JPH0415912Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] The present invention relates to a gap closing device for an automatic door, and in particular, the invention relates to a gap closing device for an automatic door, and in particular, the invention relates to a gap closing device for an automatic door installed in an opening in a building. The present invention relates to a gap closing device for an automatic door that is most suitable for blocking air communication between the inside and outside of a building by closing the gap formed between them.

[Conventional technology]

If left unaddressed, the gap that forms between a single- or double-swing automatic door that is installed to block an opening in a building and the edge of the building's opening will cause a gap between the inside and outside of the building. This resulted in an inconvenience in that air communication was caused, resulting in a decrease in cooling and heating efficiency.

Therefore, conventionally, if necessary, a suitable shielding material such as a belt-shaped sponge or belt-shaped rubber was attached to the rear edge of the automatic door to close the gap between the opening edge of the building and the automatic door. A proposal was made in which the tip of the belt-like body slides into contact with the mullions forming the opening edge when the automatic door is closed.

[Problem that the invention attempts to solve]

However, as mentioned above, if necessary,
If a belt-shaped body is attached to the rear edge of the automatic door, there is the inconvenience of having to do the work each time, and the inconvenience that if the attachment means is insufficient, it is likely to peel off or break during use. be. especially,
When an automatic door is made of a glass plate or an acrylic plate, it is difficult to ensure that the belt-like member is completely attached to the rear edge, and therefore there is a gap between the inside surface of the automatic door and the outside surface of the opening edge. There was a drawback that the gap formed could not be completely closed.

Therefore, in view of the above-mentioned circumstances, the present invention was developed to form the opening edge of the opening where the automatic door is installed using mullion material or upper frame material, or at the same time, to form the inner surface of the automatic door and the outer surface of the opening edge. An object of the present invention is to provide a new gap closing device for an automatic door that can close the gap formed between the two.

[Means for solving problems]

In order to solve the above-mentioned problems, the structure of the present invention includes a frame that is connected to the mullions and/or the upper frame that form the opening edge of the building, and a frame that is connected to the frame within the frame. a plurality of permanent magnets arranged at appropriate intervals along the axial direction of the
A plurality of magnets are disposed within the frame so as to face each of the permanent magnets along the interior and exterior directions of the building, and are excited to repel the permanent magnets when an automatic door that closes an opening in the building is opened/closed. and an electromagnet of
It is connected to either the permanent magnet or the electric magnet that is movably arranged with respect to the frame, and is formed to move following the movement of the movable permanent magnet or electromagnet. The invention is characterized in that the tip of the shield is formed so as to come into contact with the inner surface of an automatic door that closes an opening in a building.

〔Example〕

Hereinafter, the present invention will be explained based on the illustrated embodiments.

As shown in FIG. 1, the automatic door gap closing device according to the present invention is integrally connected to a mullion 1 and an upper frame 2, which serve as the opening edges of an opening in a building. A double-opening automatic door 3 that opens in the direction of the arrow in the figure is disposed in the opening.

A frame 10 constituting this device is disposed so as to surround the automatic door 3, and the outer surface of the frame 10 corresponds to the outer surface of the mullion 1 and the upper frame 2. (see FIG. 2), and a gap is formed between the outer surface of the frame 10 and the inner surface of the automatic door 3 (see FIG. 2).

Inside the frame 10, as shown in FIGS. 2 and 3, there are a plurality of permanent magnets 11 and electromagnets 12.
The permanent magnets 11 and electromagnets 12 are arranged one-on-one at multiple locations along the axial direction of the frame 10 at appropriate intervals (x ₁ to x ₄ in FIG. 1). x′ ₁ to x′ ₄ , y ₁ , y ₂ , y′ ₁ , y′ ₂ ).

The permanent magnet 11 moves the electromagnet 12 in the direction indicated by the arrow in the figure when the automatic door 3 is closed, that is, in the direction shown by the arrow in the figure.
It is moved in a direction toward the outside of the building. In this embodiment, the permanent magnet 11 is held so as to be surrounded by an insulating material 13, and only the portion facing the electromagnet 12 is exposed. The permanent magnet 11 is fixed to the rib 14 of the frame body 10 via the insulating material 13, and is fixed to the rib 14 of the frame body 10 in the front-rear direction, which is the left-right direction in the figure, that is, the inside-outside direction and the up-down direction of the building, that is, the frame body 10. Movement in the axial direction is prevented and it is positioned at a predetermined position.

The electromagnet 12 is excited during the opening/closing operation of the automatic door 3 and generates a repulsive force, and the repulsive direction is opposite to the direction of the arrow in the figure with respect to the permanent magnet 11.
That is, it is formed to move in the direction toward the inside of the building.

The electromagnet 12 is held by a bracket 15 that is slidably supported by the rib 14 of the frame 10. And also, the bracket 1
5 is connected to a guide 16 disposed inside the end of the frame 10 on the side of the automatic door 3.

Therefore, when the electromagnet 12 is excited, the electromagnet 12 moves in the direction of repulsion of the permanent magnet 11, and this movement causes the guide 16 to move via the bracket 15. Become.

As shown in FIG. 2, the guide 16 is formed to have a substantially H-shaped cross section, and has the same vertical length as the frame 10, as shown in FIG. It is formed to have. A groove 16a is formed at the side end of the automatic door 3, and a base 17a of the shield 17 is formed in the groove 18a.
is installed. In this embodiment, the guide 16 and the bracket 15 are connected by screws 18.

A shield 17 formed to interlock with the electromagnet 12 via the guide 16 and the bracket 15 is attached to a narrow plate-shaped base 17a formed to be housed in the groove 16a of the guide 16. ,
It is made of a high-density brush, belt-shaped sponge, belt-shaped rubber, loop-shaped fiber, etc., and its tip is formed so as to come into contact with the inner surface of the automatic door 3. Note that the base 17a disposed within the groove 16a of the guide 16 is
It is fixed in the groove 16a with a suitable adhesive or the like.

Therefore, in order for the automatic door 3 to be opened, the automatic door 3
When the opening/closing device (not shown) is energized, all the electromagnets 12 in the frame 10 are simultaneously excited. By excitation of the electromagnet 12, the electromagnet 12 moves in the direction of repulsion of the opposing permanent magnet 11, causing the guide 16 to move via the bracket 15. Furthermore, this movement of the guide 16 causes the tip of the shield 17 connected to the guide 16 to separate from the inner surface of the automatic door 3. At this time, the automatic door 3 enters the desired open state, and the electromagnet 12 is kept in the excited state while the open state is maintained, that is, while the opening/closing device of the automatic door 3 is energized. This means that the tip of the shield 17 is prevented from coming into contact with the automatic door 3 side.

Furthermore, when the automatic door 3 that has been opened is closed, that is, when the closing operation of the automatic door 3 is completed and the energization to the opening/closing device is terminated,
When the excitation to the electromagnet 12 is released, the electromagnet 12 becomes a mere magnetic body and is moved in the direction of the arrow in the figure by the attraction force of the opposing permanent magnet 11. As the electromagnet 12 moves, the guide 16 connected to the bracket 15 also moves, and the shield 17 arranged on the guide 16 also moves toward the automatic door 3 side. As a result, the tip of the shield 17 is connected to the automatic door 3.
The automatic door 3 is brought into contact with the inner surface of the automatic door 3, and the gap created between the inner surface of the automatic door 3 and the opening edge of the building, that is, the outer surface of the mullion 1, is closed.

In addition, in the above-mentioned embodiment, the permanent magnet 11
The positions of the electromagnet 12 and the electromagnet 12 may be alternated with each other. That is, the electromagnet 12 may be fixed to the rib 14 of the frame 10, and the permanent magnet 11 may be held to the bracket 15. In this case as well, as in the embodiment described above, when the electromagnet 12 is excited, a repulsive action is induced between it and the permanent magnet 11, and when the excitation is released, the electromagnet 12 moves so as to be attracted to the permanent magnet 11. Of course it will.

Moreover, in the above-mentioned embodiment, the frame 10 is
Although the main body 10a is fixed to the side of the mullion 1 and the lid 10b is fixed to the main body 10a with screws 10', it is of course possible to use a frame having another structure instead. be. In particular, it goes without saying that the frame 10 may also be integrally formed as the cubic member 1. In short, the frame 10
It is sufficient that a plurality of permanent magnets 11 and electromagnets 12 are disposed therein, and that a shield 17 is disposed to follow the movement of either the permanent magnets 11 or the electromagnets 12.

[Effects of this invention]

As described above, according to the present invention, when an automatic door is installed in an opening of a building, it is connected to the mullion material and the upper frame material that constitute the opening edge, or to either one of them. This eliminates the inconvenience of attaching a shield to the automatic door every time, and also prevents sliding contact between the automatic door and the moving automatic door when the automatic door is opened or closed. There will be no inconveniences such as scratches or obstruction of opening/closing due to friction.

Since the shield is energized so that its tip abuts against the inner surface of the automatic door, even if the shield becomes worn or fatigued, there will be a gap between the outer surface of the opening edge and the inner surface of the automatic door. will no longer remain, and air communication through the gap between the inside and outside of the building will be completely cut off.

[Brief explanation of drawings]

Fig. 1 is a front view showing the inside of an opening of a building in which an automatic door gap closing device according to an embodiment of the present invention is installed, and Fig. 2 shows an installed state of the automatic door gap closing device according to the present invention. The cross-sectional view and FIG. 3 are longitudinal cross-sectional views similar to FIG. 2. DESCRIPTION OF SYMBOLS 1...Mull, 2...Upper frame material, 3...Automatic door, 10...Frame, 11...Permanent magnet, 12...
Electromagnet, 13... Insulating material, 14... Rib, 15
... Bracket, 16 ... Guide, 17 ... Shield.

Claims (1)

[Scope of utility model registration request] A frame body that is connected to the mullions and/or upper frame members that form the opening edge of the building, and a frame body that is arranged within the frame body at appropriate intervals along the axial direction of the frame body. A plurality of permanent magnets are disposed within the frame so as to face each of the permanent magnets along the inside and outside directions of the building, and are repelled by the permanent magnets when an automatic door that closes an opening in the building is opened or closed. a plurality of electromagnets that are excited so as to move, and a plurality of electromagnets that are connected to one of the permanent magnets or electric magnets that are movably arranged with respect to the frame and move the movable permanent magnets or electromagnets. and a shield formed so as to move along with the automatic door, and the tip of the shield is formed so as to come into contact with the inner surface of an automatic door that closes an opening in a building. An automatic door closing device that is characterized by: