JPH09229439A - Ventilation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve a signal receiving capability of a ventilation device operated with an electrical wave transmitted. SOLUTION: This ventilation device is comprised of a signal receiving section for receiving an electrical wave transmitted from a remote controller and a control device 14 for use in controlling a blower motor 8 for a blower 2 in response to a signal received from this receiving section, wherein the blower 2 is arranged at a main body 3 forming an air passage 5, a grill 4 made of a resin having a wider area than that of the main body 3 through which aeration can be carried out is installed at the end part of the main body 3 facing inside the room, and an antenna section 19 at the receiving section is assembled in the area of this grill 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation device that belongs to the technical field of ventilation for exhausting indoor air to the outside.

[0002]

2. Description of the Related Art Various types of ventilation devices are widely used as ventilation devices for ventilating a room by exhausting indoor air to the outside. As is well known, this type of ventilation device often has a structure in which a blower is installed in the air passage of a main body that forms an air passage that communicates indoors and outdoors, and a grill is attached to the indoor side of the main body. Among these, there are those which can be remotely controlled by a remote control, and those which are provided with a detection means for detecting humidity and air pollution and automatically operate when a ventilation condition is reached.

For example, Japanese Unexamined Patent Publication No. 6-229598 discloses a wireless remote control type ventilation device in which the ventilation device can be remotely controlled by radio waves transmitted from a transmission device. By operating a remote controller, which is a transmitting device, a ventilation device equipped with a receiving section determines the content of the transmission, and operates according to the content of the transmission. Further, as the ventilation device provided with the detection means, for example, a device disclosed in Japanese Patent Laid-Open No. 3-843465 can be cited. This is for the purpose of ventilation drying of the bathroom, equipped with a humidity sensor that detects the humidity in the bathroom, and the operation of the ventilation device is automatically controlled so that the value detected by this humidity sensor becomes the set value. It is supposed to be done.

[0004]

In the conventional ventilator as described above, which uses radio waves to remotely control the ventilator, the receiver is provided in the main body of the ventilator. As for the antenna of the receiving part, since the body of the ventilation device is made of sheet metal and the length is limited, it is difficult to obtain the gain depending on the wavelength of the radio wave, and the problem of the receiving ability remains.

Further, a detection means such as a humidity sensor is built in,
In the automatic operation system, the ventilator itself has a structure that communicates between the inside and outside of the room and does not have airtightness or heat insulation. It is easily affected and often malfunctions. For example, for a ventilator that has stopped under ventilation conditions,
Especially in winter, low-temperature outside air reaches the humidity sensor through the air passage, and the measurement environment of the humidity sensor changes significantly. Although many shutters are provided on the outdoor side of the air passage, even if the shutter is closed, the above-mentioned disturbance requirement cannot be prevented.

The state quantity detected by the detecting means is not humidity,
For example, even in the case of air pollution, in most cases,
Since the concentration of pollution is lower in the outdoor than in the indoor, the detection means built in the ventilator is affected by the outdoor side, and the ventilator also malfunctions.

The present invention has been made in order to solve the above-mentioned conventional problems, and its object is to improve the receiving ability of a ventilator operated by transmitted radio waves. It is to improve the reception capacity of the ventilation device that operates by radio waves with a simple configuration, to avoid malfunction by the detection means of the ventilation device that automatically operates according to the state amount by the detection means, and set the blower notch to any It is to obtain a ventilation device that can be easily set to the air volume output.

[0008]

In order to achieve the above object, the invention of claim 1 includes a receiving section for receiving a radio wave transmitted from a remote controller, and a fan motor based on the signal received by the receiving section. For the ventilation device equipped with a control device to control, the blower is installed in the main body that forms the air passage, and the indoor side end of this main body is equipped with a resin grill with a wider flat area than the main body The means for incorporating the antenna part of the part into the flat area of this grill is adopted.

By adopting the above-mentioned means, the antenna area of the receiving portion for receiving the radio wave from the remote controller is incorporated in the resin grill facing the room, which has a larger plane area than the main body, so that an antenna matching the wavelength of the radio wave is applied. Therefore, the factors that interfere with reception are reduced.

In order to achieve the above-mentioned object, the invention of claim 2 is a receiving section for receiving a radio wave transmitted from a remote controller,
For a ventilator equipped with a control device that controls the motor of the blower based on the signal received by this receiving unit, the blower is provided in the main body that forms the air passage, and ventilation is possible at the indoor side end of this main body Install a detachable antenna made of resin, which has a wider flat area than the main body, using the suspension springs provided on the back of this grill, and incorporate the antenna part of the receiving part within the flat area of this grill. A means for forming an electric path for a signal between them by a suspension spring is adopted.

By adopting the above means, since the antenna part of the receiving portion for receiving the radio wave from the remote controller is incorporated in the resin grill facing the room, which has a larger flat area than the main body, an antenna matching the wavelength of the radio wave is applied. It is possible to reduce the number of factors that interfere with reception, and the receiver can have a simple configuration.

In order to achieve the above object, the invention of claim 3 is provided with a shutter for opening and closing an air passage provided with a blower, and a state quantity related to the air quality in the room is detected in a portion of the air passage facing the indoor side. To the ventilation device in which the blower and the shutter are controlled by the control device so that the state quantity detected by the detection means becomes the set state quantity.
A means for operating the blower to discharge air with a small amount of air while the shutter is closed is adopted.

By adopting the above-mentioned means, since the blower performs a slight air exhaust operation even when the shutter is closed, a flow of air from the room to the outside is formed, and the detection means is always kept in the indoor environment. be able to.

In order to achieve the above object, the invention of claim 4 is provided with a shutter for opening and closing an air passage provided with a blower, and a state quantity relating to the air quality in the room is detected in a portion of the air passage facing the indoor side. To the ventilation device in which the blower and the shutter are controlled by the control device so that the state quantity detected by the detection means becomes the set state quantity.
If the state quantity detected by the detection means satisfies the operation start condition, the blower is allowed to perform an exhaust operation with a small amount of air while the shutter is closed prior to the start of operation, and the state quantity is detected again and the value is reached. Accordingly, a means for operating the blower and opening the shutter is adopted.

By adopting the above means, when the operation start condition is satisfied, the exhaust operation of the breeze is performed with the shutter closed, so that the environment to which the detection means was exposed is changed from the indoor environment to Whether or not the operation start condition is satisfied is reconfirmed, and after the reconfirmation, the operations of the blower and the shutter are controlled.

In order to achieve the above object, the invention of claim 5 is provided with an air passage provided with a blower, and a detection means for detecting a state quantity relating to the air quality in the room is provided in a portion of the air passage facing the indoor side. A ventilation device in which a blower is controlled by a control device so that the state quantity detected by the detection means has a set state quantity, and the state quantity detected by the detection means satisfies an operation stop condition. In this case, a means for operating the blower with a small amount of exhaust air is adopted.

By adopting the above means, when the operation stop condition is satisfied, the blower performs the exhaust operation by the breeze without stopping, so that the detecting means can always be kept in the indoor environment. .

In order to achieve the above object, the invention of claim 6 provides the control device in the means according to any one of claims 1 to 5 with means for controlling the speed of the motor of the blower at a variable speed. This controller enables variable speed control of the blower by switching the blower notch, and the controller is equipped with a rewritable non-volatile memory that stores the variable speed output value. Is configured to be rewritable by a remote controller, and a means for enabling the blower notch to be set to an arbitrary air volume output is adopted.

By adopting the above-mentioned means, claim 1
~ With the function according to any one of claims 5 to 5,
By rewriting the value of the variable speed output of the non-volatile memory with the remote control, it becomes possible to set the blower notch of the air volume output in which the pressure loss which is different due to the connected duct or outdoor hood is corrected.

[0020]

Embodiments of the present invention will now be described with reference to the drawings. First Embodiment of the Invention The ventilation device according to the first embodiment shown in FIGS. 1 to 3 includes a main body 3 in which a blower 2 is incorporated in a main body casing 1, and a grill 4 detachably attached to a lower surface of the main body 3. There is. Main body casing 1
Is a box made of sheet metal with an open lower surface forming the air passage 5, and an air outlet is opened at one side thereof. A mounting flange for mounting the open portion toward the indoor side is formed on the peripheral edge of the open portion on the lower surface, such as on the roof edge, and a duct connection port 7 having a shutter 6 is attached on the outer side of the air outlet. ing.

The blower 2 is provided such that its suction port faces the open portion of the lower surface and its blowout port communicates with the blowout port of the main body casing 1. The blower motor 8 has its blower motor 8
It is installed on the top plate of. On the inner surface of the lower surface of the main body casing 1 that faces the opening and is opposed to the main body casing 1, a metal (mostly iron) is electrically insulated from the main body casing 1.
The grill receivers 9 are attached one by one. The grill receiver 9 has a horizontally long slit that opens in the vertical direction, and a reception terminal portion 10 is provided in the vicinity of the slit of one grill receiver 9.

The grill 4 is made of resin, and has a slit-like ventilation port which has a larger plane area than the lower surface of the main body casing 1 and constitutes a substantial suction port. This grill 4
A suspension spring 11 having conductivity is attached to each of the rear portions of the grill receivers 9 facing each other. The suspension spring 11 has a configuration in which two suspension legs 12 that spread in an open manner are coupled to each other at a base portion that forms a torsion spring portion, and the suspension legs 12 are mounted on the torsion spring portion. The suspension legs 11 of the suspension spring 11 are inserted into the slits of the grill receiver 9 on the main body 3 side and the grill 4 is pushed up, so that the grill 4 is attached to the lower surface of the main body 3 by the suspension springs 11.
It is held as shown in FIG. 1 by the elastic force of.

This ventilator is constructed so that it can be remotely controlled using radio waves. That is, the main body 3 incorporates a receiver that receives radio waves transmitted from the remote controller 13 as shown in FIG. 3, and a controller 14 that controls the blower motor 8 of the blower 2 based on the signal received by the receiver. Has been. As shown in FIG. 2, the control device 14 includes a microcomputer 15, a receiving circuit 16, a nonvolatile memory 17 such as an EEPROM, and a variable speed motor drive circuit 18. The reception circuit 16 is connected to a reception unit that receives radio waves from the remote controller 13. The receiving portion is composed of an antenna portion 19 and a connecting portion connecting the antenna portion 19 and the receiving circuit 16, and the antenna portion 19 is integrally formed with a suspension spring 11 provided on the back surface of the grill 4.

That is, the grill receiver 9 having the receiving terminal portion 10
The antenna portions 19 attached along the back surface of the grill 4 are formed on both sides of the torsion spring portion of the suspension spring 11 corresponding to. The connecting portion is the suspension leg 12 of the suspension spring 11.
And a receiving terminal portion 10 provided on the grille receiver 9 and a lead wire 20 connecting the receiving terminal portion 10 and the receiving circuit 16. When the grill 4 is attached to the main body 3, the suspension legs 12 of the suspension spring 11 elastically elastically move to the grill holder 9
It spreads in the slit and contacts the receiving terminal portion 10 so that it can be energized while exerting an elastic force. Therefore, an electric path is formed between the antenna portion 19 and the receiving circuit 16 of the control device 14, and both are in a connected state.

As described above, by providing the antenna portion 19 on the grill 4 made of resin having a wide flat area, the remote controller 1
The antenna portion 19 matching the wavelength of the radio wave transmitted by the antenna 3 can be provided, and the gain can be easily obtained and the receiving ability can be improved as compared with the case where the antenna portion 19 is provided in the narrow body 3 made of sheet metal. Further, by forming a signal transmission path with the grille receiver 9 and the suspension spring 11, it is possible to provide a receiving unit that does not obstruct attachment / detachment of the grille 4 and has a simple structure, and reduce the cost. The antenna portion 19 may be configured separately from the suspension spring 11, and the antenna portion 19 and the suspension spring 11 may be joined by soldering or the like.

The non-volatile memory 17 of the controller 14 stores the variable speed output value for the blower motor 8. Based on the value of the variable speed output, the microcomputer 15 controls the blower motor 8 via the variable speed motor drive circuit 18 by changing the blower notch strength, weakness, or the like. The variable speed output value stored in the non-volatile memory 17 can be rewritten by operating the adjustment remote controller 21. That is, a mode switching operation of the remote controller 13 forms a transmission / reception system between the adjusting remote controller 21 containing the air volume setting code and the ventilation device. When the adjusting remote controller 21 transmits a radio wave of the air volume setting code, it is received by the receiving unit, a signal is sent to the control device 14, and the value of the variable speed output of the non-volatile memory 17 is rewritten. As a result, the blower notch can be reset to an arbitrary variable airflow rate output. Therefore, even if the pressure loss of the ventilation system changes due to the length of the duct or the outdoor hood, it is possible to set the air volume of the ventilation system accordingly, and the measured value of the air volume of the ventilation system can be measured by the air volume measuring device. In such a case, the blower notch can be set to an appropriate variable air volume output.

Embodiment 2 of the Invention The ventilation device of the second embodiment shown in FIGS. 4 to 6 has a grill 24 mounted on the indoor side of an air passage 23 provided with a blower 22 as shown in FIG.
Further, an electric shutter 25 for opening and closing the indoor open end of the air passage 23 is provided, and a concave storage portion 26 is provided at a lower portion of the grill 24.
Are formed. The storage portion 26 is configured to be ventilated so as to face the inside of the room, and as shown in FIG. 5, the storage portion 26 is connected to the air passage 23 outside the shutter 25 by the ventilation window 27. A control device 29 is incorporated in the lower part of the front surface of the main body 28 forming the air passage 23. The controller 29 is the microcomputer 3
0, the variable speed motor drive circuit 31, and the shutter drive circuit 3
2 is provided.

The storage portion 26 of the grill 24 stores detection means for detecting a state quantity related to the air quality (temperature, humidity, miscellaneous gas, etc.) in the room. In the second embodiment, a humidity sensor 33 that detects, for example, humidity is applied as the detection means. The detection output of the humidity sensor 33 is input to the control device 29. A setting knob 34 arranged on the front surface of the grill 24 is connected to the control device 29, and the state quantity of the air quality that is a target value can be set by operating the setting knob 34. The control device 29 controls the blower motor 35 and the motor of the shutter 25 so that the state quantity detected by the humidity sensor 33 by the variable speed motor drive circuit 31 and the shutter drive circuit 32 becomes the state quantity set by the setting knob 34. .

The ventilation device of the second embodiment is automatically operated by turning on the power switch 36. Humidity sensor 33
When the state quantity detected by exceeds the set value set by the setting knob 34, the microcomputer 30 determines that the operation start condition of the ventilation device is satisfied, and the shutter drive circuit 3
2 outputs a command for ventilating operation with a weak notch to the variable speed motor drive circuit 31 together with a command for opening the shutter 25. As a result, the shutter 25 opens the air passage 23, and the blower 22 performs ventilation operation with a weak notch. After a lapse of a predetermined time, the microcomputer 30 fetches the state quantity detected by the humidity sensor 33 and the set value and compares them to determine whether the air quality in the room has been improved. If not improved, the variable speed motor drive circuit 31
A command for ventilation operation with a strong notch is output to, the blower 22 is operated with a strong notch, and after a predetermined time has elapsed, the state quantity detected by the humidity sensor 33 and the set value are fetched and compared with each other. Determine if the air quality in the room has improved. If not improved, the above operation is repeated.

When the air quality in the room is improved by the ventilation operation, the microcomputer 30 outputs a command for exhaust operation with a small air volume to the variable speed motor drive circuit 31,
A command for closing the shutter 25 is output to the shutter drive circuit 32. As a result, the shutter 25 is closed and the blower 22 performs the exhaust operation with a small amount of air. The exhaust operation with a small amount of air is an operating state in which the impeller of the blower 22 is rotated by the outside air, and is a ventilation operation of about 10% of normal. Due to this slight air volume exhaust operation, the air in the room always flows into the storage portion 26 and is discharged to the outside from the ventilation window 27 through the air passage 23. Therefore, the humidity sensor 33 in the storage unit 26 is placed in the same environment as the room, and the influence of the air quality from the outside of the room on the humidity sensor 33 is eliminated. That is, since the disturbance requirement for the humidity sensor 33 is eliminated, malfunction of the ventilation device is also avoided.

The control technique shown in the second embodiment can be applied to a ventilation device having no shutter 25. In this case, the shutter drive circuit 3
2 is unnecessary, and other configurations and operations are as described above.

Embodiment 3 of the Invention The configuration of the ventilation device of the third embodiment is the same as that of the ventilation device shown in the second embodiment. Therefore, the drawings according to the second embodiment are incorporated as they are. The ventilation device of the third embodiment is
When the state quantity detected by the detection means satisfies the operation start condition, the blower 22 is made to perform an exhaust operation with a small air volume while the shutter 25 is in the closed state prior to the start of operation, and the state quantity is detected again and the value thereof is detected. According to the above, the blower 22 is operated and the shutter 25 is opened.

That is, when the state quantity detected by the humidity sensor 33 as the detection means exceeds the set value set by the setting knob 34, the microcomputer 30 determines that the operation start condition of the ventilation device is satisfied, and the shutter 25 is closed. A command for exhaust operation with a small amount of air is output to the variable speed motor drive circuit 31 as it is, and the blower 22 is made to perform an exhaust operation with a small amount of air for a short time. After that, the microcomputer 30 takes in the state quantity detected by the humidity sensor 33 and the set value, compares them, and determines whether or not the operation start condition is satisfied. If the operation start condition is satisfied, the variable speed motor drive circuit 31 outputs a command for ventilation operation with a weak notch, and the shutter drive circuit 32 outputs a command for opening the shutter 25. As a result, the shutter 25 opens the air passage 23, and the blower 22 performs ventilation operation with a weak notch. When it is determined that the operation start condition is not satisfied, the blower 22 is stopped and the ventilation device is stopped.

When the ventilation operation is started, the microcomputer 30 fetches the state quantity detected by the humidity sensor 33 and the set value after a lapse of a predetermined time, and compares them to determine whether the air quality in the room is improved. Determine whether If not improved, a command for ventilation operation with a strong notch is output to the variable speed motor drive circuit 31, the blower 22 is operated with the strong notch, and after a predetermined time has elapsed, the humidity sensor 3
The state quantity detected in 3 and the set value are fetched and compared with each other to determine whether the air quality in the room has been improved.
If not improved, the above operation is repeated. When it is improved, the blower 22 is stopped and the shutter 25 is also closed.
That is, in the ventilator according to the third embodiment, prior to the start of operation, the environment of the humidity sensor 33 is once changed to the indoor environment by the exhaust operation with a small amount of air to eliminate the influence of the outdoor side, and then the operation start condition is set. Since the reconfirmation is performed, the malfunction of the ventilation device due to the disturbance can be prevented as in the second embodiment. In the second embodiment, the ventilation device is always in the operating state, but in the third embodiment, the stop state is set, so the running cost is low.

In the second and third embodiments, the control device 29 is provided with the nonvolatile memory 17 as shown in the first embodiment so that the value of the variable speed output stored therein can be rewritten. Alternatively, the notch of the blower 22 may be reset to an arbitrary air volume variable speed output.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of an attached state of a ventilation device according to a first exemplary embodiment of the invention.

FIG. 2 is a configuration diagram of a control device and a receiving unit of the ventilation device according to the first embodiment of the invention.

FIG. 3 is an explanatory diagram showing a remote controller for the ventilation device according to the first exemplary embodiment of the invention.

FIG. 4 is a front view of a ventilation device according to second and third embodiments of the invention.

FIG. 5 is a configuration diagram of a ventilation device according to second and third embodiments of the invention.

FIG. 6 is a configuration diagram of a control device for a ventilation device according to second and third embodiments of the invention.

[Explanation of symbols]

 2 Blower 3 Main body 4 Grill 5 Air duct motor 8 Blower motor 9 Grill receiver 10 Reception terminal part 11 Suspension spring 13 Remote controller 14 Controller 15 Microcomputer 17 Non-volatile memory 18 Variable speed motor drive circuit 19 Antenna part 20 Lead wire 21 Adjustment remote controller 22 Blower 23 Air passage 24 Grill 25 Shutter 28 Main body 29 Controller 30 Microcomputer 31 Variable speed motor drive circuit 32 Shutter drive circuit 33 Humidity sensor 34 Setting knob 35 Blower motor

Claims (6)

[Claims] 1. A ventilation device, comprising: a receiver for receiving radio waves transmitted from a remote controller; and a controller for controlling a fan motor based on a signal received by the receiver. It is installed in the main body that forms the passage, and a resin grill with a wider flat area than the main body is attached to the indoor side end of this main body, and the antenna part of the receiving part is incorporated in the flat area of this grill. Ventilation device characterized by that. 2. A ventilation device, comprising: a receiver for receiving radio waves transmitted from a remote controller; and a controller for controlling a motor of a blower based on a signal received by the receiver. It is provided in the main body that forms the passage, and a resin grill with a wider flat area than the main body is attached to the indoor side end of this main body by a suspension spring provided on the back of the grill, and the antenna part of the receiving section is attached. A ventilation device, characterized in that it is incorporated in a flat area of the grill, and an electric path relating to a signal between the antenna portion and the control device is formed by the suspension spring. 3. An air passage provided with a blower is provided with a shutter for opening and closing the air passage, and a portion of the air passage facing the indoor side has detection means for detecting a state quantity relating to the air quality in the room.
A ventilation device in which a blower and a shutter are controlled by a control device so that the state quantity detected by the detection means is a set state quantity, and the blower is controlled by a small amount of air when the shutter is closed. Ventilation device characterized by being operated in exhaust mode. 4. An air passage provided with a blower is provided with a shutter for opening and closing the air passage, and a detection means for detecting a state quantity relating to the air quality in the room is provided in a portion of the air passage facing the indoor side.
A ventilation device in which a blower and a shutter are controlled by a control device so that the state quantity detected by the detection means is a set state quantity, and the state quantity detected by the detection means satisfies an operation start condition. Prior to the start of operation, the blower is allowed to perform an exhaust operation with a small amount of air while the shutter is in the closed state, the state quantity is detected again, and the blower is operated and the shutter is opened according to the value. Ventilation device characterized by. 5. An air passage provided with a blower is provided, and a detection means for detecting a state quantity related to the air quality in the room is provided in a portion of the air passage facing the indoor side, and the state quantity detected by the detection means is A ventilator in which the blower is controlled by the control device so that the set state quantity is achieved, and when the state quantity detected by the detection means satisfies the operation stop condition, the blower is caused to perform exhaust operation with a small air volume. Ventilation device characterized in that. 6. The ventilation device according to any one of claims 1 to 5, further comprising a control device for controlling a variable speed of a motor of the blower, wherein the blower notch is switched by the control device to control the blower. In addition to enabling variable speed control, a rewritable nonvolatile memory for storing the variable speed output value is provided in the control device, and the variable speed output value of the nonvolatile memory can be rewritten by a remote controller. However, the ventilator is characterized in that the blower notch can be set to an arbitrary air volume output.