JPH0453936Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] This invention is for butting and fusing resin pipes (e.g. polyethylene pipes or plastic pipes) together, or for making sockets, cheeses, elbows, etc. made of resin (e.g. polyethylene). This invention relates to a pipe fusion machine that fuses pipe fittings to resin pipes.

In recent years, resin pipes such as polyethylene have been increasingly used as gas pipes in place of conventional metal pipes. In order to connect these resin pipes, connect them directly, or by using sockets, elbows,
This is done by heat fusing via a resin pipe joint such as a cheese or saddle. That is, for example, when pipes are butt-fused together, a method is used in which the joint surfaces of both pipes are heated and melted using a heater, and the heated and melted surfaces are crimped together under a predetermined pressure. The pair of tubes crimped in this manner are completely integrated and connected after being allowed to cool for a certain period of time.

Depending on the application, such pipe fusion machines are classified into butt fusion machines (butt joining pipes), saddle fusion machines (joining saddles and pipes), and socket fusion machines (joining sockets and pipes). Although the present invention can be applied to all such fusing machines, the following description will be made using a socket fusing machine as an example for convenience.

[Conventional technology]

In such a fusion machine, the pipe and socket to be fused are relatively close to each other along parallel guide rods,
It is held by a pair of separable vises, and a feed screw shaft mechanism is employed as the operating mechanism for moving one of the vises along the guide rod. A motor for rotating the feed screw shaft is incorporated in the fuser body.

[Problem that the invention attempts to solve]

However, as mentioned above, since the motor is built into the fuser body, the machine body tends to be large and heavy.

The purpose of this invention is to remove the motor from the fusion machine body based on the idea of using an external commercially available electric drill as the drive source for the feed screw shaft, and to create a small, lightweight, and portable pipe fusion machine. It is to provide.

[Means for solving problems]

To achieve the above object, according to the present invention, the feed screw shaft type operating mechanism is provided with a rotary drive shaft that can be inserted into the jaw of the chuck of an external electric drill.

[Effect]

During operation, the feed screw shaft is rotated by inserting and fixing the rotary drive shaft into the jaws of the chuck of a suitable commercially available electric drill.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail by taking a socket fusion machine as an example with reference to the accompanying drawings.

Figures 1 to 5 show an overview of the entire socket fusion machine that fusion-bonds a socket S to the end face of a polyethylene pipe P as a city gas conduit. In the figure, 2 is a clamp that holds one of the pipes P to be joined. (vise), 3 is a clamp (vise) that holds the socket S, and the clamps 2 and 3 are a ring body 2a that can be pivoted via a pivot pin 4 and can be expanded in two parts.
2b; formed by 3a and 3b. Two split ring bodies 2a, 2b; 3a, 3b connect pipe P and socket S
The pipe P and the socket S are clamped by tightening the tightening bolt 7 attached to the pivot arm 6 provided on one of the two halves of the ring 2b, 3b onto the shoulder 14 of the upper ring body 2a, 3a.
The clamp ring bodies 2a, 3a can be opened around the pivot pin 4 by loosening the bolt 7 and turning it counterclockwise as shown in FIG.

One of the clamps 2, 3 is stationary, and the other clamp 3 is fixed on its lower block 8.
is attached so as to be slidable along a pair of parallel guide rods 10, 10. That is, the clamp 3 constitutes a carriage that approaches and moves away from the clamp 2.
One end of the guide rods 10, 10 is fixed to a clamp 2, and the other end is fixed to a bracket 11 provided on the main body 1, respectively.
A feed screw shaft 12 is provided as an actuator for moving the clamp 3 in the axial direction. The feed screw shaft 12 has one end 12a rotatably supported by a bearing part 13 provided below the fixed clamp 2, and the other end 12b rotatably supported by a bearing part 15 provided in the main body 1. End 12 of feed screw shaft 12
A gear 17 is fixed to the outer end of b. This gear 17 is connected to a gear 21 via an intermediate gear 19 rotatably supported on a shaft 20 provided within the main body 1 . The gear 21 is supported by a shaft 22, and one end of the gear 21 protrudes outside the main body 1 and constitutes a rotary drive shaft 22, which is a feature of the present invention.

This rotary drive shaft 22 can be inserted and fixed into a jaw part 53 of a chuck 51 of a commercially available electric drill 50. Therefore, electric drill 5
The feed screw shaft 12 can be rotated via the gears 21, 19, and 17 by rotating the rotary drive shaft 22 by the rotational speed 0. The block 8, which is integral with the lower ring body 3b of the clamp 3, is formed with a screw hole 9 into which the screw shaft 12 is screwed.
forms a nut member for the feed screw shaft 12. That is, by rotating the feed screw shaft 12, the clamp 3 can be moved back and forth along the guide rods 10, 10.

The pin 31 provided at the top of the clamps 2 and 3 is fitted with an arm 35 having a pin hole 33.
A heater 30 having a heater 30 is removably mounted.

The main body 37 of the heater 30 is provided with a heater face 39 for the pipe P and a heater face 38 for the socket S, for example.
Pipe P and socket S are pressed against 9 and 38 and heated. The heater is, for example, an ordinary electric heater having a heater wire inside, and preferably has a temperature sensor (not shown) such as a resistance thermometer or a thermocouple thermometer on its surface to control the temperature of the heater to a predetermined value.

After the end surfaces of the pipe P and socket S are heated by the heater 30 for a predetermined period of time, the heater is quickly removed and the fused end surfaces of the pipe P and socket S are crimped together to complete the fusion.

The feed screw shaft 12 is operated when the pipe P and the socket S are pressed against the heater faces 39 and 38 of the heater 30, and when the pipe P and the socket S are fused together, and provides the necessary axial pressing force. The gear trains 17, 19, 21 serve as speed reducers or speed increasers by appropriately selecting their tooth ratios.

[Effect of idea]

As described above, according to the present invention, it is only necessary to protrude the rotary drive shaft of the feed screw shaft from the fusion machine body, and an external electric drill is used as the rotation drive source. There is no need to provide a rotational drive source such as a motor within the main body, and the structure is simplified, smaller, and lighter.

[Brief explanation of the drawing]

Fig. 1 is a longitudinal cross-sectional view of the pipe fusion machine according to the present invention, Fig. 2 is a front view of Fig. 1, and Fig. 3 is a cross-sectional view of the pipe fusion machine according to the present invention.
3 is a side view of the heater, FIG. 4 is a sectional view taken along the line -- in FIG. 1, and FIG. 5 is a left end view in FIG. 2. 1...Main stand, 2, 3...Vise, 10...Guide rod, 12...Feed screw shaft, 22...Rotation drive shaft,
50...Electric drill.

Claims (1)

[Scope of utility model registration request] A pipe fusion machine that has a pair of vise devices that can be relatively approached and separated along parallel guide rods, and a feed screw shaft type operating mechanism that allows the vise devices to be relatively approached and separated, the above-mentioned operation A pipe fusion machine characterized in that the mechanism has a rotary drive shaft that can be inserted into the jaw of an external electric drill chuck.