JPH03169996A - Pressure contact device of opening and closing wall - Google Patents

Abstract

PURPOSE:To release pressure contact of an opening and closing wall to make free the movement by providing springs to make the pressure contact and energizing of pressure contact bodies which are provided to the opening and closing wall to a rail and floor in a vertically movable manner, and a shape memory alloy spring which releases the pressure contact by being heated with power. CONSTITUTION:A pair of runners 4 are provided to the upper end of an opening and closing wall 2 to bear them inside a rail 1, and wiring ducts 5 are provided to make sliding contact with collecting electrons 11. After that, up and down pressure contact bodies 6 and 7 are provided to the opening and closing wall 2 so that they are capable of falling and rising, and pressure contact frames 21 are freely movable housed. Then, springs 10 to make the pressure contact and energizing of the pressure contact bodies 6 and 7 to the rail 1 and floor 3 are provided to fix the opening and closing wall 2 up and down, and shape memory alloy springs 18 are provided to enable supply of power. A pressure contact device of the opening and closing wall 2 is housed, power is disconnected in a state of partition, and power is fed when the opening and closing wall 2 is moved. According to the constitution, the shape memory alloy springs 18 are heated to release pressure contact, and the opening and closing wall 2 can be moved.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a press-welding device for opening and closing walls.

[Conventional technology]

A conventional example is shown in FIG. 7 and FIG. 8. That is, this opening/closing wall pressure welding device is an opening/closing wall pressure welding device that presses and fixes the opening/closing wall 51, which runs with its upper end guided by a rail 50, between the rail 50 and the floor 52.
3.54 is provided on the opening/closing wall 5l so as to be able to rise and fall freely, and the pressure contact body 5
3.54 is provided with a spring 55 that presses each of the rails 50 and the floor 52, and when pulled, the springs 55
A wire 56 is provided to overcome the pressure and release the press-contact state of the press-contact bodies 53 and 54, and this wire 56 is pulled by a lever (not shown) provided at the side end of the opening/closing wall 5l. 57 is a runner that guides the opening/closing wall 5l to the rail 50. [Problems to be Solved by the Invention] However, when the pressure welding device for the opening/closing wall breaks down, it cannot be repaired without removing the covering material of the opening/closing wall 51, making repair work extremely troublesome. In addition, since the pressure welding device is built-in, the weight of the opening and closing wall increases and the manufacture of the opening and closing wall becomes complicated.

Therefore, it is an object of the present invention to provide an opening/closing wall that has few failures, is lightweight, compact, and easy to manufacture and maintain. [Means and Steps for Solving the Problem] The present invention provides a press-welding device for a closing wall, which connects the opening-closing wall whose upper end is guided by a rail to the rail. In a pressure welding device for an opening/closing wall which is fixed in pressure contact between a wall and a floor, upper and lower pressure bodies are provided on the opening/closing wall so as to be movable up and down, and springs are provided for biasing the pressure bodies to be pressed against the rail and the floor respectively, and the pressure bodies are heated by energization. The present invention is characterized in that a shape memory alloy spring is provided which overcomes the spring and releases the press-contact state of the press-contact body by deforming. [Function] According to the structure of the present invention, when the shape memory alloy spring is heated by electricity, it deforms and overcomes the spring, so that the pressure contact of the pressure contact body is released and the spring can move freely on the opening/closing wall. On the other hand, when the electricity is cut off, the shape memory alloy spring cools down and returns to its original state, and the spring presses the press-contact body against the rail and floor, fixing the opening/closing wall. In this way, the pressure welding device can be made lightweight and compact because the pressure welding of the pressure welding body is released using the shape memory alloy spring, and the pressure welding device can be made into a cassette type, which simplifies manufacturing and maintenance. It has high stability against corrosion and corrosion, so failures are extremely rare.

〔Example〕

An embodiment of the present invention will be described based on FIGS. 1 to 6. In other words, this opening/closing wall pressure welding device has rail 1
The opening/closing wall 2, which runs while being guided by the upper end thereof, is fixedly pressed between the rail l and the floor 3. The opening/closing wall 2 is provided with a pair of runners 4 at the upper end, and the runners 4 are connected to the rail 1.
It is supported internally. Further, a wiring duct 5 is provided within the rail l, and a current collector l1 that is in sliding contact with the wiring duct 5 is connected to a runner 4.
It is set up in Upper and lower press-contact bodies 6.7 are provided on the opening/closing wall 2 so as to be able to rise and fall freely. The pressure welding bodies 6 and 7 include a pressure welding frame 21, a pair of support rods 14 having one end fixed to the pressure welding frame 21, and a pair of cases 16 that slidably accommodate the other ends of the support rods 14. The mounting pieces 22 of the case 16 shown in FIGS. 4 to 6 are fixed to storage recesses 8 and 9 formed at the upper and lower ends of the opening/closing wall 2, and the pressure-welding frame 21 is stored so as to be freely retractable. It will be done. The support rod 1 of the runner 4 is attached to the pressure welding frame 21.
A hole l3 through which the 2 is passed is provided.

Further, springs 10 are provided to urge the press-contact bodies 6, 7 to press against the rail 1 and the floor 3, respectively. That is, this spring 10
A collar 15 is provided at the intermediate portion of the support rod 14 of the pressure contact bodies 6 and 7, and a spring 10, which is an example of a coil spring, is placed in a compressed state between the collar 15 and an intermediate plate 17 that guides the support rod 14 of the case 16. It is intervening. Therefore, due to the action of the spring 10, the pressure welding frames 2l of the pressure welding bodies 6 and 7 are urged to protrude from above and below the opening/closing wall 1, and the pressure welding frames 2l of the pressure welding bodies 6 are urged to protrude from above and below the opening/closing wall 1.
is in press contact with the lower surface of the rail l, and the press contact frame 2 of the press contact body 7
I comes into pressure contact with the floor 3, thereby fixing the opening/closing wall 1. Furthermore, a shape memory alloy spring l8 is provided which overcomes the force of the spring lO by being heated and deformed by energization and releases the press-contact state of the press-contact bodies 6 and 7. This shape memory alloy spring 18 is a coil spring (Ni-Ti system, bias method)
In this embodiment, the collar l5 of the support rod l4 is passed through the opposite side of the spring 10 and is interposed between the collar l5 and an upper end plate 19 that guides the support rod 14 of the case l6. As shown in FIGS. 4 to 6, this shape memory alloy spring 18 has both ends connected to one end of a lead wire 23, and the other end is connected to a third lead wire 23.
As shown in the figure, it passes through the opening/closing wall 1, is guided by the runner 4 and connected to the current collector 11, receives power from the wiring duct 5, and is directly activated by energizing the shape memory alloy spring 18. 18 is being heated. The shape memory alloy spring l8 is stored in an expanded state at high temperatures and in a contracted state at room temperature.

This opening/closing wall pressure contact device stops energizing the shape memory alloy spring 18 in the storage state and the partitioning state, and energizes it when the opening/closing wall 2 is moved.

That is, when the current is not applied, the shape memory alloy spring 18 is in a contracted state at room temperature, and as shown in FIG.
expands. Therefore, the collar 15 is pushed up, and the press-contact frames 2l of the press-contact bodies 6 and 7 protrude from the opening/closing wall 2, and their tips come into pressure contact with the rail l and the floor 3, thereby fixing the opening/closing wall 2.

On the other hand, when electricity is applied, the shape memory alloy spring 18 is heated, its temperature rises, it recovers its shape, and deforms into an elongated state. Therefore, the spring 10 is compressed as shown in FIG. 2, and the press members 6 and 7 are stored in the storage recesses 8 and 9. Therefore, the press members 6 and 7 are separated from the rail 1 and the floor 3, so that
The opening/closing wall 2 becomes movable. According to this embodiment, the shape memory alloy spring 18 is
When heated, the pressure contact body 6 deforms and overcomes the spring force.
, 7 is released, and the opening/closing wall 2 can be moved freely. On the other hand, when the electricity is turned off, the shape memory alloy spring 18 is cooled down and returns to its original state, and the pressure contact bodies 6 and 7 are brought into pressure contact with the rail 1 and the floor 3 by the spring, thereby fixing the opening/closing wall 2. In this way, the shape memory alloy spring 18 releases the pressure contact between the pressure contact bodies 6 and 7, so the pressure contact device can be made lightweight and compact, and the pressure contact device can be made into a cassette type, which simplifies manufacturing and maintenance. Spring 18 has high stability against strain and corrosion, so failures are extremely rare. Note that the opening/closing wall 2 may be an electric type that moves electrically. [Effects of the Invention] According to the pressure welding device for an opening/closing wall of the present invention, the pressure welding device can be made lightweight and compact since the pressure welding of the pressure welding body is released using a shape memory alloy spring, and the pressure welding device can be made into a cassette type, which makes manufacturing and maintenance easier. In addition, shape-regulating alloy springs have a high stability against strain and corrosion, so failures are extremely rare.

[Brief explanation of the drawing]

Fig. 1 is a partially omitted sectional view of an embodiment of the present invention in which the opening/closing wall is fixed, Fig. 2 is a partially omitted sectional view of the opening/closing wall in a movable state, and Fig. 3 is a partially omitted sectional view of the opening/closing wall in a state where the opening/closing wall is movable. Overall schematic diagram, 4th
5 and 5 are cross-sectional views showing the lead wire connection state of the shape memory alloy spring, and FIG. 6 is a cross-sectional view taken along the line Vl-Vl in FIG. 4.
FIG. 7 is a sectional view of the conventional opening/closing wall in a fixed state, and FIG. 8 is a sectional view of the opening/closing wall in a movable state. 1...Rail, 2...Opening/closing wall, 3...Floor, 6,7
... Pressure contact body, 10 ... Spring, 18 ... Shape memory alloy spring No. 7 Sole 8 Figure U)

Claims (1)

[Claims] In an opening/closing wall pressure welding device for press-fixing an opening/closing wall whose upper end is guided by a rail between the rail and the floor, upper and lower press-fitting bodies are provided on the opening/closing wall so as to be movable up and down, and the press-fitting bodies are respectively attached to the rail and the above-mentioned A pressure welding device for an opening/closing wall, characterized in that a spring is provided to urge the pressure contact to the floor, and a shape memory alloy spring is provided which overcomes the spring and releases the pressure contact state of the pressure contact body by being heated and deformed by electricity supply. .