KR20100006638U - Damper with hole sensor - Google Patents

Abstract

The present invention provides a damper using a hall sensor that can automatically control the damper, improve durability by using the hall sensor as a damper movement sensing means, and reduce the volume of the device.

A damper using a hall sensor according to the present invention, the damper for controlling the fluid flow is installed in the duct of the ventilator, the drive unit for mechanically connected to the damper to move the damper to open and close the duct; And it may include an opening and closing detection unit for detecting the opening or closing of the damper by sensing the magnitude of the magnetic field that changes according to the rotation of the damper.

Damper, Fan, Opening, Sensing

Description

Damper using Hall sensor {DAMPER WITH HOLE SENSOR}

The present invention relates to a damper using a hall sensor, and more particularly, to a damper using a hall sensor used in a fan or the like.

Damper (Damper) is a ventilation regulator, when used in the ventilator located in the outdoor duct (Duct) of the ventilator serves to block the noise and air flow from the outside.

The damper used in the fan is operated by the control device to open and close the duct of the fan. That is, when the fan is in operation, the duct is opened through the control of the control device to facilitate ventilation, and when the fan is not operated, the duct is closed by controlling the control device to block external noise and air flow.

Generally, damper control devices are formed using mechanical relays and switches. Therefore, when the contact of the mechanical relay and the switch is worn or damaged due to the accumulation of dust or rainwater due to long-term use, the damper may not operate normally, malfunctions, or may not operate at all.

The object of the present invention is to provide a damper using a hall sensor that can automatically control the damper.

The present invention has another object to provide a damper using a Hall sensor that can improve the durability by using the Hall sensor to detect the movement of the damper.

In addition, the present invention has another object to provide a damper using a Hall sensor that can reduce the size of the device by using a small Hall sensor.

A damper using a hall sensor according to the present invention, the damper for controlling the fluid flow is installed in the duct of the ventilator, the drive unit for mechanically connected to the damper to move the damper to open and close the duct; And it may include an opening and closing detection unit for detecting the opening or closing of the damper by sensing the magnitude of the magnetic field that changes according to the rotation of the damper.

Preferably, the opening and closing detection unit, the magnetic rotating unit which is mechanically connected to the damper to move in accordance with the movement of the damper; A substrate in which the driving part is disposed on one side, the magnet rotating part is disposed on the other side, and the first and second through-holes are drilled at the same distance from the rotation axis of the magnet rotating part and spaced apart by a predetermined angle; And first and second hall sensors coupled to the other side of the substrate to sense magnetic fields of the permanent magnets in the magnet rotating unit through the first and second through holes.

Preferably, the magnet rotating unit has a shaft portion having a coupling therein, and a protrusion is formed on one side of the shaft portion, the permanent magnet may be fitted to a predetermined position of the protrusion in the substrate direction.

Preferably, the apparatus may further include an automatic control unit for automatically controlling the driving unit according to a condition, and the condition may be time, temperature, or air pressure.

Preferably, a timer for the automatic control unit to automatically control the damper by the time; A thermometer for automatically controlling the damper by the temperature by the automatic control unit; And a barometer for automatically controlling the damper by the air pressure.

Preferably, it is formed along the perimeter of the damper, by reducing the gap between the duct and the damper at the time of closing the duct, it may further include an elastic damper ring to more reliably block the fluid flow. have.

According to the damper using the Hall sensor of the present invention, by using the Hall sensor to detect the movement of the damper can improve the durability, save time and cost for maintenance, can reduce the volume of the device It works.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors will properly describe the concept of terms in order to best explain their own design. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical ideas of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

1 is an exploded perspective view of a damper using a hall sensor according to an embodiment of the present invention, and includes a duct 100, a damper 200, a rotation shaft 300, a controller 400, and a case 500.

Figure 2 is a perspective view of the control unit 400 of the damper using a Hall sensor according to an embodiment of the present invention, the substrate 410, the motor 420, the magnet rotating unit 430, and the Hall sensor gear unit 440 Include. The magnet rotator 430 is provided with a protrusion on one side of the cylinder having the coupling hole 431, a permanent magnet 432 is disposed on one side of the protrusion, the motor 420 on the substrate 410 is composed of various circuits and elements ) And the Hall sensor gear unit 440 is coupled. Although not shown, a gear part for mechanically connecting the drive shaft of the motor 420 and the magnet rotating shaft 441 is formed inside the hall sensor gear part 440. The magnet rotation shaft 441 rotates by the rotation of the drive shaft driven by the motor 420, and the magnet rotation unit 430 fixedly coupled to the magnet rotation shaft 441 also rotates together. The first and second through holes 411 and 412 penetrating the substrate 410 are formed in the substrate 410, and the first hole is disposed at a position corresponding to the first through hole 411 in the controller 400. The sensor is configured, and the second hall sensor is configured at a position corresponding to the second through hole 412. As shown in FIG. 3, when the permanent magnet 432 moving according to the rotation of the magnet rotating unit 430 reaches the position of the first or second through hole 411 and 412, the first or second hall sensor is permanent magnet 432. The position of the permanent magnet 432 can be detected by detecting the magnetic field of the magnetic field.

The duct 100 is an empty hollow tube, and the control unit 400 is coupled to one side thereof, and the magnet rotating unit 430 of the control unit 400 is coupled to the duct 100. Damper 200 is a disc corresponding to the internal shape of the duct 100, the rotating shaft 300 is coupled to the damper 200, one end of the rotating shaft 300 and the through hole formed on one side of the duct 100 and rotation It is coupled to be possible, the other end is fixedly coupled to the coupling hole 431 of the magnet rotating portion 430 located on one side of the duct 100. In addition, the case 500 surrounds the control unit 400 and is coupled to the duct 100 so that the control unit 400 is protected from impact or contamination applied from the outside.

Operation of the damper using a Hall sensor according to an embodiment of the present invention is as follows. When the motor 420 is driven, the magnet rotating shaft 441 is rotated by the power transmitted through the Hall sensor gear 440, and the magnet rotating part 430 is fixedly coupled to the magnet rotating shaft 441, and the magnet rotating part 430. ) And the rotating shaft 300 is fixedly rotated together. Accordingly, the damper 200 fixedly coupled to the rotation shaft 300 rotates, and the duct 100 is opened or closed to enable or disable fluid flow according to the rotation of the damper 200. At this time, the positions of the first and second through holes 411 and 412 are the position of the permanent magnet 432 when the damper 200 opens the duct 100 and the damper 200 closes the duct 100. Is formed corresponding to the position of the permanent magnet 432. That is, the first through hole 411 is the position of the permanent magnet 432 when the duct 100 is open, the second through hole 412 is the permanent magnet 432 when the duct 100 is closed As the position of the damper 200 rotates to open the duct 100, the magnet rotating part 430 also rotates with the permanent magnet 432 moves to the position of the first through-hole 411, the damper 200 When the rotator 100 rotates to close the magnet rotator 430, the permanent magnet 432 moves to the position of the second through hole 412. When the first hall sensor configured at the position of the first through-hole 411 detects the permanent magnet 432, the motor 420 is stopped by considering that the opening of the duct 100 is completed, and the damper 200 The rotation stops. In addition, when the second hall sensor configured at the position of the second through hole 412 detects the permanent magnet 432, the motor 420 is stopped by considering that the closing of the duct 100 is completed and the damper 200 is stopped. ) Stops spinning. On the other hand, the configuration and principle of the Hall sensor for detecting the magnetic field of the permanent magnet 432, and the configuration and principle for controlling the motor 420 according to the detection of the permanent magnet 432 of the Hall sensor is already well known in conventional techniques It will be omitted only because it is only. On the other hand, a rubber damper ring 210 is formed along the circumferential edge of the damper 200, so that the gap that may occur between the damper 200 and the inside of the duct 100 when the damper 200 closes the duct 100. By reducing the flow rate, the fluid flow can be blocked more reliably, and at the same time, the damper 200 can move smoothly.

In addition, although not shown, according to another embodiment of the present invention, by constructing a barometer in the duct 100, and by additionally configuring an automatic control unit including a timer and a thermometer in the control unit 400, It can automatically control the opening or closing of the duct 100 according to the temperature, or time, and the configuration and principle of the automatic control unit will be omitted because it is only a well-known conventional technique.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Various modifications and variations are possible within the equivalent scope of the utility model registration claims to be described.

1 is an exploded perspective view of a damper using a hall sensor according to an embodiment of the present invention,

2 is a perspective view of a control unit of a damper using a hall sensor according to an embodiment of the present invention, and

Figure 3 is a perspective view showing the rotation of the magnet rotating portion and the position of the hole in the control unit of the damper using a hall sensor according to an embodiment of the present invention.

<Description of main parts of drawing>

100: duct 200: damper

210: damper 300: rotating shaft

400: control unit 410: substrate

411: first through hole 412: second through hole

420: motor 430: magnetic rotating part

432: permanent magnet 440: Hall sensor gear

500: case

Claims (6)

In the damper is installed in the duct of the fan for controlling the fluid flow, A driving part mechanically connected to the damper to move the damper to open and close the duct; And Opening / closing detection unit for detecting the opening or closing of the damper by detecting the magnitude of the magnetic field that changes according to the rotation of the damper Damper using a Hall sensor comprising a. The method of claim 1, wherein the opening and closing detection unit, A magnet rotating part mechanically connected to the damper and moving according to the movement of the damper; A substrate in which the driving part is disposed on one side, the magnet rotating part is disposed on the other side, and the first and second through-holes are drilled at the same distance from the rotation axis of the magnet rotating part and spaced apart by a predetermined angle; And First and second Hall sensors coupled to the other side of the substrate for detecting the magnetic field of the permanent magnet in the magnet rotating portion through the first and second through holes Damper using a Hall sensor comprising a. The method of claim 2, The magnet rotating unit is a damper using a hall sensor, characterized in that the shaft portion having a coupling therein, and a protrusion is formed on one side of the shaft portion, the permanent magnet is fitted to a predetermined position of the protrusion in the substrate direction. The method of claim 3, Automatic control unit for automatically controlling the driving unit according to the condition More, The condition is a damper using a Hall sensor, characterized in that the time, temperature, or air pressure. The method of claim 4, wherein A timer for the automatic control unit to automatically control the damper by the time; A thermometer for automatically controlling the damper by the temperature by the automatic control unit; And Barometer for the automatic control unit to automatically control the damper by the air pressure Damper using a Hall sensor further comprising a. 6. The method according to any one of claims 1 to 5, Is formed along the circumference of the damper, by reducing the gap between the duct and the damper when the duct is closed, an elastic damper ring to more reliably block the fluid flow Damper using a Hall sensor further comprising a.

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