JPH041827B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention mainly relates to a transfer device used for arranging tensioned steel wires during the construction of side walls of PS tower-like structures.

<Prior art and its problems> This type of transfer device has a PC installed on the side wall of a silo, etc.
A method of reducing concrete wall thickness and increasing strength by winding cables and tensioning them (for example, Japanese Patent Publication No. 57-51502 [Patent No. 1161080]) Reinforcement method for structures, Japanese Patent Publication No. 57-58508 [Patent No. No.
Applicable to No. 1163043 (Reinforcement method for tensioned steel wire).

Such conventional transfer devices include those that use winches and wire ropes (Japanese Unexamined Patent Publication No. 1983
-101595 Publication: Transfer mechanism).

This transfer mechanism stores the PC cable in a storage bobbin and transfers the PC cable to a trolley that is guided along a guide rail and pulled by a wire rope.
It is configured to connect the ends of the cable and operate a take-up winch and a delivery winch to move the wire rope or trolley and pull the PC cable into position.

However, such a transfer mechanism has the following problems.

(i) The retracting speed changes depending on the amount of wire wound on the drum of the winding winch.

(ii) Two winches are required.

(iii) A weight tension type anti-sag device is required because the difference in feed rate between the two winches causes slack in the wire rope.

(iv) If the load on the take-up winch is large and slippage occurs, the weight of the anti-sag device will drop too much and readjustment will be necessary.

(v) After the trolley has completed approximately one revolution, the wire rope must be reversed and returned to the sending side.

This invention was proposed in view of the above-mentioned circumstances, and its purpose is to provide a tensioned steel wire transfer device that can eliminate the conventional problems at once, and that can transfer stably, safely, and reliably. It's about doing.

<Means for Solving the Problems> The tensioned steel wire transfer device according to the present invention is a traction-type transfer device using a wire rope and a winch. The PC cable is wound around a drum and arranged endlessly along the circumferential direction of the side wall, and a trolley to which the tip of the PC cable is connected is removably attached to the wire rope on the side wall. The wire rope system is used to transport tensioned steel wires.

<Example> The present invention will be described below based on an illustrated example.

This is a cylindrical shape as shown in Figures 4 and 5.
This is an example in which the side wall 1 of a PS tower-like structure is constructed using a sliding formwork device 2 disposed around the entire circumference, and the shedding plates 2a, 2a of the formwork device 2 are gradually raised. PC cables 3, etc. are arranged between the weir plates 2a and 2a, and concrete 4 is placed.

The PC cable 3 is installed in the upper part of the formwork device 1, and is wound and stored in a large number of storage bobbins 5 arranged at intervals in the circumferential direction of the side wall 1.

A guide rail 6 is attached to the lower surface of the cross member 2b of the formwork device 2 and extends around the circumference of the side wall 1.
A trolley 7 having a trolley 7 is attached to the guide rail 6 and is horizontally movable around the entire circumference of the side wall 1 using the guide rail 6 as a guide.

The trolley 7 is towed and moved by being connected to the tip of the PC cable 3 and connected to a wire rope 8 disposed along the guide rail 6 and moved by a winch, which will be described later.

A large number of pairs of horizontal rollers 9 and vertical rollers 10 are arranged below the guide rail 6 at intervals in the circumferential direction of the side wall, and these rollers 9 and 10 guide and support the wire rope 8 and the PC cable 3. be done.

In such a configuration, the present invention uses a special traction device 13 having a pair of parallel drums 11 and 12, as shown in FIG. The trolley 7 is wound around the trolley 7 and arranged endlessly along the guide rail 6, and is wrapped around the winch part to some extent so that the trolley 7 can make more than one revolution. Since this traction device 13 is installed on the upper part of the formwork device 2, a guide sheave 14 is provided for guiding the wire rope 8 to the raceway surface.

Further, a trolley 7 is detachably attached to the wire rope 8 on the raceway via a wire clamp 15.

With such a traction device 13, since it is an endless type, there is no need to rewind it by moving only in one direction, and it is sufficient to simply replace the trolley 7. Of course, movement in the opposite direction is also possible.

Next, the traction device 13 will be described in detail. As shown in FIGS. 2 and 3, a motor 16 is connected to one drum 11 of a pair of drums, and both drums 11 and 12 are configured to rotate. has been done.

The wire rope 8 on the load side is wound in a multi-layer single layer around the pair of drums 11 and 12 via the fixed sheave 17 on the retraction side, and the wiring adjustment device 1
8 and a fixed sheave 19 on the delivery side.

The wiring adjustment device 18 is connected to the screw feeding member 2
The movable pedestal 22 is movable on the support pedestal 21 by the screw feeding member 23.
2, and a horizontally movable sheave 24 which is movable on the top of the wire rope 8, and the entire length of the wire rope 8 is adjusted.

Furthermore, at the upper part of the entrance/exit side of the drums 11 and 12, there is a presser roller 2 that can press the wire rope 8 from above.
9 is provided.

As shown in FIGS. 8 and 9, the wire clamp 15 has a cylindrical shape with tapers formed at both ends, and a through hole 25 through which the wire rope 8 is inserted is formed in the central axis. 8 is clamped and locked from the lateral direction.

This cam 26 is formed with a circular pressing surface 26A, and a through hole 2 at a position corresponding to the pressing surface 26A is formed on the cam 26.
A recess 27 is formed in the lever 5, and the lever 2 is detachable.
Clamping and unclamping are performed by 8.

Trolley 7 is not limited to one unit, but multiple units can be connected to the PC.
Various reinforcement methods can be adopted, such as arranging multiple cables at the same time.

<Effects of the Invention> As described above, according to the present invention, the drums of the winch are arranged as a pair in parallel, and the wire rope is disposed endlessly, so that the following effects are achieved.

(i) The wire rope on the drum can be wound in one layer, the peripheral speed of the drum is constant, and the drawing speed can be kept constant.

(ii) The winch requires only one traction device.

(iii) Since the amount of winding and feeding is always constant,
There is no slack in the wire rope and no weight tensioning device is required.

(iv) Even if the load on the take-up winch is large and slippage occurs, there will be no difference in the amount of take-up or delivery.

(v) Since it is an endless system, there is no need to rewind it just by changing the trolley.

(vi) From the above, PC cables can be transferred stably, safely and reliably.

[Brief explanation of drawings]

FIG. 1 is a schematic perspective view showing the transfer device according to the present invention, FIGS. 2 and 3 are plan views and front views showing the traction device, and FIGS. 4 and 5 are cross sections showing the construction state of the side wall. 6 and 7 are front views and sectional views showing the state of the trolley, and FIGS. 8 and 9 are longitudinal sectional views and transverse sectional views showing the wire clamp. 1...Side wall, 2...Sliding formwork device,
2a... Shelter board, 2b... Horizontal material, 3... PC cable, 4... Concrete, 5... Storage bobbin,
6...Guide rail, 7...Trolley, 7a...
Wheels, 8...Wire rope, 9...Horizontal rollers,
10... Vertical roller, 11, 12... Drum, 13
... Traction device, 14 ... Guide sheave, 1
5...Wire clamp, 16...Motor, 17...
...Fixed sheave on the drawing side, 18... Wiring adjustment device, 19... Fixed sheave on the delivery side, 20... Screw feed member, 21... Support frame, 22... Movable frame, 23... Screw feed member, 24... Horizontal movement sheave, 25... through hole, 26... cam, 26A...
...Circular pressing surface, 27...Concave portion, 28...Lever.

Claims (1)

[Claims] 1. A transfer device that uses a wire rope and a winch to pull out and transfer a tensioned steel wire along the circumferential direction of a side wall of a tower-like structure, and to place it at a predetermined position. A pair of drums are arranged in parallel, and a wire rope is wound around the pair of drums and arranged endlessly along the circumferential direction of the side wall,
A tensioned steel wire transfer device characterized in that a trolley to which the tensioned steel wire is connected is detachably attached to the wire rope of the side wall portion.