflow prevention apparatus 100 according to the present invention is provided with a cylinder block 20, which is connected to the front end side (more specifically, the end cap 12) of the cylinder tube 10 so as to surround a part of the outer side surface of the cylinder rod 20. [ An air inlet groove 112 is formed on the side opposite to the cylinder rod 20 and one end in the longitudinal direction is communicated with the internal space of the air inlet groove 112 and the other end in the longitudinal direction is connected to the outside of the cylinder rod 20 And an air inlet groove (112) which is installed to surround the inner block (110) and covers an inlet of the air inlet groove (112) and communicates with the air inlet groove (112) And an outer block 120 in which the outer block 120 is formed. An O-ring (130) is interposed between the inner block (110) and the outer block (120).

1 to 4 illustrate the case where the injection port is applied as a forward injection hole 114 formed at a distal end of the inner block 110 in the longitudinal direction.

The high-pressure air supplied from the compressed air supply line 200 flows through the air inlet groove 112 and the front jet opening (not shown) The foreign matter such as moisture or dust such as steam or steam around the cylinder rod 20 that is buried on the outer side surface of the cylinder rod 20 or around the cylinder rod 20 is removed do. At this time, the compressed air discharged through the front jet opening 114 is discharged at a high pressure higher than a reference value. In addition to the case where soil or dust is present on the outer surface of the cylinder rod 20, Even foreign matter is completely removed.

When the cylinder rod 20 is moved toward the inside of the cylinder tube 10 when any foreign matter such as moisture or dust such as steam or water vapor on the outer surface of the cylinder rod 20 or around the cylinder rod 20 is removed It is possible to prevent the foreign matter such as soil, dust, moisture, oil and the like from being introduced into the cylinder tube 10 from the source.

In addition, due to the characteristics of the cylinder, it is possible to appropriately control the direction and angle of injection of compressed air depending on the kind of foreign matters such as moisture, dust, etc., which are buried on the surface of the cylinder rod 20 or steam or water vapor around the cylinder rod There may be a need to do so. The compressed air injection direction and the injection angle are determined by various conditions such as the position of the injection port, the inclination, the diameter, and the like. When the compressed air injection direction and the injection angle are to be adjusted, (The shape of the front jet opening 114 is different). At this time, the front jet opening 114 is formed only in the inner block 110 and not in the outer block 120, so that the user can only use the inner block 110 and the outer block 120 in common The time required for replacing parts can be remarkably shortened, and the maintenance cost can be reduced.

Of course, in the present embodiment, only the case where the foreign matter inflow prevention apparatus 100 according to the present invention is manufactured after being assembled into two blocks, that is, the inner block 110 and the outer block 120, The inner block 110 and the outer block 120 may be integrally formed so as to form a single block.

The apparatus 100 for preventing foreign matter inflow according to the present invention is configured such that the front jet opening 114 is provided in the cylinder rod 20 so as to inject compressed air over the entire outer surface of the cylinder rod 20. [ 20 so as to be radially arranged about the longitudinal central axis. The air inlet groove 112 should be formed in a ring shape surrounding the cylinder rod 20 so that the compressed air supplied through the air inlet hole 122 can be injected through all the forward injection holes 114.

When the injection direction of the front injection opening 114 is set so as to face the circumferential direction of the cylinder rod 20 (up and down direction in this embodiment), the compressed air discharged from the front injection opening 114 causes the cylinder rod 20 It is possible that some of the foreign matter removed from the cylinder tube 10 is press-fitted into the cylinder tube 10. Therefore, the foreign matter inflow prevention apparatus 100 according to the present invention is configured such that the injection direction of the front injection opening 114 is set such that the foreign matter separated from the cylinder rod 20 by the compressed air is discharged in a direction away from the cylinder tube 10, It is preferable to be arranged to be inclined so as to face away from the tube 10.

The front jet opening 114 may be arranged so that the cross-sectional jet direction is directed to the longitudinal central axis of the cylinder rod 20 as shown in Fig. 4 (a), and as shown in Fig. 4 (b) And may be arranged so as to be directed to a position spaced a certain distance from the longitudinal center axis of the base 20. 4A, when the cross-sectional spray direction of the front jet opening 114 is arranged as shown in FIG. 4A, the compressed air injected through the front jet opening 114 strongly hits the surface of the cylinder rod 20, 4 (b), when the cross-sectional spray direction of the front jet opening 114 is arranged as shown in Fig. 4 (b), the compressed air injected through the front jet opening 114 is discharged to the outside of the cylinder rod 20 There is an advantage that the entire surface of the bar cylinder rod 20, which hits the surface obliquely, can be uniformly wiped off.

Further, in order that the compressed air injected through the front jet opening 114 can sweep the foreign matter over a larger area, the forward jetting opening 114 is formed such that the jetting direction is a spiral shape on the outer surface of the cylinder rod 20 Or may be formed so as to enclose it. At this time, the front jet opening 114 should be formed in a curved shape so that compressed air can be spirally injected.

The front jet opening 114 may be changed into various shapes so as to jet compressed air in various directions according to various conditions such as the type of foreign matter adhering to the cylinder rod 20.

5 to 7 are a longitudinal sectional view and an exploded view and a transverse sectional view of a second embodiment of an apparatus 100 for preventing foreign matter inflow according to the present invention.

The injection port for injecting the compressed air to the outer surface of the cylinder rod 20 is formed on the surface of the inner block 110 facing the outer surface of the cylinder rod 20 at the other longitudinal end as shown in this embodiment As shown in FIG.

Since the compressed air injected from the inner injection port 116 is concentrated only between the cylinder rod 20 and the inner block 110 when the injection port for injecting compressed air is applied to the inner injection port 116, ) Is advantageous in that it can more effectively remove the foreign matter which is on the outer side or around the outer side. 1 to 4 inject compressed air to the outside of the inner block 110, some of the compressed air injected from the front jet opening 114 is not utilized for removing foreign matter, However, the compressed air injected through the inner injection port 116 shown in FIGS. 5 to 7 is advantageously used for removing foreign substances since the entire amount is utilized for removing foreign matters.

At this time, foreign matter such as moisture or dust such as steam or water vapor existing on the surface of the cylinder rod 20 or around the cylinder rod 20 is introduced into the cylinder tube 10 by the compressed air injected from the inner injection opening 116 The inner injection port 116 is preferably arranged to be inclined obliquely in a direction away from the cylinder tube 10 as in the case of the forward injection hole 114. [ The inner jet port 116 is radially arranged around the longitudinal center axis of the cylinder rod 20 so as to inject compressed air over the entire outer surface of the cylinder rod 20, As shown in Fig. 7 (b), a point spaced from the longitudinal central axis of the cylinder rod 20 by a certain distance may be arranged as shown in Fig. 7 (b) Lt; / RTI > Since the effect of changing the arrangement direction of the inner jet port 116 is substantially the same as the effect of changing the arrangement direction of the front jet port 114, detailed description thereof will be omitted.

8 to 12 are a vertical sectional view and an exploded view and a cross sectional view of a third embodiment of an apparatus 100 for preventing foreign matter inflow according to the present invention.

The foreign matter inflow prevention apparatus 100 according to the present invention includes a front injection opening 114 in which the other end in the longitudinal direction is formed at the end surface of the inner block 110, And an inner jet port 116 formed on a surface opposite to the outer surface of the body 20.

When both the front jet opening 114 and the inside jet opening 116 are provided as described above, foreign matters such as moisture, dust, and the like on the surface of the cylinder rod 20 or around the cylinder rod 20, It is possible to more effectively prevent the foreign matter from being introduced into the cylinder tube 10.

10 (a), the front jet opening 114 and the inside jet opening 116 may be arranged such that the cross-sectional jetting direction is directed to the longitudinal central axis of the cylinder rod 20, As shown in Fig. 4A, a certain distance from the longitudinal center axis of the cylinder rod 20. [

10 (a), when the front jet opening 114 and the inner jet opening 116 are arranged in a line, the compressed air contacting point, which is ejected from the front jet opening 114 of the outer surface of the cylinder rod 20, And the compressed air contact point injected from the inner jet opening 116 are overlapped with each other, so that the entire outer surface of the cylinder rod 20 can not be cleaned uniformly.

Accordingly, the inner jet port 116 may be arranged to be positioned between two adjacent front jet ports 114 as shown in FIG. When the front jet opening 114 and the inner jet opening 116 are shifted from each other, compressed air can be uniformly sprayed over the entire outer surface of the cylinder rod 20, There is an advantage that foreign matter such as moisture or dust such as steam or water vapor in the vicinity can be removed. 11 (a), the forward injection opening 114 and the inner injection opening 116 may be arranged such that the cross-sectional direction of injection is directed toward the longitudinal central axis of the cylinder rod 20, The cross-sectional spray direction may be arranged to be a position spaced from the longitudinal center axis of the cylinder rod 20 by a certain distance.

One of the inner jet port 116 and the forward jet port 114 included in the present invention is arranged such that the cross sectional jet direction is directed to the longitudinal central axis of the cylinder rod 20 and the inner jet port 116 and the forward jet port 114 May be arranged so that the cross-sectional spray direction is directed to a point spaced from the longitudinal center axis of the cylinder rod 20 by a certain distance. For example, as shown in FIG. 12 (a), the cross-sectional spraying direction of the inner jetting port 116 is directed to the longitudinal central axis of the cylinder rod 20 and the cross- And may be arranged so as to face a point spaced a certain distance from the longitudinal center axis. When the compressed air injection directions of the front jet opening 114 and the inner jet opening 116 are arranged differently as shown in Fig. 12 (a), the front jet opening 114 compresses the entire outer surface of the cylinder rod 20 And the inner jet port 116 strongly injects the compressed air to the outer surface of the cylinder rod 20 so as to reliably remove the foreign matter on the outer surface of the cylinder rod 20 or around the outer surface of the cylinder rod 20 And the effect of uniformly cleaning the entire outer surface of the cylinder rod 20 can be obtained.

The cross sectional spraying direction of the front jetting port 114 is directed toward the longitudinal center axis of the cylinder rod 20 and the cross sectional jetting direction of the inner jetting port 116 is directed toward the longitudinal direction of the cylinder rod 20 And may be arranged to be directed to a position spaced a certain distance from the central axis. Even in such a case, both the effect of reliably removing the foreign matter on the outer surface of the cylinder rod 20 or the outer surface of the cylinder rod 20, and the effect of uniformly cleaning the entire outer surface of the cylinder rod 20 can be obtained. A detailed description thereof will be omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the invention.

10: cylinder tube 20: cylinder rod
100: Foreign matter inflow prevention device 110: Inner block
112: air inlet groove 114: front jet opening
116: inner jet opening 120: outer block
122: air injection hole 200: compressed air supply line
130: O ring

Claims (9)

An apparatus for preventing foreign matter from flowing into a cylinder tube in which a cylinder rod is drawn in and out,
An air inlet groove is formed on the side opposite to the cylinder rod so as to surround a part of the outer surface of the cylinder rod, one end in the longitudinal direction communicates with the space inside the air inlet groove, An inner block having an injection port formed at the other end thereof toward the outer surface of the cylinder rod; And
An outer block installed to surround the inner block and covering an inlet of the air inlet groove, and forming an air injection hole communicating with the air inlet groove;
/ RTI >
Wherein the injection port is constituted by a front injection port in which the other end in the longitudinal direction is formed at the end surface of the inner block and an inner injection port whose other end in the longitudinal direction is formed on a surface of the inner block facing the outer surface of the cylinder rod,
Wherein the front injection opening and the inner injection opening are arranged in a radial manner about a longitudinal central axis of the cylinder rod, the inner injection opening is arranged between two adjacent front injection openings,
The injection direction of the front injection opening and the inner injection opening is inclined so as to face away from the cylinder tube so as to be directed to a position spaced a certain distance from the longitudinal center axis of the cylinder rod, Wherein the foreign matter introduction preventing member is formed to enclose the foreign matter.
delete delete delete delete delete delete delete delete

Images