JPS6158636B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an automatic shutter device that is automatically opened and closed by a motor or the like.

2. Description of the Related Art In general, automatic shutter devices for large buildings such as buildings are used, in which a shutter in the form of a shutter is automatically raised and lowered to open and close using a drive mechanism such as a motor. By the way, with such automatic shutter devices, if there is a person standing or no object placed under the shutter when the shutter is lowered, there is a risk that the person will be caught in the shutter, and there is also a risk that the shutter will not be placed. There were cases where the product was damaged when it hit something that was being held. Especially recently, automatic shutter devices have been installed in home garages, etc.
Some of these devices are configured so that the shutter automatically closes after the vehicle leaves the garage. With these types of shutters, there is no operator present when the shutter is closed, and with household use, there is a possibility that an infant may be under the shutter.
There was a risk that the infant would be caught in the shower. To prevent this kind of danger, a device is installed near the floor below the shutter to detect the presence of people or objects, and if a person or object is present, the shutter will automatically stop descending. It is possible to configure
Conventional devices for detecting the presence of people or objects have been to install a mat with built-in contacts on the floor.
When a person or object steps on the pine, the pine is compressed by the load and the contact closes, or the light source and receiver are installed near the floor, and a person or object is placed on the pine and the light source and receiver are placed close to the floor. A light receiver is used to detect the presence of a person or object by blocking the light from the light source by blocking the light from the light source. However, the locations where shutters are installed are often exposed to rain or other water, and installing electrical components such as mats with built-in contacts, light sources, light receivers, etc. near the floor in such locations requires the use of these electrical components. The parts must have a waterproof structure, which increases costs, and if the waterproofing is impaired, failures may occur due to water intrusion, resulting in low reliability.
In addition, automatic shutter devices automatically stop the drive mechanism when the shutter descends to the floor.
A micro-switch or the like is provided near the floor surface, but as mentioned above, this micro-switch also needs to have a waterproof structure, and if the waterproofing is impaired, there is a problem in that it will malfunction.

The present invention has been made based on the above circumstances, and its purpose is to detect whether or not there is a person or object near the shutter when the shutter is closed, and to detect whether a person or object is present in the vicinity of the shutter. An automatic shutter that automatically stops the shutter drive to ensure safety, prevents water from splashing on the electrical components of the mechanism that detects people and objects, eliminates the need for a waterproof structure, and improves reliability. It's about getting the equipment.

The present invention will be described below with reference to an embodiment shown in the drawings. This embodiment is an automatic shutter device installed in a home garage, and 1 in the figure is the garage. An automatic shutter device 2 is provided at the entrance/exit of the garage 1. Reference numeral 3 denotes the shutter, which is configured to be wound onto a reel 4 provided above the entrance/exit. The reel 4 is rotationally driven by an opening/closing drive mechanism 7 comprising a motor 5, a speed reducer 6, etc., and is configured to automatically open/close by winding up or lowering the shutter 3. Further, this opening/closing drive mechanism 7 is controlled by a control circuit 8, and is configured so that the shutter 3 can be opened and closed by manual operation, and can also be automatically closed after the car leaves the garage. There is. Then, the contact surface when the shutter 3 is closed, that is, this shutter 3
A load detector 9 is provided on the floor below. 10 are the bellows, and these bellows 10 are made of a corrosion-resistant metal material such as stainless steel, and are arranged at predetermined intervals in a groove-shaped recess 11 provided across the entrance/exit. . Further, above these bellows 10......, tread plates 12...... are respectively provided, and these tread plates 1...
2... closes the upper opening of the recess 11 and is located substantially on the same plane as the floor surface. Upper stoppers 13 are provided at both edges of the recess 11, respectively.
13 is provided protrudingly, and the upper stopper 13,1
3 is in contact with the upper surface of both edges of the step board 12. Further, lower stoppers 14, 14 are provided on both sides inside this recess 11, and these lower stoppers 14, 1
Step board 12 4 faces the lower surface of both edges with a predetermined distance therebetween. And the above-mentioned tread plate 12...
is constantly urged upward by a spring 15. Therefore, when a person or something is placed on the tread plate 12, the load causes the tread plate 12 to resist the biasing force of the spring 15. When the bellows 10 is pushed down, the bellows 10 is compressed and its internal volume is reduced. In addition, both edges of these footboards 12...... are upper stoppers 13, 13.
, so even if a person steps on or something is placed on the edge of these footboards 12, the opposite edge will not lift up, and these footboards 12... . . . is configured to be able to tilt downward and compress the bellows 10 . The bellows 10 are connected to each other by a connecting pipe 16,
A liquid such as water is sealed inside these bellows 10. Also, the bellows 10 at one end
A water supply pipe 17 is connected to the water supply pipe 17.
The tip end is connected to the water supply tank 18.
This water supply tank 18 is made of, for example, a transparent synthetic resin material and is provided with a scale 19, so that the water level of the water sealed in this water supply tank 18 and the bellows 10 can be known. It is configured so that it can be done. The top opening of this water replenishment tank 18 is sealed with a lid 20, and this lid 20 has a stopper 21 for replenishing water.
is provided. Also, the other end bellow 1
0 is connected to a pressure detection tube 22, and this pressure detection tube 22 is bent upward. A pressure guide tube 23 made of a soft synthetic resin material or the like is connected to the upper end of the pressure detection tube 22, and the pressure guide tube 23 extends upward. A rising passage 24 is formed by the upwardly rising portion of the pressure guiding pipe 23 and the pressure measuring tube 22 . In addition, this rising passage 2
The pressure measuring tube 22 and the pressure guiding tube 23 constituting 4 are relatively small in diameter. The impulse pipe 23 is extended to a location where it is not exposed to water, for example, the ceiling of the garage 1, and is connected to a pressure switch mechanism 25 provided at such a location. Air is sealed in the bellows 10, and the water sealed in the bellows 10 reaches only below the rising passage 24, that is, to the level of the water in the water supply tank 18. And the pressure switch mechanism 25
includes a diaphragm 26 that receives pressure within the rising passage 24, and a micro switch 27 that is activated by the deformation of this diaphragm 26. When the pressure inside the rising passage 24 rises, the micro switch 27 is activated and the control circuit 8 is activated.
The shutter 3 is configured to send a signal to stop the lowering of the shutter 3. Further, the pressure switch mechanism 25 is provided with an orifice 28 that communicates the inside of the rising passage 24 with the atmosphere and allows only a minute flow of air to flow through the rising passage 24. A relief passage is formed to release the expanded air into the atmosphere to prevent a rise in pressure within the rising passage 24. Further, a drive protrusion 29, for example, is provided protrudingly at the lower end of the shutter 3, and the shutter 3
When the driving protrusion 29 descends to the floor, the driving protrusion 29 hits the footboard 12 and pushes it down.

In one embodiment of the present invention constructed as described above, when the shutter 3 is lowered, a person is riding under the shutter 3, that is, on the treadle 12.
Or, if something is placed on it, the tread 12...... will be lowered by the load, and the bellows 10 will be lowered.
...... is compressed and its internal volume decreases. Therefore, the water sealed in the bellows 10 is pushed out to the pressure detection tube 22, compresses the air sealed in the rising passage 24, and its pressure increases. Therefore, this pressure increase activates the micro switch 27 of the pressure switch mechanism 25.
A signal is sent to the control circuit 8 to stop the shutter 3 from lowering. In this case, the amount of air sealed is only in the upper part of the rising passage 24, so the volume is small, and the pressure rise against the reduction in internal volume due to the compression of the bellows 10 can be large, resulting in high sensitivity and reliability. Sex is also important. Therefore, it is safe because people will not get caught in the shutter 3, or objects will not hit the shutter 3 and damage it. Further, when there is no person or object under the shutter 3, when the shutter 3 is lowered to the floor, the driving protrusion 29 protruding from the lower end of the shutter 3 pushes down the footboard 12, so that the shutter 3 is lowered.
The descent will stop automatically. Therefore, it is possible to omit a micro switch or the like which is conventionally provided near the floor surface for stopping the shutter when it is lowered to the floor surface. In addition, when the air sealed in the rising passage 24 expands due to temperature changes, this air is released into the atmosphere through the orifice 28, which prevents pressure from rising due to temperature rise, and prevents malfunctions. prevent. Note that the orifice 28 allows only a minute flow of air to flow through, so if the pressure in the rising passage 24 increases slowly, such as when the temperature rises, the air will escape from the orifice 28. However, the pressure rise is prevented, but the tread plate 12...
...If the pressure rises rapidly, such as when a person or object is on top of it, the pressure will rise and the pressure switch mechanism 25 will be able to operate reliably. In this case, the pressure switch mechanism 25 can be installed in a place where the pressure switch mechanism 25 is not exposed to water by extending the impulse pipe 23, and air is sealed in the rising passage 24, so that the water inside the bellows 10 can be disposed of. Since it does not reach the pressure switch mechanism 25, the pressure switch mechanism 25 does not need to have a waterproof structure, and since there is no possibility of water intrusion, there is no possibility of failure and high reliability.

Note that the present invention is not limited to the above embodiment.

For example, the present invention is applicable not only to a shutter that is opened and closed by moving up and down, but also to a shutter that is opened and closed by moving left and right. In this case, the load detector may be provided perpendicularly to the contact surface of the shutter, and when a person or object is caught in the shutter and comes into contact with the load detector, the drive of the shutter is stopped by the load.

Further, the load detecting body does not necessarily have to have the above-mentioned structure, and may be, for example, a bag made of an elastic material such as synthetic rubber, in which a liquid is sealed.

Furthermore, the pressure switch mechanism is not necessarily limited to the one described above.

Furthermore, the relief passage does not necessarily need to use an orifice; for example, the rising passage may be connected to the atmosphere through a member such as a sintered metal stopper that allows only a minute flow of air to flow. .

As described above, the present invention provides a load detection body whose internal volume is reduced by the load caused by contact with an object on the contact surface of the shutter, and seals a liquid in this load detection body,
In addition, a rising passage that communicates with this load detection body and extends upward is provided, and the upper end of this rising passage is communicated with a pressure switch mechanism that is activated by pressure increase to stop the shutter. Air is sealed in the rising passageway, and an escape passageway is provided which communicates the upper part of the rising passageway with the atmosphere and allows only a minute flow of air to pass through. Therefore, when a person or an object steps on top of this load sensing object or is caught in a shutter and comes into contact with the load sensing object, the internal volume of the load sensing object decreases due to the load and the object is enclosed. The liquid in the shutter is pushed out into the rising passage, the air in the rising passage is compressed, the pressure rises, and the pressure switch mechanism is activated to stop the shutter, which is safe. Moreover, this pressure switch mechanism can be installed in a location separate from the load detector and not exposed to water, and since air is sealed in the upper part of the rising passage, the water etc. sealed in the load detector can be placed under this pressure. The pressure switch mechanism does not need to be waterproof and will not fail due to water intrusion. In addition, when the shutter closes, the shutter automatically stops driving when it hits this load detection object, so there is no need to install a micro switch to stop the shutter when it closes, so there is no need to install a micro switch to stop the shutter when it is closed. It is now possible to configure the system without any mechanical parts, which has great effects such as greatly improving reliability.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention; FIG. 1 is a longitudinal sectional view, FIG. 2 is a plan view, FIG. 3 is a vertical sectional view of the main part, FIG. 4 is a plan view of the main part, and FIG. 5 is a longitudinal sectional view of the main part. 4 is a sectional view taken along the line - in FIG. 4. FIG. DESCRIPTION OF SYMBOLS 1... Garage, 3... Shutter, 7... Opening/closing drive mechanism, 8... Control circuit, 9... Load detector, 10
... Bellows, 12 ... Stepboard, 18 ... Water supply tank, 22 ... Pressure test tube, 23 ... Impulse tube, 24 ...
Rising passage, 25...pressure switch mechanism.

Claims (1)

[Claims] 1. A shutter that opens and closes the entrance/exit, an opening/closing drive mechanism that automatically opens and closes the shutter, a load detection body that is installed on the contact surface of the shutter and whose internal volume decreases due to the load caused by contact with an object, and The liquid sealed in the sensing body, the rising passage that communicates with the load sensing body, extends upward, and has air sealed in the upper part, and the opening/closing drive mechanism that is connected to the upper part of this rising passage and is actuated by a pressure increase. An automatic shutter device comprising: a pressure switch mechanism for stopping the shutter; and a relief passage that communicates the upper part of the rising passage with the atmosphere and allows only a minute flow of air to pass through.