KR20160040910A - Angle Adjustment Apparatus for a Lever Bar - Google Patents

Abstract

A device for adjusting a bending angle of a lever bar comprises an upper lever bar and a lower lever bar. The device is provided to comprise: a main body of a device for adjusting a bending angle of a lever bar; a front and back bending angle adjusting means for adjusting the front and back directions of the lever bar; and a left and right bending angle adjusting means for adjusting the left and right directions of the lever bar. Therefore, the operation of the lever is convenient by adjusting the angle bent with respect to a work environment or a body condition of a user.

Description

[0001] The present invention relates to an angle adjusting device for a lever bar,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bending angle adjusting mechanism for a lever bar, and more particularly, to a bending angle adjusting mechanism for a lever bar capable of adjusting a bending angle according to a user's body condition or work environment.

The heavy equipment such as a crane or an excavator has an operation lever (joystick) for controlling working devices such as a boom or a rock.

The operation lever is generally fixed to the bracket 52 on the RCV body 51 of the remote control valve 50 by a hinge pin 52a so that the lever bar 40 can be inclined forward, backward, And the handle 60 is hingedly coupled to the upper end of the lever bar 40 through a connecting means such as a bolt or the like and the driver pushes the handle 60 by the push plate 53 as the handle 60 moves in the front- The push rod 54 is depressed to control the hydraulic pressure of the pilot pump to provide the pilot signal pressure to the control valve of the working device.

Such a conventional operation lever has a disadvantage in that it is inconvenient to manipulate the lever according to the physical condition of the user because the position of the handle or the bending angle of the lever bar can not be adjusted. In the case where a careful working device is required, it is advantageous that the position of the knob is closer to the center of gravity of the user, which requires special attention to the operation of the lever. The conventional operation lever has advantages such as the position of the handle, There is a disadvantage that the operation is inconvenient because the adjustment is impossible.

As an example of the conventional technique for solving such a problem, a position variable type heavy travel cost lever has been proposed in the following Patent Document 1, and in the following Patent Document 2, In the following Patent Document 3, a 'control lever height adjustment device for a construction equipment' has been proposed. In the following Patent Document 4, 'a device for controlling the height of the operation lever of a heavy equipment' has been proposed have.

Korean Utility Model Publication No. 20-1997-008833 (published on November 25, 1997) Korean Registered Patent No. 10-0559293 (Date of Publication: March 15, 2006) Korean Registered Patent No. 10-1220770 (Published Jan. 09, 2013) Korean Registered Patent No. 10-1345223 (Published Dec 26, 2013)

Patent Document 1 proposes a travel lever for heavy equipment manufactured to be adjustable in length and angle as required, but has a disadvantage in that the angle of the lever bar can be adjusted only in the forward and backward directions and can not be adjusted in the left and right directions.

Patent Document 2 proposes a console box for heavy equipment having a control lever capable of adjusting the height so that the position can be selectively changed according to various physical forms of the driver. Patent Document 3 discloses a console box in which a driver adjusts the steering lever Patent Document 4 proposes a height control device for a heavy equipment lever having an operation lever capable of adjusting the height by the pressure applied by the driver, The angle of the lever can not be adjusted.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a bending angle adjusting mechanism for a lever bar capable of adjusting the bending angle according to a user's physical condition or work environment.

According to an aspect of the present invention, there is provided a bending angle adjusting mechanism for a lever bar including an upper lever bar and a lower lever bar, the bending angle adjusting mechanism comprising: a bending angle adjusting mechanism body; Rear direction bending angle adjusting means for adjusting the bending angle of the lever bar in the front-rear direction; And left and right bending angle adjusting means for adjusting the bending angle of the lever bar in the left and right direction.

The front and rear bending angle regulating means includes a cylindrical front and rear bending angle regulating member having an upper end of the lower lever bar fastened and fixed at one side in a direction perpendicular to the central axis; And a first fixing member which is fixedly coupled to one end of the cylindrical front and rear bending angle adjusting member and the bending angle adjusting mechanism body so that the cylindrical front and rear bending angle adjusting members accommodated and inserted are not rotated, A cylindrical left and right bending angle regulating member having a lower end portion of the upper lever bar fastened and fixed to one side in a direction perpendicular to the central axis; And a second fixing member which is fixedly coupled to the one end of the cylindrical left and right bending angle adjusting member and the bending angle adjusting mechanism body so that the cylindrical left and right bending angle adjusting members received and inserted are not rotated.

Here, the bending angle adjusting mechanism body may include: a first adjusting member receiving hole formed in a lower side in the left-right direction, the cylindrical front and rear bending angle adjusting members being inserted and received; A front and rear bending angle adjusting opening communicating with the first adjusting member accommodating hole such that an outer surface having a lower height than a center axis of the cylindrical front and rear bending angle adjusting member inserted and received in the first adjusting member accommodating hole is exposed in a lower central portion; A second adjusting member receiving hole formed on the upper side in the front-rear direction and inserted and received in the cylindrical left and right bending angle adjusting members; And a left and right bending angle adjusting opening communicating with the second adjusting member accommodating hole such that an outer surface having a height higher than a center axis of the cylindrical left and right bending angle adjusting members accommodated in the second adjusting member accommodating hole is exposed in an upper center portion thereof And the like.

A first serration portion having a serrated tooth is formed on an outer peripheral surface at one end of the cylindrical front and rear bending angle adjusting member, and a first fixing portion is provided on one side of the first fixing member, Wherein a first serration portion formed with a serrated tooth on an outer circumferential surface thereof is formed at one end of the cylindrical left and right bending angle adjusting member and a second serration portion formed with a serrated tooth is formed at one end of the cylindrical left and right bending angle adjusting member, And a second boss part having a second fixed serration part passing through the member is formed.

Here, a first diameter reducing portion is formed at the other end of the cylindrical front and rear bending angle adjusting member, a first stepped portion into which the first diameter reducing portion is inserted is formed at one side of the first adjusting member receiving hole, A second diameter reduction portion may be formed at the other end of the angle adjusting member and a second stepped portion may be formed at one side of the second adjustment member receiving hole to insert the second diameter reduction portion.

Here, a plurality of first fastening grooves are formed at a predetermined depth on a side surface of the bending angle adjusting mechanism main body that contacts the first fastening member, and a plurality of first fastening grooves A plurality of second fastening grooves are formed at a predetermined depth on a side surface of the bending angle adjusting mechanism main body which is in contact with the second fastening member and the second fastening member is provided with a plurality of second fastening holes And a plurality of second bolt holes corresponding to the grooves are formed.

In this case, a first screw hole is formed in the upper end portion of the lower lever bar in the left-right direction, and the cylindrical front and rear bending angle adjusting members are formed with a predetermined diameter in the longitudinal direction from the side of the other end portion, A second tapered bolt fastening hole is formed in a lower end portion of the upper lever bar and a second tapered bolt through hole is formed in a lower end portion of the upper lever bar in a longitudinal direction from the side of the other end portion where the second diameter decreasing portion is formed, And a second tapered bolt fastening hole having a predetermined depth is formed.

As described above, according to the bending angle adjusting mechanism for a lever bar according to the present invention, the bent angle can be adjusted according to a user's body condition or work environment, so that the operation of the lever can be facilitated.

1 is a front view showing a state in which a lever-bar between a remote control valve and a knob is fitted with a bending-angle adjusting mechanism for a lever bar according to the present invention;
2 is an exploded perspective view of a bending angle adjusting mechanism for a lever bar according to the present invention,
FIG. 3 is a perspective view showing only the bending angle adjusting mechanism main body of FIG. 2,
FIG. 4 is a front view of the lever-bar bending angle adjusting mechanism according to the present invention assembled;
FIG. 5 is a left side view of a state in which a bending angle adjusting mechanism for a lever bar according to the present invention is assembled;
Fig. 6 is a perspective view showing the front-rear bending angle adjusting means and the left and right bending angle adjusting means from the rear side.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the present invention is not limited to the embodiments.

Hereinafter, a configuration of a bending angle adjusting mechanism 1 for a lever bar according to a preferred embodiment of the present invention will be described.

FIG. 1 is a front view showing a lever bar between a remote control valve and a knob, in which a bending angle adjusting mechanism for a lever bar according to the present invention is mounted, FIG. 2 is a perspective view illustrating a bending angle adjusting mechanism for a lever bar according to the present invention, FIG. 3 is a perspective view showing only the bending angle adjusting mechanism main body of FIG. 2. FIG.

In the following description, the right front direction of FIG. 2 is defined as forward and the left rear direction as rearward.

The bending angle adjusting mechanism (1) for a lever bar according to the present invention comprises a bending angle adjusting mechanism body (10); Front and rear bending angle adjusting means (20) for adjusting the bending angle of the lever bar (40) in the front and rear direction; Left and right bending angle adjusting means 30 for adjusting the bending angle of the lever bar 40 in the left and right direction.

The bending angle adjusting mechanism 1 for a lever bar according to the present invention includes a lower lever bar 41 hinged to a bracket 52 on a remote control valve 50 and a lower lever bar 41 fixed to a lower portion of the handle 60. [ Bar 42. In this embodiment,

As shown in FIGS. 2 and 3, the bending angle adjusting mechanism body 10 has a skeleton in which the front and rear bending angle adjusting means 20 and the left and right bending angle adjusting means 30 are fixed. A member receiving hole 110 and a front and rear bending angle adjusting opening 120 are formed and a second adjusting member receiving hole 150 and a left and right bending angle adjusting opening 160 are formed on the upper side.

The first adjustment member receiving hole 110 is a portion of the front and rear bending angle adjusting means 20 in which the cylindrical front and rear bending angle adjusting members 210 are inserted and received, .

The front and rear bending angle regulating opening 120 is formed in such a manner that the cylindrical front and rear bending angle adjusting members 210 accommodated in the first adjusting member accommodating hole 110 are rotated in the direction perpendicular to the central axis, 210 are opened to allow the lower lever bar 41 to be pivoted back and forth.

The front and rear bending angle adjusting openings 120 are formed in the first and second adjusting member receiving holes 110 so that the outer surface of the cylindrical front and rear bending angle adjusting members 210, And is formed communicating with the first adjustment member accommodation hole (110) in the lower central portion of the instrument body (10).

The second adjusting member receiving hole 150 is a portion in which the cylindrical left and right bending angle adjusting members 310 to be described later of the left and right bending angle adjusting means 30 are inserted and received is provided on the upper side of the bending angle adjusting mechanism body 10, .

The right and left bending angle adjusting openings 160 are formed in the cylindrical left and right bending angle adjusting members 310 in the direction perpendicular to the central axis as the cylindrical left and right bending angle adjusting members 310 inserted into the second adjusting member receiving holes 150 rotate The upper lever bar 42 fastened to one side of the upper lever bar 310 is opened to be pivoted laterally.

The left and right bending angle adjusting openings 160 may be formed in a manner such that the outer surfaces of the cylindrical left and right bending angle adjusting members 310 inserted into the second adjusting member receiving holes 150 are exposed, And communicates with the second adjusting member receiving hole 150 at the center of the upper side of the instrument body 10.

The first adjusting member receiving hole 110 is formed in the lower side of the bending angle adjusting mechanism body 10 in the left and right direction and the second adjusting member receiving hole 150 is formed on the upper side of the adjusting mechanism body 10 in the forward and backward directions However, this does not mean that the first adjusting member receiving hole 110 and the second adjusting member receiving hole 150 are exactly orthogonal to each other, but they are formed to be substantially perpendicular to each other .

The first adjusting member receiving hole 110 is formed below the bending angle adjusting mechanism body 10 and the second adjusting member receiving hole 150 is formed above the bending angle adjusting mechanism body 10 The first adjusting member receiving hole 110 is formed on the upper side of the bending angle adjusting mechanism body 10 and the second adjusting member receiving hole 150 is formed on the upper side of the bending angle adjusting mechanism body 10, Or may be formed on the lower side of the instrument body 10.

The front and rear bending angle adjusting means 20 is coupled to the lower side of the bending angle adjusting mechanism main body 10 so that the angle at which the lever bar 40 is bent in the forward and backward directions is fixed to a desired angle, 210 and a first fixing member 250.

The cylindrical front and rear bending angle regulating member 210 is rotatably inserted into the first adjusting member receiving hole 110 and has a generally cylindrical shape.

The cylindrical serpentine fore and aft bending angle regulating member 210 has a first serration part 211 formed with a serrated tooth on the outer circumferential surface thereof and a first diameter decreasing part 215 formed on the other end thereof.

The overall length of the cylindrical front and rear bending angle adjusting member 210 is formed to be longer than the depth of the first adjusting member receiving hole 110 formed in the bending angle adjusting mechanism body 10, Is formed longer than the length of the first diameter reduction portion 215.

The cylindrical front and rear bending angle regulating member 210 is inserted into and accommodated in the first adjusting member receiving hole 110 from the other end where the first diameter reducing portion 215 is formed and the first serration portion 211 Is protruded to the side surface of the bending angle adjusting mechanism body 10. [0052] As shown in Fig.

At this time, a first stepped portion 111 is formed on one side of the first adjusting member receiving hole 110, and the first diameter reducing portion 215 is inserted into a hole formed by the first stepped portion 111, The vertical side surface between the central portion of the cylindrical front and rear bending angle adjusting member 210 and the first diameter reducing portion 215 is caught by the first stepped portion 111 so that the cylindrical front and rear bending angle adjusting members 210 are engaged with the bending- The first diameter reduction portion 215 is formed in a direction in which the first diameter reduction portion 215 is formed.

The cylindrical front and rear bending angle regulating member 210 is inserted into the first adjusting member receiving hole 110 at a central portion of the cylindrical front and rear bending angle adjusting members 210 in the direction perpendicular to the central axis, Is fastened and fixed.

Accordingly, as the cylindrical front and rear bending angle adjusting members 210 inserted and received in the first adjusting member receiving hole 110 are rotated, the lower lever bar 41 fastened to one side of the center of the cylindrical front and rear bending angle adjusting members 210 And can be turned back and forth along the front and rear bending angle regulating opening 120 opened to the lower side.

The first fixing member 250 is fixed to one end of the cylindrical front and rear bending angle adjusting members 210 so that the cylindrical front and rear bending angle adjusting members 210 rotatably inserted into the first adjusting member receiving holes 110 are not rotated, And the bending angle regulating mechanism main body 10 shown in Figs. 1 to 3 as an intermediate shape between a circular shape and a semicircular shape as a whole. However, as long as the function can be performed, a shape having a polygonal or circular shape have.

A first boss portion 251 having a first fixed serration portion 251a penetrating through the first fixing member 250 is protruded and formed on one side of the first fixing member 250, The member 250 is coupled to the side surface of the bending angle adjusting mechanism body 10 such that the first boss portion 251 is inserted into the first adjusting member receiving hole 110.

The first serration part 211 at one end of the cylindrical front and rear bending angle adjusting member 210 rotatably inserted in the first adjustment member accommodation hole 110 is inserted into the first fixing part 211 of the first boss part 251, And the first fixing member 250 is fixed to the side surface of the bending angle adjusting mechanism body 10 by bolts.

A plurality of first coupling grooves 115 are formed at a predetermined depth on the side surface of the bending angle adjusting mechanism body 10 in contact with the first fixing member 250, A plurality of first bolt holes 255 corresponding to the first coupling groove 115 are formed and a female screw is tapped on the inner side surfaces of the plurality of first coupling grooves 115.

The first fixing member 250 includes a cylindrical front and rear bending angle adjusting member 210 inserted into the first adjusting member receiving hole 110 so that the angle at which the lever bar 40 is bent in the front- The plurality of first bolt holes 255 are communicated with the plurality of first coupling grooves 115 and the first serration part 211 is inserted into the first fixed serration part 251a 1 boss portion 251 is inserted into the first adjustment member accommodation hole 110 and then fixed by a bolt which passes through the first bolt hole 255 and is fastened to the first engagement groove 115.

The left and right bending angle adjusting means 30 is coupled to the upper side of the bending angle adjusting mechanism body 10 so that the angle at which the lever bar 40 is bent in the left and right direction is fixed to a desired angle, 310 and a second fixing member 350.

The cylindrical left and right bending angle regulating member 310 is rotatably inserted into the second adjustment member accommodation hole 150 and has a generally cylindrical shape.

The cylindrical left and right bending angle adjusting member 310 has a second serration part 311 formed on its outer circumferential surface with a serrated tooth and a second diameter reducing part 315 formed on the other end thereof.

The entire length of the cylindrical left and right bending angle adjusting member 310 is formed to be longer than the depth of the second adjusting member receiving hole 150 formed in the bending angle adjusting mechanism body 10 and the length of the second serration portion 311 The length of the second diameter reduction portion 315 is longer than the length of the second diameter reduction portion 315.

The cylindrical left and right bending angle regulating member 310 is inserted into the second adjustment member accommodation hole 150 from the other end where the second diameter reduction portion 315 is formed and is accommodated in the second serration portion 311 Is protruded to the side surface of the bending angle adjusting mechanism body 10. [0052] As shown in Fig.

At this time, a second step portion 151 is formed on one side of the second adjusting member receiving hole 150, and a second diameter reducing portion 315 is inserted into a hole formed by the second step portion 151, The vertical side surface between the central portion of the cylindrical left and right bending angle adjusting member 310 and the second diameter reducing portion 315 is caught by the second stepped portion 151 so that the cylindrical left and right bending angle adjusting members 310 are engaged with the bending angle adjusting mechanism body 310, Diameter portion 315 in the direction in which the second diameter reduction portion 315 is formed.

The cylindrical left and right bending angle adjusting members 310 are inserted into the second adjusting member receiving holes 150 and are provided at one side of the center of the cylindrical left and right bending angle adjusting members 310 in the direction perpendicular to the central axis, Is fastened and fixed.

As the cylindrical left and right bending angle adjusting members 310 inserted into the second adjusting member receiving hole 150 are rotated, the upper lever bar 42 fastened to one side of the center of the cylindrical left and right bending angle adjusting members 310 It is possible to pivot left and right along the left and right bending angle adjusting openings 160 opened upward.

The second fixing member 350 is fixed to the second adjusting member receiving hole 150 so that the cylindrical left and right bending angle adjusting members 310 rotatably inserted and accommodated in the second adjusting member receiving hole 150 are not rotated, And the bending angle regulating mechanism main body 10 as shown in Figs. 1 to 3. However, as long as it can function as a circular or semi-circular one, it is possible to have a shape such as a polygonal or circular shape have.

A second boss portion 351 having a second fixed serration portion 351a passing through the second fixing member 350 is formed in a protruding manner on one side of the second fixing member 350, The member 350 is engaged with the side surface of the bending angle adjusting mechanism body 10 so that the second boss portion 351 is inserted into the second adjusting member accommodating hole 150. [

At this time, the second serration portion 311 at one end of the cylindrical left and right bending angle adjusting member 310, which is rotatably inserted and accommodated in the second adjusting member receiving hole 150, And the second fixing member 350 is fixed to the side surface of the bending angle adjusting mechanism body 10 by bolts.

A plurality of second coupling grooves 155 are formed at a predetermined depth on a side surface of the bending angle adjusting mechanism body 10 that contacts the second fixing member 350 and a plurality of A plurality of second bolt holes 355 corresponding to the second fastening groove 155 are formed and a female screw is tapped on the inner side surfaces of the plurality of second fastening grooves 155.

The second fixing member 350 includes a cylindrical left and right bending angle adjusting member 310 inserted into the second adjusting member receiving hole 150 so that the angle at which the lever bar 40 is bent in the left- A plurality of second bolt holes 355 are communicated with the plurality of second engagement grooves 155 while the second serration portion 311 is inserted into the second fixed serration portion 351a in the rotated state, The second boss portion 351 is inserted into the second adjustment member accommodation hole 150 and then fixed by a bolt which passes through the second bolt hole 355 and is fastened to the second fastening groove 155.

Hereinafter, an installation process of the bending angle adjusting mechanism 1 for a lever bar according to a preferred embodiment of the present invention will be described.

FIG. 4 is a front view of the lever bar according to the present invention in a state where the bending angle adjusting mechanism for the lever bar is assembled, FIG. 5 is a left side view of a state in which the bending angle adjusting mechanism for a lever bar according to the present invention is assembled, The angle adjusting means and the left and right bending angle adjusting means from the rear side.

The upper portion of the lower lever bar 41 hinged by the hinge pin 52a so as to be tilted forward, backward, leftward and rightward is attached to the bracket 52 on the RCV body 51 of the remote control valve 50, The bending angle adjusting member 210 is inserted into the first adjusting member receiving hole 110 from the other end where the first diameter reducing portion 215 is formed to the lower side of the bending angle adjusting mechanism body 10.

The cylindrical front and rear bending angle adjusting members 210 are inserted into the first adjusting member receiving holes 110 and are exposed downward through the front and rear bending angle adjusting openings 120 of the bending angle adjusting mechanism body 10 The upper end of the lower lever bar 41 is fastened and fixed to one side of the outer peripheral surface of the center portion of the cylindrical front and rear bending angle adjusting member 210.

For this, a male screw is formed on the upper end of the lower lever bar 41. A lower lever bar fastening hole is formed at a central portion of the cylindrical front and rear bending angle adjusting member 210 in a direction perpendicular to the central axis, A female thread is tapped on the inner side of the fastening hole.

When the bending angle adjusting mechanism body 10 and the cylindrical front and rear bending angle adjusting member 210 are rotated to be fastened to the upper end of the lower lever bar 41, the cylindrical front and rear bending angle adjusting members 210 are fixed .

In order to satisfy such a requirement, the bending angle adjusting mechanism main body 10 and the cylindrical front and rear bending angle adjusting members 210 (210) are formed in a state where the lock nut is simply coupled to the upper end of the lower lever bar 41, ) Can be rotated and fastened.

Therefore, after the cylindrical front and rear bending angle adjusting member 210 is fastened to the upper end of the lower lever bar 41 so as to be positioned in the left and right direction, When the nut is rotated, the directions of the bending angle adjusting mechanism body 10 and the cylindrical front and rear bending angle adjusting members 210 can be prevented from being changed.

However, when such a lock nut is used, it is difficult to set an accurate angle and it is difficult to separate for maintenance or the like. Therefore, it is preferable to adopt the following configuration.

That is, according to a preferred embodiment of the present invention, a first screw hole is formed in the upper end portion of the lower lever bar 41 in the left-right direction, and the cylindrical front and rear bending angle adjusting member 210 has a first diameter The first tapered bolt fastening hole 216 may be formed at a predetermined depth in the longitudinal direction of the cylindrical front and rear bending angle adjusting member 210 from the other end side where the reducing portion 215 is formed, 216 can be tapped on the inner side of the female thread.

4 to 6, the first tapered bolt fastening hole 216 may be eccentrically formed on a side surface of the other end portion where the first diameter reduction portion 215 is formed, As shown in FIG.

At this time, in a state where the cylindrical front and rear bending angle regulating member 210 is inserted into the first adjustment member accommodation hole 110, the first diameter reduction portion 215 is inserted into the hole formed by the first step portion 111 The first trough-head bolt fastening hole 216 formed on the other end side surface of the bar-like front and rear bending angle adjusting member 210 is exposed.

Accordingly, the upper end of the lower lever bar 41 is fastened to the lower lever bar fastening hole on one side of the center of the cylindrical front and rear bending angle adjusting member 210 so that the cylindrical front and rear bending angle adjusting member 210 is positioned in the left- When the tongue bolt is fastened through the first tongue bolt fastening hole 216 after the first tongue bolt through hole and the first tongue bolt fastening hole 216 at the upper end of the bar 41 are communicated with each other, 10 and the cylindrical front and rear bending angle regulating member 210 can be prevented from being changed.

Thereafter, the cylindrical left and right bending angle adjusting members 310 are inserted into the second adjusting member receiving holes 150 on the upper side of the bending angle adjusting mechanism body 10 from the other end where the second diameter reducing portions 315 are formed.

The cylindrical left and right bending angle adjusting members 310 are inserted into the second adjusting member receiving holes 150 and are exposed upward through the left and right bending angle adjusting openings 160 of the bending angle adjusting mechanism body 10 The lower end of the upper lever bar 42 fastened and fixed to the lower portion of the handle 60 is fastened and fixed to one side of the outer peripheral surface of the central portion of the cylindrical left and right bending angle adjusting member 310.

For this purpose, a male screw is formed at the lower end of the upper lever bar 42. An upper lever bar fastening hole is formed at one side of the center of the cylindrical left and right bending angle adjusting member 310 in a direction perpendicular to the central axis, A female thread is tapped on the inner side of the fastening hole.

When the handle 60 and the upper lever bar 42 are rotated to be coupled with the bending angle adjusting mechanism body 10 and the cylindrical left and right bending angle adjusting members 310, the upper lever bar 42 is inserted into the upper lever bar fastener It is necessary to prevent the handle 60 from rotating in any direction.

In order to satisfy such a requirement, the knob 60 and the upper lever bar 42 can be rotated and fastened in a state in which the lock nut is simply coupled to the lower end of the upper lever bar 42 having the male screw portion on the outer circumferential surface have.

Thus, after the lower end portion of the upper lever bar 42 is fastened to the upper lever bar fastening hole of the cylindrical left and right bending angle adjusting member 310, a pressing force is applied to one side of the outer peripheral surface of the central portion of the cylindrical left and right bending angle adjusting member 310 By rotating the lock nut, it is possible to prevent the direction of the knob 60 from being changed.

However, when such a lock nut is used, it is difficult to set an accurate angle and it is difficult to separate for maintenance or the like. Therefore, it is preferable to adopt the following configuration.

That is, according to a preferred embodiment of the present invention, a second tapered bolt through-hole is formed in the longitudinal direction at the lower end of the upper lever bar 42, and the second diameter reduction portion 315 The second tongue bolt fastening hole 316 may be formed to have a predetermined depth in the longitudinal direction of the cylindrical left and right bending angle adjusting member 310 from the other end side of the second tongue bolt fastening hole 316, The female thread may be tapped on the side.

4 to 6, the second tapered bolt fastening hole 316 may be eccentrically formed on a side surface of the other end portion where the second diameter reduction portion 315 is formed, As shown in FIG.

At this time, in a state in which the cylindrical left and right bending angle adjusting members 310 are inserted into the second adjustment member accommodation hole 150, the second diameter reduction portion 315 is inserted into the hole formed by the second step portion 151 The second trough bolt fastening hole 316 formed on the other end side surface of the cylindrical left and right bending angle adjusting member 310 is exposed.

Accordingly, the lower end of the upper lever bar 42 is connected to the upper lever bar fastening hole on one side of the central portion of the cylindrical left and right bending angle adjusting member 310 so that the second tundra bolt through-hole at the lower end of the upper lever bar 42 is positioned in the front- The first tundant bolt through-hole and the second tunduct bolt fastening hole 316 at the lower end of the upper lever bar 42 are communicated with each other and then the tundong bolt is fastened through the second tunducture bolt fastening hole 316, The direction of the handle 60 fastened to the upper end of the lever bar 42 can be prevented from being changed.

The upper lever bar 42 is fastened and fixed to the lower portion of the handle 60 and the lower end of the upper lever bar 42 is fastened to the upper lever bar fastening hole of the cylindrical left and right bending angle adjusting member 310. However, The handle 60 may be fastened to the upper end of the upper lever bar 42 by fastening and fastening it to the upper lever bar fastening hole of the cylindrical left and right bending angle adjusting member 310.

Now, a process of fixing the bending angle of the lever bar 40 to a desired angle will be described.

First, the handle 60 and the upper lever bar 42 are tilted back and forth so that the angle at which the lever bar 40 is bent in the anteroposterior direction is adjusted to a desired angle.

In this state, the plurality of first bolt holes 255 are communicated with the plurality of first coupling grooves 115, and the first serration part 211 is inserted into the first fixed serration part 251a, The first boss portion 251 of the fixing member 250 is inserted into the first adjustment member receiving hole 110 and then the bolt passing through the first bolt hole 255 is fastened to the first fastening groove 115 The first fixing member 250 is fixed to the bending angle adjusting mechanism body 10.

The first fixing member 250 is fixed to the bending angle adjusting mechanism body 10 and the cylindrical front and rear bending angle adjusting members 210 are fixed to the first fixed serration part 251a of the first fixing member 250 And the cylindrical front and rear bending angle adjusting members 210 are fixed to the first adjusting member receiving hole 110 so as not to be rotated within the first fixing member 250 by the inserted first serration unit 211 , The angle at which the lever bar 40 is bent in the forward and backward directions is kept constant.

Thereafter, the knob 60 and the upper lever bar 42 are tilted to the left and right to adjust the angle at which the lever bar 40 bends in the left-right direction to a desired angle.

In this state, a plurality of second bolt holes 355 are communicated with the plurality of second engagement grooves 155, and the second serration portion 311 is inserted into the second fixed serration portion 351a, The second boss portion 351 of the fixing member 350 is inserted into the second adjustment member accommodation hole 150 and then the bolt passing through the second bolt hole 355 is fastened to the second fastening groove 155 The second fixing member 350 is fixed to the bending angle adjusting mechanism body 10.

Therefore, the second fixing member 350 is fixed to the bending angle adjusting mechanism body 10, and the cylindrical left and right bending angle adjusting members 310 are fixed to the second fixed serration part 351a of the second fixing member 350 And the cylindrical left and right bending angle adjusting members 310 are fixed in the cylindrical left and right bending angle adjusting members 310 so as not to be rotated so that the cylindrical left and right bending angle adjusting members 310 are fixed to the second fixing member 350 by the inserted second serration unit 311 , The angle at which the lever bar 40 is bent in the left-right direction is kept constant.

The bending angle of the lever bar 40 is adjusted according to the degree of rotation of the cylindrical front and rear bending angle adjusting member 210 in the first adjusting member receiving hole 110 and the bending angle of the second adjusting member receiving hole 150 The bending angle of the lever bar 40 is adjusted according to the degree of the rotation of the cylindrical left and right bending angle adjusting members 310 in the cylinder bore 40. However, The bending direction of the cylindrical front and rear bending angle adjusting members 210 and the cylindrical left and right bending angle adjusting members 310 changes according to the degree of rotation of the cylindrical front left and right bending angle adjusting members 310. [

On the other hand, when it is desired to adjust the overall length of the operation lever, a length adjusting means may be added to the lower lever bar 41 or the upper lever bar 42.

For example, when the female screw portion is formed to a sufficient depth in the inside of the handle 60 and the lock nut is coupled to the upper end portion of the upper lever bar 42 having the male thread on the outer peripheral surface thereof, By rotating the knob 60, the overall length of the operation lever can be adjusted.

When the lock nut is rotated so that a pressing force is applied to the lower end surface of the handle 60 after the operation lever reaches a desired length, the overall length of the operation lever is fixed.

In addition to these examples, various known means of adjusting the length may be used.

The bending angle adjusting mechanism for a lever bar according to the present invention has an advantage in that the angle of bending can be adjusted according to a user's body condition or work environment, thereby facilitating the operation of the lever.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Accordingly, such modifications or changes should be construed as being included within the scope of the present invention.

1: Bending angle adjusting mechanism
10: Bending angle adjusting mechanism body
110: first adjustment member receiving hole
111: first step portion 115: first fastening groove
120: front and rear bending angle adjusting opening
150: second adjustment member receiving hole
151: second step portion 155: second fastening groove
160: right and left bending angle adjusting opening
20: Front and rear bending angle adjusting means
210: cylindrical front and rear bending angle adjusting member
211: first serration unit 215: first diameter reduction unit
250: first fixing member 251: first boss unit
251a: first fixed serration part 255: first bolt hole
30: right and left bending angle adjusting means
310: cylindrical left and right bending angle adjusting member
311: second serration section 315: second diameter reduction section
350: second fixing member 351: second boss portion
351a: second fixed serration portion 355: second bolt hole
40: lever bar
41: lower lever bar 42: upper lever bar
50: remote control valve 51: RCV body
52: push rod 53: push plate
60: Handle

Claims (7)

A bending angle adjusting mechanism (1) for a lever bar (40) comprising an upper lever bar (42) and a lower lever bar (41)
A bending angle adjusting mechanism body (10);
Rear direction bending angle adjusting means (20) for adjusting the bending angle of the lever bar (40) in the longitudinal direction;
And a left and right bending angle adjusting means (30) for adjusting the bending angle of the lever bar (40) in the left and right direction.
The method according to claim 1,
The front and rear bending angle adjusting means (20)
A cylindrical front and rear bending angle regulating member 210 having an upper end portion of the lower lever bar 41 fastened and fixed to one side in a direction perpendicular to the central axis; And
The first fixing member 250 is engaged with one end of the cylindrical front and rear bending angle adjusting member 210 and the bending angle adjusting mechanism body 10 so that the cylindrical front and rear bending angle adjusting members 210 accommodated therein are not rotated. Lt; / RTI >
The left and right bending angle adjusting means (30)
A cylindrical left and right bending angle regulating member 310 having a lower end portion of the upper lever bar 42 fastened and fixed on one side in a direction perpendicular to the central axis; And
A second fixing member 350 coupled to one end of the cylindrical left and right bending angle adjusting member 310 and the bending angle adjusting mechanism body 10 so that the cylindrical left and right bending angle adjusting members 310 accommodated therein are not rotated, And a bending angle adjustment mechanism for the lever bar.
3. The method of claim 2,
The bending angle adjusting mechanism body (10)
A first adjusting member receiving hole (110) formed in a lower side in the left-right direction and inserted and received in the cylindrical front and rear bending angle adjusting member (210);
And communicates with the first adjustment member accommodation hole (110) so that an outer surface having a lower height than the center axis of the cylindrical front and rear bending angle adjustment member (210) accommodated in the first adjustment member accommodation hole (110) A front and rear bending angle adjusting opening 120 formed;
A second adjusting member receiving hole (150) formed on the upper side in the front and rear direction and inserted and received in the cylindrical left and right bending angle adjusting member (310); And
Communicates with the second adjustment member accommodation hole (150) so that an outer surface having a height higher than the central axis of the cylindrical left and right bending angle adjustment member (310) accommodated in the second adjustment member accommodation hole (150) And a left and right bending angle adjusting opening (160) formed in the left and right bending angle adjusting openings (160).
The method of claim 3,
A first serration part 211 having a serrated tooth is formed on an outer circumferential surface of the cylindrical front and rear bending angle regulating member 210 and a first serration part 211 is formed on one side of the first fixing member 250, A first boss portion 251 formed with a first fixed serration portion 251a passing through the member 250 is formed,
A second serration part 311 having a serrated tooth is formed on one end of the cylindrical left and right bending angle adjusting member 310. A second serration part 311 is formed on an outer peripheral surface of the cylindrical left and right bending angle adjusting member 310, And a second boss portion (351) formed with a second fixed serration portion (351a) passing through the member (350) is formed.
5. The method of claim 4,
The first diameter reducing portion 215 is formed at the other end of the cylindrical front and rear bending angle adjusting member 210 and the first diameter reducing portion 215 is inserted into one side of the first adjusting member receiving hole 110 The first step portion 111 is formed,
A second diameter reduction portion 315 is formed at the other end of the cylindrical left and right bending angle adjusting member 310 and the second diameter reduction portion 315 is inserted into one side of the second adjustment member receiving hole 150 Wherein the second stepped portion (151) is formed on the second stepped portion.
6. The method of claim 5,
A plurality of first coupling grooves 115 are formed at a predetermined depth on a side surface of the bending angle adjusting mechanism main body 10 in contact with the first fixing member 250, A plurality of first bolt holes 255 corresponding to the first fastening recesses 115 of the first fastening bolt are formed,
A plurality of second coupling grooves 155 are formed at a predetermined depth on the side surface of the bending angle adjusting mechanism main body 10 in contact with the second fixing member 350 and the plurality Is formed with a plurality of second bolt holes (355) corresponding to the second fastening groove (155) of the lever bar.
The method according to claim 6,
A set screw through-hole is formed in the upper end of the lower lever bar 41 in the left-right direction. The cylindrical front and rear bending angle adjusting member 210 is provided with a first diameter reducing portion 215, A first trough-bolt fastening hole 216 having a predetermined depth in the longitudinal direction from the side surface is formed,
A second tapered bolt through-hole is formed in the lower end portion of the upper lever bar 42. A cylindrical tapered bolt through-hole is formed in the cylindrical left and right bending angle adjusting member 310 from the side of the other end where the second diameter reducing portion 315 is formed, And a second tapered bolt fastening hole (316) having a predetermined depth is formed in the second tapered bolt fastening hole (316).

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