JPH11300305A - Coil-shaped wire locking device for pipe inside cleaning device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To instantaneously lock and unlock coil-shaped wire and to stabilize locking. SOLUTION: A wire passing body 22 having a passage 23 mounted on a housing case in a removable way to allow coil-shaped wire to pass is provided. And on one side thereof, a rotatable lever is provided, and near the fulcrum of rotation of the lever, a locking pawl which can be caught between adjacent coils of the coil-shaped wire 4 when rotating this is provided. Since by pushing or pulling the lever to rotate it by a prescribed angle, the coil-shaped wire can be instantaneously locked or unlocked, operability or handleability of a device for cleaning the pipe interior is improved. And because of the lock by being caught, its stability can be attained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an in-pipe cleaning apparatus used for cleaning pipes, such as for removing adhering matter or blockage (foreign matter) in pipes such as drain pipes in buildings and the like.

[0002]

2. Description of the Related Art Conventionally, there is a pipe cleaning apparatus of this type (hereinafter, also referred to as an apparatus) shown in FIG. Although not shown in detail, the apparatus 100 is configured to house a flexible helical coil-shaped wire 4 in a housing case 2 rotatably fixed to the front and back on a base 1. I have. The housing case 2 is provided with a handle 6 for rotating the shaft 5 on the back side, and a hollow shaft 7 through which the coiled wire 4 passes and the shaft 2 is rotatably fixed on the front side.
It has. As shown in FIGS. 13 and 14, a coiled wire (hereinafter, also simply referred to as a wire) 4 is passed through the end of the hollow shaft 7, and the coiled wire 4 has an axis (length) when used. A lock device (means) 11 for locking the length so as not to move in the direction is provided. The lock device 11 is provided with the coiled wire 4.
Cylindrical wire passing body 1 connected to hollow shaft 7 through which
The screw hole 13 is provided through the side wall of
A locking set screw 14 with a grip portion is mounted on the coiled wire, and the screw is screwed so that its tip presses and locks the outer peripheral surface of the coiled wire 4 passing therethrough. I have.

[0003] Such an in-pipe cleaning device 100
Pulls out the coiled wire 4 by a predetermined length under the condition that the locking set screw 14 is retracted to be in the unlocked state,
Thereafter, the locking set screw 14 is appropriately screwed (rotated) to lock (fix) the amount of withdrawal at an arbitrary length, and the handle 6 is rotated below the set amount so that the housing case 2 and the wire passing body 12 are further rotated. Is configured so that the coiled wire 4 and the like rotate integrally with the base 1. The specific usage of the device 100 is as follows.

[0004] That is, in using the wire 4, the operator pulls out the wire 4 and attaches the attachment 4 at the tip.
a is manually inserted or pushed into a drainage horizontal branch pipe of a portion to be cleaned, for example, from a nearby cleaning port or drainage port. . At this time, 9
If there is a large direction change (bend) portion such as a 0-degree elbow, the attachment 4a of the coiled wire 4 hits that portion and is caught, and cannot be advanced simply by pushing it in, or can be advanced by hitting a foreign object. May disappear.

Therefore, in such a case, the coiled wire 4 is pushed in the axial direction so as to be unnecessarily extended, and under this condition, the locking set screw 14 is screwed to extend the length of the coiled wire 4. , And the handle 3 of the housing case 2 is rotated while the coiled wire 4 is compressed in the axial direction, that is, while the wire 3 is being pushed slightly. By doing so, the coiled wire 4 moves so as to rotate about its axis, so that the bent portion that has been caught can be cleared or the foreign object can be advanced. Thus, when the coiled wire can be further pushed in, the locking set screw is screwed out again to unlock the coiled wire, and the coiled wire is appropriately fed out and pushed in. Foreign matter in the branch pipe is dropped into the vertical pipe to remove it.

[0006]

The conventional device 100
It is necessary to repeatedly lock and unlock the length of the coiled wire 4 due to its usage. Such an operation is frequently required when the pipe has many bent portions. However, in the device 100, the operation is performed by rotating the lock set screw 14 to advance or retreat, so that the operation is troublesome. Moreover, the work cannot be performed quickly because the screw needs to be rotated,
There was a problem that the usability was poor and the quickness of cleaning the inside of the pipe was impaired.

In such a locking method, the fixing force depends on the friction between the outer peripheral surface of the coiled wire 4 and the tip of the set screw 14. Therefore, the fixing force is not sufficient or tends to be unstable. When the coiled wire 4 is compressed in the axial direction, a slip is caused by the compressive force, and the coiled wire 4 is pushed back unexpectedly, and again. In some cases, it was necessary to repeatedly press and lock the lock.

The present invention has been devised in view of the above-mentioned problems of the conventional coiled wire locking device in the in-pipe cleaning device.
An object of the present invention is to enable instantaneous locking and unlocking of a coiled wire and to stabilize the locked state.

[0009]

According to the first aspect of the present invention, there is provided a lock device for a coiled wire in an in-pipe cleaning device according to the first aspect of the present invention, wherein a coiled wire provided so as to be able to enter and exit a housing case passes therethrough. The wire passing body provided with a passing portion which is provided with a rotatable (swingable) lever on one side thereof, and the lever can be cut between adjacent coils of the coiled wire when the lever is turned. Characterized in that a locking claw is provided. In the present specification, the coiled wire refers to a wire that has a coil spring shape and is generally linear.

According to the first aspect of the present invention, the lever is rotated at an appropriate position so that the locking pawl provided on the lever bites between adjacent coils. By pushing or pulling to rotate by a predetermined angle, the length of the coiled wire can be instantaneously locked. Therefore, the operability and usability of the in-pipe cleaning device are significantly improved. In addition, since the locking claw has a structure in which it bites between the adjacent coils, it is possible to effectively prevent the locking state from being unlocked unexpectedly as compared with the conventional locking by the friction of the tip of the locking screw. You.

In the above means, it is preferable that the locking claw is provided near a pivot of the lever. In this way, the principle of leverage can be effectively used, and the force required for operating (rotating) the lever can be reduced. Note that the locking claw may be provided near the pivot of the lever,
It may be on the end side of the grip portion of the lever from the fulcrum or on the opposite side.

In the above-mentioned means, when the locking claw is bitten between adjacent coils of the coiled wire, when the locking claw collides with the coil, the locking claw slides and cuts between the adjacent coils. It is preferable that the pivot point of the lever is loosely formed so as to be inserted. Here, the term “loose” means a state in which the shaft forming the rotation fulcrum and the hole are loosely fitted to each other, that is, there is so-called rattling (play). With this configuration, even when the locking claw abuts on the coil, the locking claw can slide and easily bite between the adjacent coils because of the backlash.

A recess is provided on at least one side of the lever in the rotation direction, and when the locking claw of the lever bites between adjacent coils, the lever is constantly urged toward the recess, and It is preferable to provide a lock state holding means configured such that the tip of the convex part having a substantially convex spherical shape enters the concave part and holds the locked state. With this configuration, the locking claw is more effectively prevented from coming off or being pushed out. The locking claw may be of a throw-away (disposable) type. This is because if the locking claw is worn, it is only necessary to replace the worn one, and it is not necessary to grind the locking claw.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments according to the present invention will be described in detail with reference to FIGS. FIG. 1 shows the entire in-pipe cleaning device 100, which includes a thick circular hollow housing case 2 rotatably fixed to the front and rear on a frame-shaped base 1 and a rear shaft (FIG. 1). (Not shown), a handle 6 for rotating the storage case 2 is attached.
The hollow shaft 7 on the front side is fixed by a bearing 1 a of the base 1. Although not shown in detail in the housing case 2, a coiled wire (for example, a piano wire (steel wire) having a thickness of about 2 mm) having an attachment 4a for removing an obstruction at a tip thereof has a diameter of 8 to 10 mm. The housing case 2 is formed by passing a wire (closely wound in a spiral shape) 4 through the inside of the hollow shaft 7.
It is comprised so that it may be accommodated in. And the hollow shaft 7
A lock device 21 for locking the coiled wire 4 is provided at the outer end of the lock member as follows (see FIGS. 2 to 6).

That is, in the drawing, reference numeral 21 denotes a lock device, which is fixed to the end of the hollow shaft 7 rotatably fixed by the bearing 1a of the base 1 as shown in FIG. The main body is formed as follows with a wire passing body 22 formed so as to rotate integrally therewith. That is, the wire passing body 22 has a slightly larger diameter than the outer diameter of the wire 4 so that the hollow portion 23 in the axial direction forms a passage portion of the coiled wire 4 based on a substantially cylindrical body. Also, one side (upper in FIG. 3) of the hollow portion 23 (also referred to as the passage portion 23) forming the passage portion is opened (released) with a constant width slightly smaller than its inner width (inner diameter) (see FIGS. 5 and 6). The outside of both sides 24 of the opening is cut into an L-shaped cross section, and is formed into a substantially U-shaped or bifurcated cross section. The end portion of the wire passing body 22 near the hollow shaft 7 of the passage portion 23 forms a large diameter portion 25, and the large diameter portion 25 is externally fitted to the hollow shaft 7, and is screwed by a screw member (cap bolt) 26. It is integrated with the hollow shaft 7. However, this fixation is performed for the large diameter portion 25.
A screw hole 28 is formed in the hollow shaft 7 corresponding to the hole 27 formed in the radial direction, and a cap bolt is screwed in a truncated shape to achieve the integration.

A lever 31 is rotatably fixed to an opening on one side of the wire passage body 22 as described below. That is, in this example, the spring pin 41 is inserted into and fixed to the through-hole 42 provided in the bifurcated side portion 24 so as to bridge the opening so as to form a pivot point. A lever 31, which is bent into a substantially rectangular shape and has a gripping ball 32 fixed at the distal end thereof, is provided on the spring pin (referred to as a rotation support shaft) 41, and a support shaft hole provided at the base end thereof. It is attached so that 33 passes. However, in the present example, a locking claw clamp member 34 having a substantially L-shape as viewed from the side (in FIGS. 3 and 4) and having a constant thickness is provided at the base end of the lever 31.
The support hole 33 is provided in the thickness direction.

The locking claw clamp member 34 has a thickness slightly smaller than the width of the opening, and has a mounting hole 36 on the upper surface. The base end of the lever 31 is inserted into the mounting hole 36 and a pin 37 is inserted. The supporting hole 33 is provided on the long side of the locking claw clamp member 34 in FIGS. 3 and 4, and is formed in an oval or elliptical shape that is long in the horizontal direction. The lever 31 is configured to rotate (swing) in directions indicated by arrows A and B in FIG. 3 with the rotation support shaft 41 passed through the support hole 33 as a rotation fulcrum.
In this case, the lever 31 is loosely configured to move by a gap (play) with the rotation support shaft 41 in the longitudinal direction of the support shaft hole 33.

On the other hand, at the end of another side (vertically long side in FIGS. 3 and 4) forming the locking claw clamp member 34 and at a position close to the rotation support shaft, a predetermined width is set so as to cross the thickness direction. Is formed, and the slit 38 is formed.
Perpendicular to the through hole 5 for inserting the screw member 51.
2 are provided. In this slit 38, a throw-away locking claw 53 made of, for example, SK material having a substantially rectangular shape with a constant thickness and having a circular hole 54 near one end is provided at an end near the circular hole 54. The screw member 51 is inserted through a through hole 52 provided vertically to the slit 38 and a circular hole 54 of the locking claw 53, and is screwed through a nut 55. However, in this example, when the lever 31 is rotated so as to push down, the locking claw 53 is set so as to bite between the adjacent coils of the coiled wire 4. In addition, since the locking claw 53 is disposed near the rotation fulcrum, it is set so that it can be operated with a small force by the leverage principle.

In this embodiment, a screw hole 40 is provided on one side (left side in FIG. 6) of the bifurcated side portion 24 forming the wire passing body 22, and a convex portion having a convex spherical shape is provided inside (inside the opening). A ball plunger 43 configured so that a ball (steel ball) 44 protrudes an appropriate amount by an internal spring 43a is screwed in and fixed with a nut 45. Then, the lever 31 is depressed and rotated, and the locking claw clamp member faces when the locking claw 53 is biting between adjacent coils (between adjacent spiral portions) of the coiled wire 4 (see FIG. 3). A recess 46 is provided on one side of the recess 34.
6 is set so that the ball 44 at the tip end fits. The center position of the concave portion 46 in a side view is shown in FIG.
It is point C in the middle. When the lever 31 is pressed down to lock the coiled wire 4, as shown in FIG. 6, the ball 44 at the tip of the ball plunger 43 enters the concave portion 46 on the side surface of the locking claw clamp member 34. And a lock state holding means configured to hold the lock state, so that the lock state is not unexpectedly unlocked.

That is, the ball 44 at the tip of the ball plunger 43 is constantly urged toward the tip (recess 46 side) by the internal spring 43a, so that the state is positively held in the locked state. It is configured.
On the other hand, when the lever 31 is rotated in the direction of arrow B in FIG. 3 to unlock, the locking claw 53 comes out of the space between the adjacent coils to be in the unlocked state, and the ball 44 of the ball plunger 43 is in the same state. The flat side surface of the clamp member 34 is pressed by the spring action, and the clamp member 3
4 is set so as to prevent the natural fall of the wire 4 and maintain a space between the locking claw 53 and the coiled wire 4 (see FIG. 7).

In the drawing, reference numeral 48 denotes an unlock
That is, the pin is a pin for preventing the coiled wire 4 from lifting together when the lever 31 is rotated to lift the lever 31. It is fixed. Also, 49
When turning the lever 31 for unlocking,
This is a stopper pin for preventing excessive rotation, and is similarly fixed in a cross-linked manner.

Next, the lock device 21 of this embodiment will be described.
The operation or effect of will be described. That is, the state in which the lever 31 is rotated in the direction of arrow B in FIG. 3, that is, the state in FIG. 7 is an unlocked state. In this state, the coiled wire 4 grasps it and moves outward. If it is pulled out, it can be pulled out freely from the storage case 2. In this state, the ball 44 of the ball plunger 43 is urged so as to be pushed out, and the locking claw clamp member 34 is pressed laterally. Since the locking claw 53 does not rub against the coiled wire 4 at the time of pulling out, the abrasion of the claw 53 is also prevented.

On the other hand, when locking, the lever 31 is turned in the direction of arrow A in FIG. Then
As shown in FIG. 8, the locking claw 53 is
9 and penetrates between adjacent coils as shown in FIG. 9, and the locked state is instantaneously maintained. Moreover, in this case, the lever 31
Since the locking claw 53 is provided in the vicinity of the turning fulcrum, the operation can be easily performed with a smaller force for leverage. In this case, if the locking claw 53 hits the center of the coil as shown in FIG. 10, the support shaft hole 33 serving as a fulcrum is formed as a long hole in this example. The locking claw 53 slides forward or backward as appropriate, and is pushed between adjacent coils. And the locking claw 5
When the button 3 is pushed in this way, the ball 44 of the ball plunger 43 enters the recess 46 as shown in FIG. 6, and the locked state is stably held.

When the handle 6 of the in-pipe cleaning device 100 is rotated under this condition, the coiled wire 4 is rotated around its axis under the locked condition.
Rotates together with it. On the other hand, if the lever 31 is rotated to pull up, the locking claw 53 comes off the coiled wire 4 and is instantly unlocked. Therefore, the coiled wire 4 can be freely pulled out from the housing case 2 or can be freely pushed into the housing case 2.

In this case, the ball plunger 43
Is lifted up against the pressing force of the ball 44. At this time, the coiled wire 4 is
8 prevents the lever 31 from being lifted up together with the lever 31, so that it can be easily unlocked. And in this example,
Since the locking claw 53 is of a throw-away type, when it is worn, the screw member 51 and the nut 55
, Remove it and replace it with a new one.

As described above, in the in-pipe cleaning device 100 having the lock device 21 of the present invention, the coiled wire 4 that is fed out can be locked and unlocked instantly by rotating the lever 31. Therefore, even when locking and unlocking need to be repeated frequently, the inside cleaning operation can be performed extremely efficiently.
In addition, unlike the conventional set screw method, the lock can be prevented from slipping.

In the above embodiment, since the locking claw 53 is provided near the pivot of the lever 31, locking and unlocking can be performed with an extremely small force. As understood from this, it is preferable that the locking claw 53 be provided so as to be located as close to the pivot of the lever 31 as possible.

In the above embodiment, the relationship between the rotation support shaft 41 and the support shaft hole 33 forming the rotation support point of the lever 31 is loosely formed as an elongated hole with respect to the round shaft. 53 can be easily inserted. Note that the longitudinal direction of the long hole may be set loose so that the locking claw 53 can easily move back and forth when it is fitted into the coiled wire 4. Therefore, the same effect can be expected even with a large circular hole.

Further, in the above embodiment, the ball plunger 4
Although the lock state holding means composed of 3 is exemplified, a concave portion 46 is provided on at least one side with respect to the rotation direction of the lever 31 so that the locking claw 53 of the lever 31 bites between adjacent coils. In this case, the tip of the convex portion which is always urged toward the concave portion 46 and has a substantially convex spherical shape may be configured so as to enter the concave portion 46 and hold the locked state, and instead of the ball plunger, Means having the structure shown in FIG. 11 may be used. That is, in this device, at least a through hole 40a having a screw 40 is provided at a portion closer to the outside, and the tip thereof (the locking claw clamp member 34) is provided.
Side), a ball member 44b is screwed in via a compression spring 43a, and this is fixed with a nut 45.
The ball 44 is biased by a spring. Note that, in assembling, it is preferable to reduce the inner diameter of the distal end so that the ball 44 does not pass through.

In the above-described embodiment, the case where the locking claw 53 is provided on the distal end side of the lever 31 from the rotation fulcrum of the lever 31 when viewed from the side has been described. However, this position may be provided on the opposite side. Good. In this case, the lever 31 is rotated in the opposite direction to lock and unlock. In addition, the locking claw 53 has a substantially rectangular thin plate shape in the above-described embodiment, but the shape is not limited to this. In the present invention, the configuration is limited to the above-described embodiment. However, the present invention can be embodied by appropriately changing the design without departing from the gist thereof.

[0031]

As is apparent from the above description, according to the locking device for the coiled wire in the in-pipe cleaning device of the present invention, the coiled wire to be fed out can be instantaneously locked or unlocked at an appropriate length. Can be.
Therefore, the operation by this kind of in-pipe cleaning device, which requires repetition of locking and unlocking in the use process, becomes extremely easy, and the operability and usability are improved. In addition, unlike the conventional set screw method, since the locked state is maintained by the bite of the claw, it is possible to effectively prevent the unlock state from being performed unexpectedly.

[Brief description of the drawings]

FIG. 1 is an overall perspective view showing a schematic configuration of an in-pipe cleaning device to which an embodiment of a coil-shaped wire locking device according to the present invention is embodied.

FIG. 2 is an enlarged schematic perspective view of a lock device of FIG. 1;

FIG. 3 is a sectional view of FIG. 2;

FIG. 4 is a partially enlarged view of FIG. 3;

FIG. 5 is an exploded perspective view of a lock device part of FIG. 1;

FIG. 6 is a longitudinal sectional view passing through a point C of FIG. 4;

FIG. 7 is a sectional view of an essential part for explaining an unlocked state.

FIG. 8 is a sectional view of an essential part for explaining a locked state.

FIG. 9 is a sectional view of an essential part for explaining a locked state.

FIG. 10 is a sectional view of an essential part for explaining a locked state.

FIG. 11 is a sectional view illustrating another example of the locked state holding unit.

FIG. 12 is an overall perspective view showing a schematic configuration of a conventional in-pipe cleaning device having a conventional coiled wire locking device.

FIG. 13 is a schematic perspective view of the lock device portion of FIG.

FIG. 14 is an exploded cross-sectional view of the lock device shown in FIG. 13;

[Explanation of symbols]

 Reference Signs List 2 housing case 4 coiled wire 21 locking device 22 wire passing body 23 coiled wire passage portion 31 lever 44 ball (convex spherical body) 46 concave portion on one side of lever 53 locking claw 100 cleaning device in tube

Claims (4)

[Claims] 1. A wire passing body provided with a passage portion through which a coiled wire provided so as to be able to enter and exit a housing case has a rotatable lever on one side, and the lever has A locking device for a coiled wire in an in-pipe cleaning device, characterized in that a locking claw that can bite between adjacent coils of the coiled wire when a lever is turned is provided. 2. The locking device for a coiled wire in an in-pipe cleaning device according to claim 1, wherein the locking claw is provided near a pivot of the lever. 3. When the locking claw bites between adjacent coils of the coiled wire, the lever slides and bites between adjacent coils when the locking claw collides with the coil. The locking device for a coiled wire in the in-pipe cleaning device according to claim 1 or 2, wherein the rotation fulcrum is formed loosely. 4. A recess is provided on at least one side with respect to the rotation direction of the lever, and when the locking claw of the lever bites between adjacent coils, the recess is always urged toward the recess, and 4. The device according to claim 1, further comprising a lock state holding means configured to hold the locked state by the distal end of the convex portion having a substantially convex spherical shape entering the concave portion. A lock device for a coiled wire in a cleaning device in a pipe.