JP3204265U - Cable catch - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cable catch excellent in workability capable of preventing a telescopic eaves portion from shrinking due to a collision with an obstacle. SOLUTION: A cable catch 1 includes a telescopic eave part 2 composed of a plurality of nested hollow cylinders 2a to 2d, a flexible tube 4, a cable gripping part 5, and a rear end part in the eaves part. It is comprised from the some rod 3 inserted from the rod insertion port of this, and mutually threadably connectable. When extending the buttocks, the rods are inserted into the buttocks while being sequentially added. Moreover, a collar part can be shrunk by pulling out a rod from a rod insertion port. By inserting the rod into the buttock, contraction of the buttock due to collision with an obstacle is prevented. If the rod protruding backward from the rod insertion port is pushed forward while the collar portion is extended, the gripping claws 5a of the cable gripping portion are opened, and when the push is released, the gripping claw 5a is closed and the cable can be gripped. [Selection] Figure 1

Description

  The present invention relates to a cable catch having a telescopic hook used in an operation of passing cables such as electric wires and telephone wires through a ceiling or a wall.

  Conventionally, as a wiring tool (cable catch) used when wiring a cable such as an electric wire or a telephone line through the inside of a ceiling or a wall, for example, a plurality of stages as described in Patent Document 1 and Patent Document 2 are used. There has been proposed one having a hook that pulls or feeds an electric wire by hooking an electric wire at the tip of a stretchable bag made of a hollow cylinder (pipe).

JP-A-8-168129 JP-A-10-66215

  For example, when such a conventional wiring tool is inserted into the back of the ceiling from the opening of the ceiling to work, it has been difficult to insert from a narrow opening in a state in which a long hook is extended in advance. In addition, in the “wiring work rod” proposed in Patent Document 1, the tip of the rod or the vicinity of the tip is configured to maintain an arc shape in a free state so that the rod is bent and the tip is a ceiling. When hitting an obstacle such as a beam on the back, this arc-shaped part allows you to get over the obstacle, but if the heel shrinks due to the impact hitting the obstacle, the tip of the heel will reach the target position There was a problem that made it unreachable.

  Further, in the “cable catcher” proposed in Patent Document 2, a stopper for preventing return is provided at the joint portion of each pipe so that the joint portion does not shrink carelessly when the tip hits an obstacle. However, the structure is complicated because each joint part is provided with a stopper, and when the extended cable catcher is retracted, the stoppers on all pipe joint parts are individually released. Therefore, there is a problem that workability is lowered when the number of pipe stages is large.

  Therefore, the present invention aims to provide a cable catch excellent in workability, which can solve the problems in the prior art as described above and can prevent the telescopic collar from shrinking due to collision with an obstacle. To do.

  A first one of the cable catches of the present invention provided to solve the above-mentioned problem is that a plurality of hollow cylinders are sequentially nested and a rod insertion port is provided at the rear end of the outermost hollow cylinder. A telescopic hook provided, a plurality of rods having an outer diameter that can be inserted into the hook from a rod insertion port, and capable of being screw-connected to each other in the longitudinal direction, and the innermost of the hook A flexible tube having a rear end connected to the front end of the hollow cylinder, and a cable gripping portion attached to the front end of the flexible tube, the cable gripping portion extending forward of an operation wire disposed in the flexible tube It has a cable gripping claw that opens by pushing and closes by releasing the pushing, and the rear end of the operation wire is connected to the front end of the rod inserted into the collar, and the rod protrudes backward from the rod insertion port. By moving forward / backward, It is characterized in that to perform the opening and closing operation of the cable gripping jaws through Ya.

  A second cable catch according to the present invention is a telescopic hook having a plurality of hollow cylinders sequentially nested and a rod insertion port provided at the rear end of the outermost hollow cylinder. A plurality of rods having an outer diameter that can be inserted from the rod insertion port into the flange portion and threadably connectable to each other in the longitudinal direction, and a rear end at the front end of the innermost hollow cylindrical body of the flange portion And a cable engaging hook attached to the front end of the flexible tube, and the front end of the rod inserted into the flange is directly or directly to the innermost hollow cylindrical body of the flange It is characterized by being indirectly screwed.

  Furthermore, the third cable catch according to the present invention is a telescopic cage in which a plurality of hollow cylinders are sequentially combined and a rod insertion port is provided at the rear end of the outermost hollow cylinder. A plurality of rods having an outer diameter that can be inserted from the rod insertion port into the flange portion and threadably connectable to each other in the longitudinal direction, and a rear end at the front end of the innermost hollow cylindrical body of the flange portion Is connected to the front end of the rod inserted into the flange and the other end is exposed to the outside from the front end of the flexible tube, and the cable is engaged. A ball chain connected to the hook, and by advancing operation of the rod protruding backward from the rod insertion port, the ball chain is drawn out from the flexible tube to lower the cable engagement hook, and by retreating the rod. Draws ball chain flexible tube, is characterized in that so as to pull the cable-engaging hooks.

  In each of the above devices, a flexible tubular shape holding cover that is formed into a curved tube having a slit continuous in the longitudinal direction and that can be elastically expanded and fitted to the flexible tube is provided. It is preferable.

  According to the cable catch according to the invention described in claim 1, it is necessary depending on the extension length of the collar portion when extending the collar portion that can be stretched and performing wiring work in the ceiling or inside the wall. By inserting a large number of connected rods into the buttock, when the flexible pipe connected to the front of the buttock hits an obstacle, the rod inserted into the buttock is prevented from contracting. can do.

  In addition, since the bending load acting on the thin hollow cylinder on the front end side of the buttock is also shared by the rod inserted therein, the bending of the front end portion can be reduced, and it is provided in front of the buttock. The cable gripping claw can be reliably and easily delivered to the target position.

  In addition, the gripping claw can be set in the desired direction by the flexible tube, and it opens by pushing the rear end of the rod protruding backward from the rod insertion port with the collar extended, releasing the pushing Thus, the target cable can be easily grasped, and by further pulling out the rear end of the rod from the collar part, the collar part contracts, and the grasped cable can be pulled toward the hand side.

  Further, the rod can be extended by feeding the rod into the collar while sequentially connecting the rod from the rod insertion opening at the rear end of the collar, and the collar can be contracted by pulling the rod from the rod insertion opening. In addition, since the rod drawn out of the collar can be sequentially separated from the front rod, the collar can be easily expanded and contracted in a narrow place.

  According to the cable catch according to the invention described in claim 2, as in the case of the invention of claim 1 described above, the portion of the flange when the portion such as the flexible pipe connected to the front of the flange hits an obstacle. Shrinkage can be prevented.

  In addition, since the bending of the thin hollow cylinder on the front end side of the buttock is reduced by the rod inserted in the inside, the cable engagement hook in front of the buttock can be surely reached to the target position to reach the cable. It can be easily engaged. Further, since the rods can be connected and separated, the eaves portion can be easily expanded and contracted in a narrow place.

  According to the cable catch according to the invention described in claim 3, the tip of the flexible pipe bent downward is inserted into the inside of the vertical wall from the upper end thereof, and is protruded rearward from the rod insertion port at the rear end of the buttock. By operating the rod into the rod insertion port, the cable engagement hook can be lowered inside the vertical wall, and after engaging the cable with the cable engagement hook below the wall, The cable can be pulled up by operating the rod back from the rod insertion port.

  In addition, the rod drawn out from the rod insertion port at the rear end of the collar portion can be sequentially separated from the front rod, as in the devices described in the first and second aspects. Is possible.

  According to the cable catch according to the invention described in claim 4, since the flexible pipe shape holding cover that fits the flexible pipe is provided, the curved shape set in the flexible pipe is deformed by collision with an obstacle. Therefore, it is possible to prevent the workability from being lowered.

  In addition, the flexible tube shape holding cover can be easily attached to and detached from the flexible tube because the slit is elastically expanded and can be externally fitted to the flexible tube, and the flexible tube set according to the situation of the work place. According to the curved shape, a plurality of different curved shapes can be prepared and used selectively.

It is a side view which shows 1st Embodiment of the cable catch of this invention. It is an exploded view of the cable catch shown in FIG. It is a longitudinal cross-sectional view of the hook rear end vicinity part of the cable catch shown in FIG. It is a longitudinal cross-sectional view of the connection part of the collar part and flexible tube of a cable catch shown in FIG. It is a longitudinal cross-sectional view in the state which isolate | separated the connection part shown in FIG. It is a longitudinal cross-sectional view of the cable gripping part in a state where the gripping claws are closed. It is a longitudinal cross-sectional view of the cable gripping part in a state where the gripping claws are open. It is a partial side view including the cross-sectional structure of the connection part of a flexible tube and a collar part in 2nd Embodiment of the cable catch of this invention. It is a fragmentary top view containing the cross-section of the state which isolate | separated the connection part of the cable catch shown in FIG. It is a perspective view of the flexible tube shape maintenance cover with which a flexible tube is attached. It is a side view which shows 3rd Embodiment of the cable catch of this invention. It is a longitudinal cross-sectional view which shows the structure of the collar part front part of the cable catch shown in FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a side view showing a first embodiment of a cable catch according to the present invention, and FIG. 2 is an exploded view thereof. As shown in these drawings, the cable catch 1 according to the present invention has a fishing rod-like expansion and contraction. The main body is composed of a flexible collar 2, a plurality of rods 3, a flexible tube 4, and a cable gripping portion 5 having a cable gripping claw 5a at its tip.

  The said collar part 2 is comprised from several hollow cylinders 2a-2d combined in the nested form. Here, the front-rear direction of the flange portion 2 will be described with the outermost hollow cylinder 2a side as the rear side and the innermost hollow cylinder 2d side as the front side.

  These hollow cylinders 2a to 2d are made of a reinforced resin including glass fiber and carbon fiber, and each is formed in a tapered shape slightly tapered toward the front end, and in the extended state, the inner and outer circumferences of each other. The faces are friction-fixed.

  As shown in FIG. 3, a cap 6 made of resin or rubber is fitted to the rear end portion of the outermost hollow cylinder 2a, and the hollow cylinder is formed at the center of the rear end surface of the cap 6. A rod insertion port 6a communicating with the inside of the body 2a is formed.

  The inner diameter of the rod insertion opening 6 a is formed slightly larger than the outer diameter of the rod 3. Note that the cap 6 may be omitted, and such a rod insertion opening may be formed directly in the center of the hollow cylinder 2a with the rear end face as a bottom.

  As shown in FIG. 2, the rods 3 are configured so that they can be connected to each other in the longitudinal direction, and when the collar part 2 is extended, the rods 3 are sequentially added according to the extension length of the collar part 2. It is inserted into the flange 2 from the rod insertion port 6a. In addition, although the metal material can also be used for the raw material of the rod 3, it is desirable to use the reinforced resin similar to the collar part 2 for weight reduction.

  As shown partially in FIG. 2, one end of each rod 3 is provided with a male screw side connecting portion 3a, and the other end is provided with a female screw side connecting portion 3b. By screwing the male screw side connecting portion 3a of the three into the female screw side connecting portion 3b of the other rod, both can be detachably connected in the longitudinal direction. The male screw side connecting portion 3 a and the female screw portion connecting portion 3 b are made of metal and have substantially the same outer diameter as the rod 3.

  The front end of the innermost hollow cylindrical body 2d that is the front end portion of the flange portion 2 is detachably connected to the rear end of the flexible tube 4. FIG. 4 is a cross-sectional view of the connecting portion, and FIG. 5 is a cross-sectional view of the connecting portion in a separated state. A metal cylindrical connecting fitting 7 is fixed to the front end of the hollow cylindrical body 2d. Yes.

  The connecting metal 7 has an inner peripheral surface 7a on the rear side thereof fitted and fixed to the outer peripheral surface of the front end of the hollow cylindrical body 2d. The male screw 7b is formed. Further, the inner diameter of the front portion is substantially equal to the inner diameter of the front end portion of the hollow cylinder 2d, and the rod 3 is set to be able to pass therethrough.

  On the other hand, a cylindrical connecting fitting 8 is attached to the outer peripheral surface of the rear end portion of the flexible tube 4. The connecting metal fitting 8 is bonded and fixed to the inner peripheral surface 8a of the front portion thereof by fitting the outer peripheral surface of a resin fitting sleeve 9 thereto. The inner circumferential surface of the fitting sleeve 9 is fitted to the outer circumferential surface of the flexible tube 4. Further, on the inner peripheral surface of the rear portion of the connection fitting 8, a female screw 8 b that is screwed into the male screw 7 b of the connection fitting 7 is formed.

  An operation wire 10 is disposed inside the flexible tube 4. The operation wire 10 is for opening and closing a cable gripping claw 5a provided in the cable gripping portion 5 shown in FIGS. 1 and 2, and is flexible so that it can be moved back and forth along the bend of the flexible tube 4. have. The structure and operation of the cable gripper 5 will be described later.

  As shown in FIGS. 4 and 5, a cylindrical terminal fitting 11 is fixed to the rear end of the operation wire 10. A screw hole 11a is formed on the rear end face of the terminal fitting 11 so as to be screwed into the male thread side connecting portion 3a of the opposing rod 3, and the rod 3 and the terminal fitting 11 are connected as shown in FIG. The operation wire 10 in the flexible tube 4 is interlocked with the back-and-forth movement of the rod 3 protruding from the rod insertion port 6a shown in FIG.

Next, based on FIG.6 and FIG.7, the structure and operation | movement of the cable holding part 5 are demonstrated.
As shown in these drawings, a flexible tube mounting recess 5b having a circular cross section is formed at the rear end portion of the cable gripping portion 5, and the inner peripheral surface thereof is formed on the outer peripheral surface of the front end portion of the flexible tube 4. The outer peripheral surface of the fitting sleeve 12 that is fitted is bonded and fixed.

  The fitting sleeve 12 has the same structure as the fitting sleeve 9 described above. In addition, the structure which connects the flexible pipe 4 to the connection metal fitting 8 and the cable holding part 5 which were mentioned above is not limited to this embodiment, For example, the structure similar to the connection part of the flexible pipe used for normal water supply piping etc. It may be.

  A cylindrical guide hole 5c is formed coaxially with the inner peripheral surface of the flexible tube mounting recess 5b in front of the flexible tube mounting recess 5b inside the cable gripping portion 5. A small-diameter portion 13a of the movable piece 13 is fitted into the guide hole 5c so as to be slidable in the front-rear direction.

  A recess (not shown) is formed at the rear end of the small diameter portion 13a, and the front end of the operation wire 10 is inserted into the recess and fixed. Further, in front of the guide hole 5c, a spring accommodating chamber 5d having a larger diameter and a circular cross section is formed coaxially with the guide hole 5c.

  The movable piece 13 includes a circular spring receiving portion 13b which is continuously fitted in front of the small diameter portion 13a and loosely fitted on the inner peripheral surface of the spring accommodating chamber 5d, and a gripping claw attaching portion 13c which projects further forward. have.

  Further, a step is formed on the front peripheral edge of the spring receiving portion 13b so as to be fitted to the inner peripheral surface of the rear end of the compression coil spring 14 accommodated in the spring accommodating chamber 5d. The compression coil spring 14 is fitted to the inner periphery of the rear end.

  The coil spring 14 has an outer diameter that matches the inner diameter of the spring accommodating chamber 5d, and its front end abuts against a spring receiving ring 15 that is detachably fixed to the inner peripheral surface of the spring accommodating chamber 5d. ing. In the state shown in FIG. 6, the coil spring 14 is slightly compressed between the spring receiving ring 15 and the spring receiving portion 13 b of the movable piece 13, and the rear end surface of the spring receiving portion 13 b is elastically biased. It is pressed against the rear wall 5e of the spring accommodating chamber 5d.

  A proximal end portion of a pair of leaf spring-shaped cable gripping claws 5a is fixed to the gripping claw mounting portion 13c of the movable piece 13 from both sides. Further, the front end face of the spring accommodating chamber 5d is open, and the leading ends of these gripping claws 5a protrude forward from the spring accommodating chamber 5d.

  The pair of cable gripping claws 5a are fixed to the gripping claw mounting portion 13c with elasticity so that the distal end side is opened when no external force is applied. A pair of guide rollers 16 for guiding these cable gripping claws 5a are rotatably provided near the front end in the spring accommodating chamber 5d.

As shown in FIG. 6, when the movable piece 13 is retracted by the urging force of the compression coil spring 14, these cable gripping claws 5 a are kept pressed by the guide rollers 16 and closed. Yes.
On the other hand, as shown in FIG. 7, when the movable piece 13 is pushed forward against the urging force of the compression coil spring 14 by the operation wire 10 inside the flexible tube 4, a pair of cable gripping claws 5a is associated therewith. Protrudes forward of the pair of guide rollers 16 and is opened due to their elastic behavior.

  Next, a description will be given of a procedure for pulling a cable in the back of the ceiling or the like at a position away from the operator with the cable catch 1 configured as described above. A single rod 3 is inserted in advance into the flange portion 2 of the cable catch 1 and its front end is connected to the operation wire 10 as shown in FIG.

  In the state in which the collar portion 2 is contracted as shown in FIG. 2, the rod 3 is predetermined rearward from the rod insertion port 6a formed in the cap 6 at the rear end of the hollow cylindrical body 2a as shown in FIG. From this state, the hollow cylindrical body 2a is held with one hand, and the other hand pushes the portion protruding from the rod 6a after inserting the rod 3 with the other hand. The heel part 2 extends.

Thereafter, the flange 2 can be extended by sequentially feeding the rod 3 into the flange while connecting the front end of the new rod 3 to the rear end of the front rod 3 from the rod insertion port 6a. As shown, it can be extended to the maximum length.

  At this time, the bending load acting on the hollow cylindrical body 2d on the front end side of the flange portion 2 is also shared by the rod 3 inserted therein, so that even if the hollow cylindrical body 2d is thin and thin, it bends. Can be reduced. In addition, only the raw material of the rod 3 of the front end part inserted in the hollow cylinder 2d can use stainless steel etc. with high bending rigidity, and can suppress the bending of the collar part 2 front end side effectively.

  Thus, as shown in FIG. 1, when the rod 3 protruding rearward of the hollow cylindrical body 2 a is further pushed into the flange portion 2 with the flange portion 2 of the cable catch 1 fully extended, the displacement of the rod 3 is increased. Is transmitted to the movable piece 13 inside the cable gripping part 5 through the operation wire 10 arranged in the flexible pipe 4 through the rods 3 connected in the flange part 2.

  As a result, as shown in FIG. 7, the movable piece 13 is displaced forward against the urging force of the compression coil spring 14 and the pair of cable gripping claws 5a are opened. It is located between the cable gripping claws 5a.

  Next, when the force pushing the rod 3 protruding backward of the hollow cylindrical body 2a is loosened, the movable piece 13 is retracted by the urging force of the compression spring 14 as shown in FIG. 6, and the pair of cable gripping claws 5a You can close and grab the cable.

  Thereafter, by pulling out the rod 3 from the rod insertion port 6a, the collar portion 2 can be contracted, and the cable can be drawn close to the hand. At this time, since the rod 3 drawn out of the flange 2 can be sequentially separated from the rod 3 in front, the work in a narrow place is possible.

  When the cable to be drawn is at a distance closer than the maximum extension length of the cable catch 1, the inner side of the hollow cylinders 2b, 2c and 2d inside the hollow cylinder 2a is not extended without extending the collar part 2 completely. The necessary number of steps may be drawn in order from the above, and the outermost hollow cylindrical body drawn out may be held by hand.

  Next, FIG. 8 shows a second embodiment of the cable catch according to the present invention, and is a partial side view including a cross-sectional structure of the connection portion between the flexible pipe and the flange portion, and FIG. 9 shows the connection portion of the cable catch separated. FIG. 2 is a partial plan view including a cross-sectional structure in a state where the cable catch 1 </ b> A shown in these drawings is attached with the same symbol 2 as the cable catch 1 in the first embodiment described above and the rod 2 Common parts are used for the third and the like parts.

  In the cable catch 1A, the rear end of the flexible tube 4A is detachably attached to the front end of the hollow cylindrical body 2d of the flange portion 2 via a connecting fitting 8A. As shown in FIG. 9, a screw hole 8 </ b> Aa is formed at the rear end of the connection fitting 8 </ b> A. The screw hole 8 </ b> Aa is engaged with the male screw 7 b formed on the connection fitting 7 of the hollow cylindrical body 2 d. Further, at the center of the bottom of the screw hole 8Aa, a screw hole 8Ab is formed coaxially with the screw hole 8Aa so as to be screwed with the male screw side connecting portion 3a at the front end of the rod 3.

  On the other hand, a cable engaging hook 18 is attached to the front end of the flexible tube 4A via a hook fixing bracket 17. The cable engagement hook 18 is formed in a bowl shape with a metal wire material such as a hard stainless steel wire material having a pull side engagement portion 18a and a push side engagement portion 18b.

  8 and 9, when the cable 19a arranged as indicated by the phantom line is pulled toward the front, as shown in these drawings, the pulling side engaging portion 18a is hooked on the cable 19a from behind, and The part 2 is contracted, or the entire collar part 2 is drawn toward the front.

  Further, when the cable 19b arranged as indicated by the phantom line in the drawings is forwarded, the push-side engaging portion 18b is hooked on the cable 19b from the front side to extend the collar portion 2. Alternatively, the entire buttocks 2 is pushed forward.

  Next, FIG. 10 is a perspective view of a flexible tube shape holding cover that is attached to the flexible tube 4A as necessary. The flexible tube shape holding cover 20 shown in FIG. 10 has been described with reference to FIGS. This is an auxiliary attachment that prevents the flexible pipe 4A from being deformed by collision with an obstacle protruding inside the ceiling or wall by being externally fitted to the flexible pipe 4A of the cable catch 1A.

  The flexible tube shape holding cover 20 is formed in a curved tube shape having slits 20a continuous in the longitudinal direction, and the slits 20a can be elastically expanded so that the flexible tube shape holding cover 20 can be fitted to the flexible tube 4A from the side to the outer peripheral surface. It is configured. As a material of the flexible tube shape holding cover 20, a hard resin material that can be elastically deformed and hardly deformed, for example, hard vinyl chloride or the like is suitable.

  The flexible tube shape holding cover 20 may be prepared by selectively installing several types of curved shapes so as to conform to a preset bent shape of the flexible tube 4A. Further, the flexible tube shape holding cover 20 is not limited to application to the flexible tube 4A of the cable catch 1A described above, but can be applied to all the flexible tubes of the cable catch of the present invention.

  Next, FIG. 11 is a side view showing a third embodiment of the cable catch of the present invention, and the cable catch 1B shown in FIG. 11 is the same as the cable catch 1 in the first embodiment described above. Common parts are used for the parts such as the collar part 2 and the rod 3 to which reference numerals are attached.

  A cable catch 1B shown in the figure includes a cable engagement hook 22 connected to the tip of a ball chain 21 that can be fed out from the front end of a flexible pipe 4B bent downward, and the cable catch 1B is connected to the inside of the cable catch 1B from above a vertical wall. It can be used when the ball chain 21 is suspended and the cable engaging hook 22 is hooked on the cable below the inside of the wall and pulled up.

  As shown in FIG. 12, the ball chain 21 has a short rod-like shape in which a plurality of balls 21a having a diameter capable of moving in a line within the curved flexible tube 4B and a bendable connection between adjacent balls 21a. The link 21b is configured to be movable in both the front and rear directions along the bent shape of the flexible tube 4B.

  The rear end of the ball chain 21 is fixed to a connecting fitting 23 that is connected to the rod 3 inserted into the flange 2. The connection fitting 23 has a substantially cylindrical shape whose outer peripheral surface matches the inner peripheral surface of the hollow cylindrical body 2d, and a screw hole 23a is formed on the rear end surface thereof to be screwed with the male screw side connection portion 3a at the front end of the rod 3. .

  In addition, an annular stopper portion 8Bb is formed at the front position of the screw hole 8Ba screwed with the male screw 7b of the connection fitting 7 at the front end of the hollow cylindrical body 2d in the connection fitting 8B fixed to the rear end of the flexible tube 4B. Yes. Although the ball chain 21 can pass through the annular stopper portion 8Bb, the inner diameter thereof is smaller than the outer diameter of the connection fitting 23, and serves as a stopper that restricts the entry of the connection fitting 23 into the flexible tube 4B.

  The lower end of the ball chain 21 is connected to the upper surface of a stopper 24 provided on the engagement hook 22. The stopper 24 defines the limit position of the ball chain 21 that can be drawn into the flexible tube 4B, and a conical seat on the inner periphery of the base 25 fixed to the front end of the flexible tube 4B is provided at the outer peripheral edge of the upper end. A conical surface 24a that abuts the surface 25a is formed.

  The stopper 24 also serves as a weight for reliably feeding the ball chain 21 from the front end of the flexible tube 4B. In the case where a material having a relatively large specific gravity such as stainless steel is used for the material of the ball chain 21 or the engagement hook 22, the stopper 24 may be formed of a resin or the like.

  When the cable catch 1B configured as described above is used, the direction of the distal end of the flexible tube 4B is bent by approximately 90 ° with respect to the longitudinal direction of the flange portion 2 as shown in FIG. After the ball chain 21 is fully extended, the rod 3 inserted into the flange 2 is gently pulled backward until the conical surface 24a of the stopper 24 contacts the seating surface 25a of the base 25, and the ball chain 21 is moved into the flexible tube 4B. Then, the cable catch 1B is horizontally inserted inside the ceiling, and the front end of the flexible tube 4B is directed downward to enter the inside from the upper end of the vertical wall.

  Next, when the rod 3 is fed from the rear end of the flange portion 2 of the cable catch 1B, the ball chain 21 is drawn downward from the tip of the flexible tube 4B. At this time, if the ball chain 21 is long, the rod 3 is added and fed into the flange 2 as necessary.

  When the engagement hook 22 connected to the lower end of the ball chain 21 reaches the cable below the inside of the wall, the cable is hooked on the engagement hook 22 and the rod 3 is pulled out from the rear end of the flange portion 2 to the rear. The cable can be pulled up by pulling the ball chain 21.

  In addition, in the thing of each embodiment mentioned above, although the collar part 2 is made into the 4 step expansion-contraction structure which consists of hollow cylinders 2a-2d, the number of expansion-contraction steps is not limited to this, It increases / decreases suitably as needed. It is possible.

  Further, the cable catches 1, 1 </ b> A, 1 </ b> B in each embodiment can share the flange 2 and the rod 3 and can be used by exchanging only the front part from the flexible tubes 4, 4 </ b> A, 4 </ b> B. Therefore, manufacturing and replacement of parts are easy, and it is possible to deal with a wide range of wiring work in various places.

DESCRIPTION OF SYMBOLS 1, 1A, 1B Cable catch 2 Claw part 2a-2d Hollow cylinder 3 Rod 3a Male screw side connection part 3b Female screw side connection part 4 Flexible pipe 5 Cable holding part 5a Cable holding claw 5b Flexible pipe attachment recessed part 5c Guide hole 5d Spring accommodation Recess 5e Rear wall 6 Cap 6a Rod insertion port 7 Connecting bracket 7a Inner peripheral surface 7b Male thread 8, 8A, 8B Connecting bracket 8a Inner peripheral surface 8b Female thread 8Aa, 8Ab, 8Ba Screw hole 8Bb Annular stopper 9 Fit sleeve 10 Operation wire 11 End fitting 11a Screw hole 12 Fit sleeve 13 Movable piece 13a Small diameter portion 13b Spring receiving portion 13c Holding claw mounting portion 14 Compression coil spring 15 Spring receiving ring 16 Guide roller 17 Hook fixing bracket 18 Cable engagement hook 18a Pull side engagement Portion 18b Push side engagement portion 19a, 19b Cable 20 Flexible tube shape holding cover 20a slit 21 ball chain 21a balls 21b link 22 engages the hook 23 connecting fitting 23a screw hole 24 stopper 24a conical surface 25 mouthpiece 25a seating surface

Claims (4)

A plurality of hollow cylinders are sequentially combined in a telescopic manner, and a telescopic collar part in which a rod insertion port is provided at the rear end part of the outermost hollow cylinder body,
A plurality of rods having an outer diameter that can be inserted into the collar from the rod insertion port and threadably connectable in the longitudinal direction between each other;
A flexible pipe having a rear end connected to a front end of the innermost hollow cylinder of the flange;
A cable grip attached to the front end of the flexible pipe,
The cable gripping portion has a cable gripping claw that opens when the operation wire disposed in the flexible pipe is pushed forward and closes when the push release is released.
The rear end of the operation wire is connected to the front end of the rod inserted into the collar, and the opening and closing operation of the cable gripping claw is performed via the operation wire by the forward and backward operation of the rod protruding backward from the rod insertion port. A cable catch characterized by that. A plurality of hollow cylinders are sequentially combined in a telescopic manner, and a telescopic collar part in which a rod insertion port is provided at the rear end part of the outermost hollow cylinder body,
A plurality of rods having an outer diameter that can be inserted into the collar from the rod insertion port and threadably connectable in the longitudinal direction between each other;
A flexible pipe having a rear end connected to a front end of the innermost hollow cylinder of the flange;
A cable engaging hook attached to the front end of the flexible pipe,
A cable catch, characterized in that the front end of a rod inserted into the flange is directly or indirectly screw connected to the innermost hollow cylinder of the flange. A plurality of hollow cylinders are sequentially combined in a telescopic manner, and a telescopic collar part in which a rod insertion port is provided at the rear end part of the outermost hollow cylinder body,
A plurality of rods having an outer diameter that can be inserted into the collar from the rod insertion port and threadably connectable in the longitudinal direction between each other;
A flexible pipe having a rear end connected to a front end of the innermost hollow cylinder of the flange;
A ball chain having one end connected to the front end of the rod inserted into the flange, the other end exposed to the outside from the front end of the flexible pipe and connected to the cable engaging hook. With
The forward movement of the rod protruding backward from the rod insertion port causes the ball chain to be drawn out of the flexible pipe and the cable engagement hook to be lowered, and the backward movement of the rod to pull the ball chain into the flexible pipe to A cable catch characterized by pulling up the mating hook.   The flexible tube-shaped holding cover is formed in a curved tube having a slit continuous in the longitudinal direction, and the slit is elastically expanded and can be externally fitted to the flexible tube from the side. The cable catch according to any one of 1 to 3.

Images