KR20150009735A - Telescopic Extension Pipe - Google Patents

Abstract

The present invention relates to a telescopic extendable pipe that can slide an inner pipe inside an outer pipe in an overlapped state to vary the length thereof. The telescopic extendable pipe includes an inner pipe (3) formed with a plurality of locking grooves (11); an outer pipe (5) slidably engaged to the inner pipe (3); and a locker (7) locked to or unlocked from the locking grooves (11) to lock or unlock the inner pipe (3) and the outer pipe (5). The locker (7) has a guide tube (21) for guiding the sliding movement of the inner pipe (3), a stopper (23) protruding toward the inner surface of the guide tube (21) to be locked to or unlocked from the locking groove (11), a holding portion (25) engaged to the guide pipe (21) to be able to reciprocate in the longitudinal direction, a pressing boss (27) for locking or unlocking the stopper (23) to or from the locking groove (11), a return member (29) compressed or restored by the holding portion (25) to return the holding portion (25) to its original position, and a holding portion guide (31) for guiding the holding portion (25) to be able to reciprocate in a state in which the holding portion is not rotated from the outer surface of the guide pipe (21). Since the holding portion is guided by the holding portion guide and is moved along the guide pipe in the state of being not rotated, the stopper is smoothly pressed and is locked to or unlocked from the locking groove.

Description

Telescopic Extension Pipe

The present invention relates to a telescopic extension pipe, and more particularly, to a telescopic extension pipe capable of stretching and varying a length of an inner pipe while sliding in an inner side of an outer pipe in an overlapping state.

Generally, the extension pipe is connected to the suction hose of the vacuum cleaner which sucks dust or trash from the bottom surface through the negative pressure of the vacuum pump, and is used as the length of the user is increased or decreased as needed.

As an extension of the prior art, Korean Patent No. 10-1135704, filed by the applicant of the present invention and registered as a patent, has a new suction pipe of a vacuum cleaner. The expansion pipe of the prior art includes an inner tube 210 having a plurality of pitch grooves 217 on the outer circumferential surface, as shown by 201 in Fig. An outer tube 230 into which the inner tube 210 is movably inserted and a stopper 261 inserted into the pitch groove 217 are protruded from the inner circumferential surface so that the length of the inner tube 210 is changed into a multi- And an adjustable handle assembly 250. [

1, the handle assembly 250 includes a guide tube 260 protruding from the inner circumferential surface of the stopper 261 while being connected to the outer tube 230; And a body 270 fitted on the outer circumferential surface of the guide tube 260.

As the stopper 261 is pressed by the inner circumferential surface of the body 270 and inserted into the pitch groove 217, the pipe 210 of the prior art is fixed to the outer tube 230 with the length of the inner tube 210 adjusted The stopper 261 is released by the movement of the body 270 and the stopper 261 is separated from the pitch groove 217 so that the inner tube 210 is slid along the inner peripheral surface of the outer tube 230 do.

However, since the body 270 fitted on the outer circumferential surface of the guide tube 260 is likely to rotate along the circumferential direction of the guide tube 260 while being moved by the user, There is a problem that pushing or releasing of the stopper 261 can not be performed smoothly.

As shown in FIG. 1, the elastic pipe of the prior art is configured to move the body 270 to the original position through the elastic force of the spring as the spring clamp 280 is provided. However, since the structure of the spring clamp 280 is complicated So that the assembly is difficult and the manufacturing cost is increased.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the problems of the prior art as described above, and it is an object of the present invention to guide a grip portion gripped and moved by a user in order to release pressure of a stopper.

Further, the present invention has another object to simplify the overall configuration as the configuration for moving the gripper portion to the original position is simplified.

In order to achieve the above object, the present invention provides an internal tube having a plurality of latching grooves formed at predetermined intervals along a longitudinal direction of an outer peripheral surface thereof; An outer tube in which the inner tube is inserted in an overlapping state so as to be slidably engaged; And a locker provided at one end of the outer tube to lock or unlock the inner tube and the outer tube by being engaged or disengaged with the retaining groove while guiding the sliding movement of the inner tube, The rocker is coaxially coupled to one end of the outer tube to guide the sliding movement of the inner tube; A stopper inserted into the guide tube so as to protrude radially and to be engaged with the guide groove when the guide tube is protruded to the inner circumferential surface of the guide tube and to be released from the guide groove when the guide tube is protruded from the outer circumferential surface; A gripper which surrounds the stopper and the guide tube and is reciprocally coupled to the guide tube in a longitudinal direction; Wherein the stopper is engaged with the stopper when the stopper is protruded from the inner circumferential surface of the gripper portion and the stopper is released from the stopper when the stopper is moved back and forth together with the gripper, ; A returning member which is compressed when the gripping part is reciprocated by an external force, is restored when the external force is released, and returns the gripping part to the original position; And a grip portion guide for guiding the grip portion to reciprocate in a state that the grip portion is prevented from rotating on the outer circumferential surface of the guide tube.

The grip portion guide may include: a centering protrusion protruding in the longitudinal direction on the inner circumferential surface of the grip portion; And a protrusion holder formed concavely on an outer circumferential surface of the guide tube and slidably engaged with the centering protrusion.

The return member may include a return spring for elastically supporting the grip portion and the guide tube so that the grip portion and the guide tube are compressed when the reciprocating movement of the grip portion and the guide tube is restored when the external force is removed; And a spring holder for supporting the return spring in a state interposed between the grip portion and the guide tube and compressing the return spring in accordance with the movement of the grip portion.

The spring holder may include a spring receiving groove formed on an outer circumferential surface of the guide tube so as to be concave along the longitudinal direction and receiving the return spring in a state in which the return spring is supported at both ends while being partially exposed; And a spring pressing protrusion provided on an inner circumferential surface of the gripping portion in a state of being opposed to the support wall and supporting the both end portions of the return spring together with the spring receiving groove but compressing the return spring while moving together with the gripping portion .

In addition, the spring holder is formed by recessing along the longitudinal direction on the outer circumferential surface of the guide tube and supporting the return spring at both ends by the support wall, wherein a notch is formed at the middle portion including the longitudinal center line of the support wall A spring receiving groove formed; And a spring pressing projection which is provided on an inner circumferential surface of the grip portion to be inserted into the cutout portion and which supports both end portions of the return spring together with the spring receiving groove and compresses the return spring while moving together with the grip portion desirable.

According to the extension / contraction tube of the present invention, since the gripping part constituting the locker is guided by the gripping part guide, the gripping part is moved along the guide tube in a state of being prevented from rotating, so that the gripping part is positioned By linear reciprocating movement, the stopper can be smoothly pressurized or released to release the engagement or disengagement of the engagement groove.

Specifically, since the grip portion guide is constituted by the centering protrusion provided on the inner circumferential surface of the grip portion and the protrusion holder provided on the outer circumferential surface of the guide tube, the grip portion can move along the protrusion holder through the centering protrusion and reciprocate in a straight line, The stopper can be accurately pressed or released while the protrusion moves in a straight line.

In addition, since the spring holder constituting the return member is constituted by the spring receiving groove and the spring holding protrusion, both ends of the return spring are simultaneously supported, and the biasing movement of the holding portion can be allowed. It becomes possible to provide an elastic force while being compressed.

Also, since the latching grooves of the inner tube are arranged in pairs on the same line in the circumferential direction, the angle is maintained within the range of 180 DEG, preferably in the range of 10 to 130 DEG, more preferably 90 DEG, It is possible to smoothly carry out the work process of the press working for forming the latching groove in the inner tube.

In addition, since the spring pressing protrusion for compressing the return spring received in the spring receiving groove while moving together with the grip portion and the support wall for supporting the return spring are longitudinally divided and the spring pressing protrusion is inserted into the notch in the middle of the support wall, The spring pressing protrusions and the support walls of the spring receiving grooves symmetrically symmetrically with respect to the central axis, and presses the return spring. Therefore, even when the apparatus is used for a long period of time, the return spring can maintain its uniformity without being distorted right and left.

1 is an exploded perspective view showing an extension pipe of the prior art;
2 is an exploded perspective view illustrating a telescopic extension tube according to an embodiment of the present invention;
3 is an exploded perspective view showing the locker of FIG. 2 in an enlarged scale;
Fig. 4 is a longitudinal view illustrating the operation of the locker shown in Fig. 3; Fig.
5 is a bottom perspective view of Fig. 3;
FIG. 6 is a cross-sectional view showing the engagement between the inner tube and the stopper shown in FIG. 2;
Fig. 7 is a longitudinal sectional view for explaining the operation of the return member shown in Fig. 2; Fig.
8 is a perspective view of a guide tube applied to a telescopic extension tube according to another embodiment of the present invention;
9 is a cross-sectional view showing the state where the stopper shown in FIG. 8 is engaged with the inner tube.
Fig. 10 is a longitudinal sectional view for explaining the operation of the return member shown in Fig. 8; Fig.

Hereinafter, a telescopic extension pipe according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The expansion and contraction tube of the present invention comprises an inner tube 3, an outer tube 5, and a locker 7, as indicated by reference numeral 1 in Fig.

Here, the inner tube 3 is a tube for attaching the suction member of the vacuum cleaner to the lower end when the extension tube 1 is used as a suction pipe of a vacuum cleaner. As shown in FIG. 2, . Therefore, as the inner tube 3 slides in the longitudinal direction of the outer tube 5, the entire length of the stretch expansion tube 1 is expanded and contracted.

As shown in FIG. 2, the inner tube 3 is formed with a plurality of recessed grooves 11, which are concave and groove-shaped, at equal intervals in the longitudinal direction on the outer circumferential surface. Also, the inner tube 3 is provided with a rail 13 having a concave groove in the longitudinal direction on the outer circumferential surface thereof, and is slid in a state of being positioned along the guide tube 21. At this time, the inner tube 3 is provided with a packing pipe (not shown) on the outer circumferential surface at one end to maintain airtightness with the outer tube 5.

The outer tube 5 is a tube body whose main body of the vacuum cleaner is connected to the other end when the extension and extension tube 1 is used as a suction tube of a vacuum cleaner. And forms a single tube with the inner tube 3 as it is joined in the superposed state. The outer tube 5 is provided at one end with a fixing groove 15 and a fixing hole 17 for integrally connecting the guide tube 21.

The locker 7 is an element which is engaged or disengaged with the engaging groove 11 of the inner tube 3. The outer tube 5 is provided to guide the sliding movement of the inner tube 3, Lt; / RTI >

2 and 3, the locker 7 includes a guide pipe 21, a stopper 23, a gripper 25, a pressing projection 27, a return member 29, And a paper guide (31).

2, the guide tube 21 is integrally fixed to the outer tube 5 through the fixing groove 15 and the fixing hole 17 provided in the outer tube 5, And guiding the sliding movement of the inner tube 3. 3, a guide projection 33 protrudes along the longitudinal direction on the inner circumferential surface of the guide tube 21 and is moved along the rail 13 in a state of being fitted in the rail 13 of the inner tube 3, do. 3, a stopper projection 37 protrudes from an end of the pilot hole 35. The stopper projection 37 prevents the stopper 23 from coming off At the same time, the slide projection of the pressing projection 27 is guided.

The stopper 23 is a component for locking the inner tube 3 to the outer tube 5. The stopper 23 is mounted on the guide tube 21 in a radial direction so as to protrude / (11) of the housing (3) or released from the engagement groove (11). 3, the stopper 23 is detachably inserted into the air hole 35 formed in the guide tube 21 and protrudes to the inner circumferential surface of the guide tube 21. The stopper 23 is inserted into the air hole 35, As shown in Fig. 6, is formed through the guide tube 21 in a straight line position facing each other.

Therefore, the stopper 23 is snapped in the engagement groove 11, and the engagement with the engagement groove 11 is released while projecting to the outer peripheral surface of the guide tube 21. [ Here, the shape and configuration of the air defense hole 35 are the same as those of the prior art of the applicant of the present invention, and a detailed description thereof will be omitted. However, as shown in FIG. 4, the stopper 23 and the engaging groove 11 are formed in an arc shape so as to face each other, so that mutual engagement and disengagement are smoothly performed.

4, the gripper 25 is a member which is held and reciprocated by the user in a closed state, and is engaged with the stopper 23 and the guide tube 21 so as to surround the guide pipe 21. [ (21). 3, the grip portion 25 is formed so as to be divided into an inner tube 3 and an outer tube 5, and when engaged with each other as shown in FIG. 4, the stopper 23 And the guide tube 21, as shown in Fig. In this state, it is grasped by the user and moved toward the inner tube 3 or the outer tube 5.

The pressing projection 27 protrudes from the inner peripheral surface of the grip portion 25 as shown in Fig. 3 as a means for pressing or releasing the stopper 23 in the grip portion 25. As shown in Fig. Therefore, the pressing projection 27 reciprocates together with the grip portion 25 to press the stopper 23 or release the pressing of the stopper 23. That is, the pressing projection 27 presses the stopper 23 to engage with the engaging groove 11, as shown in Fig. 4 (a). 4 (b), the pressing projection 27 reciprocates in the longitudinal direction of the guide tube 21 due to the reciprocating movement of the gripper 25, so that the pressing of the stopper 23 When the stopper 23 is disengaged, the engagement between the stopper 23 and the engagement groove 11 is released. 3, the pressing protrusions 27 can be smoothly pressed by the inclined surfaces formed on both sides of the stopper 23, and the stopper protrusions 37 are inserted into the pressing protrusions 27 .

The return member 29 is a member for returning the grasping portion 25 and the pressing projection 27 moved by the user by providing an elastic force to the grasping portion 25, A return spring 43, and a spring holder 45. [0035] Here, as shown in Figs. 5 and 7, the return spring 43 provides an elastic force while elastically supporting the grip portion 25 and the guide tube 21, for example, a coil spring . The return spring 43 is compressed when the gripper 25 and the guide tube 21 reciprocate by the external force and returns the gripper 25 and the guide tube 21 to the original position when the external force is removed . 7, the spring holder 45 accommodates the return spring 43 in the state where it is interposed between the grip portion 25 and the guide tube 21, The return spring 43 is compressed.

The spring holder 45 may be configured to include a spring receiving groove 45a and a spring pressing protrusion 45b, for example, as shown in Fig. 5, the spring receiving groove 45a is formed in a groove shape along the longitudinal direction on the outer circumferential surface of the guide tube 21 to receive the return spring 43, And supports both ends of the return spring 43 by the spring 46. As shown in FIG. 5, the spring receiving groove 45a receives the return spring 43 in an exposed state as the support wall 46 is formed in a semicircular shape. As shown in FIG. 7, (43). 5, the spring pressing projection 45b is protrudingly formed on the inner peripheral surface of the grip portion 25 so as to face the support wall 46 of the spring receiving groove 45a as shown in Fig. 7 And supports the other end portions of the return spring 43. The return spring 43 is pressed and compressed in accordance with the movement of the grip portion 25 by the external force. That is, as shown in Fig. 7 (a), the return spring 43 is supported at the same time by a part of both ends thereof by the spring receiving groove 45a and the spring pressing protrusion 45b, As shown in the figure, the spring 25 is compressed by the spring pressing projection 45b while allowing the movement of the grip portion 25 in both directions to provide an elastic force.

The gripper 25 releases the pressing of the stopper 23 by the pressing projection 27 while moving to the side of the inner tube 3 or the outer tube 5 by the user, And the stopper 23 is pressed through the pressing projection 27 while being returned to the original position by the elastic force of the return spring 43 so that the inner tube 3 is locked again in the guide tube 21 do.

The grip portion guide 31 is a component for guiding the reciprocating movement of the grip portion 25 while coupling the grip portion 25 to the outer circumferential surface of the guide tube 21 in a state of being prevented from rotation, And may include a centering projection 47 and a projection holder 49 as shown. At this time, the centering protrusion 47 protrudes along the longitudinal direction on the inner peripheral surface of the grip portion 25 as shown in Fig. 3, the projection holder 49 is formed in the shape of a groove along the longitudinal direction on the outer circumferential surface of the guide tube 21, so that the centering projection 47 is slidably engaged. That is, since the grip portion 25 slides in the state of being fitted in the projection holder 49 through the centering projection 47, the grip portion 25 stably moves without being rotated in the circumferential direction of the guide tube 21 when moved by the user .

Meanwhile, a guide tube 121 according to another embodiment of the present invention is shown in Fig. As shown in the drawing, the guide pipe 121 has an angle of an angle of the aperture hole 135, and the angle of the stopper 123 inserted into the aperture hole 135 is also a right angle. 9, the latching grooves 111 of the inner tube 103 to which the stopper 123 is engaged are also angled at an angle. Accordingly, the pair of right and left latching grooves 111 are located within a range of 180 degrees. The angle of the stopper 123 and the escape hole 135 as well as the latching grooves 111 are preferably in the range of 10 to 130 degrees Lt; RTI ID = 0.0 > 90, < / RTI > Accordingly, it is possible to more smoothly perform the press working process for forming the engaging groove 111 in the inner tube. If the angle is less than 10 degrees, the engaging groove 111 having a certain length in the circumferential direction, It is not possible to arrange the aperture stop 135 or the stopper 123 in pairs, and if it exceeds 130 degrees, the engaging groove 111 can not be formed into a single press die.

8 and 9 show a return member 129 according to another embodiment of the present invention in which the return spring 143 and the spring holder 145 ). Here, as shown in the figure, the return spring 143 provides an elastic force while elastically supporting the grip portion and the guide tube 121, and may be constituted by a coil spring, for example. 8 and 10, the spring holder 145 supports the return spring 143 so as to be interposed between the grip portion and the guide tube 121 so that the grip portion, that is, the spring pressing protrusion 145b The return spring 143 is compressed.

8 and 10, the spring holder 145 may include a spring receiving groove 145a and a spring pressing protrusion 145b. At this time, as shown in the figure, the spring receiving groove 145a is formed on the outer circumferential surface of the guide tube 121 along the longitudinal direction to receive the return spring 143. At this time, both ends of the return spring 143 are supported by the support wall 146 formed at both ends in the radial direction. 8, a notch 148 in the form of a doorkail is formed at an intermediate portion including the longitudinal center line of the support wall 146 so that the radius of the return spring 143 Direction only. Also. 8 and 10, the spring pushing protrusion 145b protrudes from the inner circumferential surface of the gripping portion and is interposed in the cutout 148 between the support walls 146, And the return spring 143 is pressed and compressed in accordance with the movement of the grip portion. 10 (a), the return spring 143 is supported at both ends by the spring receiving groove 145a and the spring pressing protrusion 145b at the same time, so that the movement of the grip portion is permitted in both directions , As shown in Fig. 10 (b), is pressed and compressed by the spring pressing protrusion 145b at the same time as the grip portion is moved.

Now, the operation of the extension and contraction tube 1 according to the preferred embodiment of the present invention will be described as follows.

The expansion and contraction tube 1 of the present invention is configured such that the initial stopper 23 protrudes to the inner circumferential surface of the guide tube 21 as it is pressed by the pressure projection 27 as shown in Fig. 3 so that the inner tube 3 is locked to the guide tube 21 and the outer tube 5.

4 (b), when the length of the inner tube 3 is increased or decreased, the user pulls the grip portion 25 toward the outer tube 5 or moves toward the inner tube 3 The pressing projection 27 is moved. At this time, the grip portion 25 moves along the protrusion holder 49 through the centering protrusion 47, and thus moves linearly without being rotated in the circumferential direction of the guide tube 21. [

4 (b), the presser protrusion 27 moves away from the stopper 23 while moving together with the gripper 25, and the stopper 23 is located outside the outer circumferential surface of the guide tube 21 So that the inner tube 3 is unlocked from the guide tube 21 and the outer tube 5. [ At this time, the spring pressing projection 45b compresses the return spring 43 while moving together with the grip portion 25, as shown in Fig. 7 (b).

The user then draws the inner tube 3 to the inside of the outer tube 5 to shorten the length of the inner tube 3 or pulls the inner tube 3 out of the outer tube 5, 3 is extended and then the grip portion 25 is placed. At this time, as shown in Fig. 7 (a), the gripper 25 returns to the home position as the spring presser protrusion 45b is pressed by the return spring 43 and returns the presser protrusion 27 to the home position .

4 (a), the stopper 23 presses the stopper 23 in close contact with the gripper 25 while moving the stopper 23 in the home position, Protrudes from the inner circumferential surface of the guide tube 21 and is inserted into the retaining groove 11 of the inner tube 3 and engaged. The inner tube 3 is locked to the guide tube 21 and the outer tube 5 with the length thereof adjusted by the engagement of the stopper 23 and the engagement groove 11. [

As described above, according to the extension / extension pipe 1 of the present invention, since the grip portion 25 constituting the locker 7 is guided by the grip portion guide 31, the grip portion 25 is prevented from rotating The stopper 23 moves smoothly as the gripper 25 moves along the guide tube 21 and moves linearly in a state where the gripper 25 is properly positioned on the outer peripheral surface of the guide tube 21, 11 or may be released.

That is, since the gripper guide 31 is constituted by the centering protrusion 47 provided on the inner peripheral surface of the gripper 25 and the protrusion holder 49 provided on the outer peripheral surface of the guide tube 21, The pressing protrusion 27 can be moved linearly along the protrusion holder 49 through the centering protrusion 47 so that the pressing protrusion 27 can be moved in a straight line to accurately press the stopper 23 or release the pressing of the stopper 23. [ have.

The spring holder 45 constituting the return member 29 is constituted by the spring receiving groove 45a and the spring pressing protrusion 45b and simultaneously supports the both end portions of the return spring 43, The return spring 43 can be smoothly compressed in accordance with the movement of the gripper 25, thereby providing an elastic force.

When the stopper 123 is disengaged from the stopping groove 111 and the stopper 123 is disengaged from the stopper 123 by the extension and contraction pipe according to the other embodiment of the present invention, 121 and the outer tube are unlocked. At this time, the spring pressing protrusion 145b compresses the return spring 143 while moving together with the grip portion, as shown in FIG. 10 (b).

At this time, as shown in FIG. 10 (b), the return spring 143 has one end, that is, the left end in the drawing by the spring pressing protrusion 145b, and the other end, The spring pressing protrusion 145b and the spring receiving groove 145a are symmetric with respect to the center axis and press the return spring 143, Unlike the return spring 43 shown in Fig. 7 in which a time warp occurs, the return spring 143 can be uniformly compressed without collapsing to the left or right with respect to the central axis, Endurance performance can be obtained.

8 and 9, since the pilot hole 135 for inserting the stopper 123 into the guide tube 121 is located at the upper half of the guide tube 121 at an interval of 90 degrees in the circumferential direction, The inner diameter of the inner tube 103 is smaller than that of the inner tube 3 shown in Fig.

1: extension tube 3: inner tube
5: outer tube 7: rocker
11: latching groove 13: rail
21: guide tube 23: stopper
25: grip part 27: pressing projection
29: return member 31: grip unit guide
33: guide projection 43: return spring
45: spring holder 47: centering projection
49: projection holder

Claims (6)

An inner tube having a plurality of latching grooves formed at predetermined intervals along the longitudinal direction of the outer peripheral surface;
An outer tube in which the inner tube is inserted in an overlapping state so as to be slidably engaged; And
And a locker provided at one end of the outer tube for locking or unlocking the inner tube and the outer tube by being engaged or disengaged with the retaining groove while guiding the sliding movement of the inner tube,
Wherein the locker comprises:
A guide tube coupled coaxially to one end of the outer tube to guide sliding of the inner tube;
A stopper inserted into the guide tube so as to protrude radially and to be engaged with the guide groove when the guide tube is protruded to the inner circumferential surface of the guide tube and to be released from the guide groove when the guide tube is protruded from the outer circumferential surface;
A gripper which surrounds the stopper and the guide tube and is reciprocally coupled to the guide tube in a longitudinal direction;
Wherein the stopper is engaged with the stopper when the stopper is protruded from the inner circumferential surface of the gripper portion and the stopper is released from the stopper when the stopper is moved back and forth together with the gripper, ;
A returning member which is compressed when the gripping part is reciprocated by an external force, is restored when the external force is released, and returns the gripping part to the original position; And
And a grip portion guide for guiding the grip portion to reciprocate while being prevented from being rotated on an outer circumferential surface of the guide tube. The method according to claim 1,
The grip portion guide
A centering protrusion protruding along the longitudinal direction on the inner peripheral surface of the grip portion; And
And a protrusion holder formed concavely on an outer circumferential surface of the guide tube and engaged with the centering protrusion so as to be slidably engaged. The method according to claim 1,
The return member
A return spring for elastically supporting the grip portion and the guide tube so that the grip portion and the guide tube are compressed when the reciprocating movement of the grip portion and the guide tube is restored when the external force is removed; And
And a spring holder for supporting the return spring in a state interposed between the grip portion and the guide tube and compressing the return spring in accordance with movement of the grip portion. The method of claim 3,
The spring holder
A spring receiving groove formed in the outer circumferential surface of the guide tube so as to be concave along the longitudinal direction and receiving the return spring at both ends while being partially exposed by the support wall; And
And a spring pressing projection which is provided on an inner circumferential surface of the grip portion in a state of being in contact with the support wall and which supports both end portions of the return spring together with the spring receiving groove and compresses the return spring while moving together with the grip portion Extension tube that features. The method of claim 3,
The spring holder
A spring receiving groove formed on an outer circumferential surface of the guide tube so as to be recessed in a longitudinal direction and supporting the return spring at both ends by a support wall, the spring receiving groove having a cutout at an intermediate portion including a longitudinal centerline of the support wall; And
And a spring pressing projection which is provided on an inner circumferential surface of the grip portion to be inserted into the notch portion and which supports both end portions of the return spring together with the spring receiving groove and compresses the return spring while moving together with the grip portion. New extension pipe to make. The method according to any one of claims 1 to 5,
The stopper, the stopper, the stopper, and the stopper are inserted at the same angle, and the angle of the stopper is 10 to 130 DEG Extension tube that features.

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