JP2012154590A - Ventilation blower and ventilation blower system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a ventilation blower and a ventilation blower system which achieve the transfer of exact operating information among ventilation blowers themselves and achieve gang control having high reliability by using a simple circuit configuration.SOLUTION: The ventilation blower 1 constituting the ventilation blower system which includes the plurality of ventilation blowers 1 each including a fan 12 and a motor 11 and an operational device for setting operating information concerning the operation of the motor 11 for the plurality of ventilation blowers 1 includes: an operational input part 14 which can receive the input of the operating information from an operational device; an operating information pulse input part 15 which can receive the input of operating information pulse signal produced based on the operating information; and an operating information pulse output part 16 which can output an operating information pulse signal produced from the operating information input to the operational input part 14 and an operating information pulse signal input to the operating information pulse input part 15, in accordance with aspect of connection of the ventilation blowers 1 in the ventilation blower system.

Description

  The present invention relates to a ventilation fan and a ventilation fan system, and more particularly to operation of a plurality of ventilation fans installed in a general house, office, building, or the like.

  In recent years, facilities for interlocking control of a plurality of ventilation fans have increased. The number of installed ventilation fans can be changed as appropriate according to the size of the room, the number of rooms, and the like. Conventionally, in this type of ventilation fan system, a plurality of ventilation fans are connected by branching a communication line from the controller, and interlock control is performed by communication between the controller and the ventilation fan or transmission of an analog signal. .

  Also, a technology that connects a plurality of air conditioners and ventilators to a central monitoring device via a common bus, and stores the ventilators set in the interlocking target setting mode and the air conditioners that are interlocked with them in the memory Has been proposed (see, for example, Patent Document 1). In this technique, the ventilator monitors the communication signal set by the air conditioner via the bus, thereby performing the linked operation.

JP 7-318150 A

  However, the above-described conventional technique has a problem that the longer the distance is, the more the wiring impedance increases and an error is likely to occur in the analog signal. In order to reduce the error, it is necessary to limit the wiring length. In addition, while the communication specifications are complicated, the volume of communication data that can be handled is also limited, so that the number of ventilation fans that can be interlocked and the settable operation information are limited.

  The present invention has been made in view of the above, and can provide accurate exchange of operation information between ventilation fans, and a ventilation fan and ventilation fan system capable of highly reliable interlocking control with a simple circuit configuration. The purpose is to obtain.

  In order to solve the above-described problems and achieve the object, the present invention provides a plurality of ventilation fans including a fan for blowing air and a motor for rotating the fan, and the plurality of ventilation fans. An operation device for setting operation information related to the operation of the motor, and a ventilation fan that constitutes a ventilation fan system including the operation input unit capable of receiving the input of the operation information from the operation device; An operation information pulse input unit capable of receiving an input of an operation information pulse signal generated based on the operation information, an operation information pulse signal generated from the operation information input to the operation input unit, and the operation An operation information pulse signal input to the information pulse input unit, and an operation information pulse output unit that can be output according to the connection mode in the ventilation fan system, Characterized in that it has.

  According to the present invention, it is possible to accurately exchange operation information between ventilation fans, and it is possible to perform highly reliable interlocking control with a simple circuit configuration.

FIG. 1 is a block diagram illustrating a schematic configuration of a ventilation blower according to a first embodiment of the present invention. FIG. 2 is a block diagram illustrating a schematic configuration of the ventilation fan system including the ventilation fan according to the first embodiment. FIG. 3 is a flowchart for explaining an operation procedure of the ventilation fan according to the first embodiment. FIG. 4 is a block diagram showing a schematic configuration of the ventilation fan according to the second embodiment of the present invention. FIG. 5 is a block diagram illustrating a schematic configuration of a ventilation fan system including a ventilation fan according to the second embodiment. FIG. 6 is a flowchart for explaining an operation procedure of the ventilation fan according to the second embodiment.

  Embodiments of a ventilation fan and a ventilation fan system according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a block diagram illustrating a schematic configuration of a ventilation blower according to a first embodiment of the present invention. The ventilation blower 1 according to the first embodiment includes a motor 11, a fan 12, and a control unit 13. The motor 11 rotates the fan 12. The ventilation blower 1 causes the air to flow by the rotation of the fan 12 to blow and ventilate the room. The control unit 13 includes an operation input unit 14, an operation information pulse input unit 15, and an operation information pulse output unit 16, and controls the ventilation fan 1 by changing the rotation speed of the motor 11.

  FIG. 2 is a block diagram illustrating a schematic configuration of the ventilation fan system including the ventilation fan according to the first embodiment. The ventilation fan system includes a plurality of ventilation fans 1 a, 1 b, 1 c and an operation device 17. The ventilation fans 1a, 1b, and 1c all have the same configuration as the ventilation fan 1 shown in FIG. The operating device 17 sets operation information related to the operation of the motor 11 for the plurality of ventilation fans 1a, 1b, and 1c. In addition, illustration of the motor 11 and the fan 12 is abbreviate | omitted in ventilation fan 1a, 1b, 1c.

  The operation input unit 14 of the ventilation fan 1 a is connected to a controller 18 that controls the operation device 17. The operation input unit 14 of the ventilation blower 1 a accepts input of operation information from the operation device 17. The ventilation blower 1a varies the rotational speed of the motor 11 based on the operation information input to the operation input unit 14.

  The operation information pulse output unit 16 of the ventilation fan 1 a generates and outputs an operation information pulse signal by pulsing the operation information signal input to the operation input unit 14. The operation information pulse input unit 15 of the ventilation blower 1b is connected to the operation information pulse output unit 16 of the ventilation blower 1a. The operation information pulse input unit 15 of the ventilation fan 1b receives the input of the operation information pulse signal generated by the operation information pulse output unit 16 of the ventilation fan 1a. The ventilation blower 1b varies the rotational speed of the motor 11 based on the operation information pulse signal input to the operation information pulse input unit 15.

  The operation information pulse input unit 15 of the ventilation fan 1c is connected to the operation information pulse output unit 16 of the ventilation fan 1b. The ventilation blower 1b outputs an operation information pulse signal identical to the operation information pulse signal input to the operation information pulse input unit 15 from the operation information pulse output unit 16. The operation information pulse input unit 15 of the ventilation fan 1c accepts the input of the operation information pulse signal from the operation information pulse output unit 16 of the ventilation fan 1b. The ventilation blower 1c varies the rotational speed of the motor 11 based on the operation information pulse signal input to the operation information pulse input unit 15.

  The ventilation blower 1a in which the operation device 17 is connected to the operation input unit 14 generates an operation information pulse signal from the operation information and outputs it from the operation information pulse output unit 16. The ventilation fans 1b and 1c, to which other ventilation fans are connected to the operation information pulse input unit 15, output the operation information pulse signal input to the operation information pulse input unit 15. The operation information pulse output unit 16 is an operation information pulse signal generated from the operation information or the operation information input to the operation information pulse input unit 15 according to the connection of the ventilation fans 1a, 1b, 1c in the ventilation fan system. Outputs a pulse signal.

  The operation information pulse output unit 16 of the ventilation blower 1a and the operation information pulse input unit 15 of the ventilation blower 1b, the operation information pulse output unit 16 of the ventilation blower 1b, and the operation information pulse input unit 15 of the ventilation blower 1c are respectively two-core. Connected by transition wiring. Here, three ventilation fans 1a, 1b, and 1c are shown, but the ventilation fan system may connect more ventilation fans. Similarly to the ventilation blowers 1b and 1c, the ventilation blower connected after the ventilation blower 1c also performs input / output of the operation information pulse signal and variable speed of the motor 11.

  The operation information set by the operation device 17 includes at least one of information related to start and stop of the motor 11, information related to the rotation speed (air volume) of the motor 11 per unit time, and information related to the abnormality of the motor 11. It is. When the operation information is input directly from the operation device 17 or as an operation information pulse signal from another ventilation blower 1, the ventilation blower 1 controls the start and stop of the operation of the motor 11 and the number of rotations per unit time. It becomes possible to deal with abnormalities. Moreover, the ventilation ventilation system according to a user's use can be comprised.

  FIG. 3 is a flowchart for explaining an operation procedure of the ventilation fan according to the first embodiment. Here, the operation of the ventilation blower 1 (the ventilation blowers 1b and 1c in the example shown in FIG. 2) in which the operation information pulse signal is input to the operation information pulse input unit 15 will be described. Also, here, the air volume during operation and the operation according to the duty ratio (0% to 100%) of the ON pulse at a predetermined time and the strong / weak operation information pulse signal for switching the operation in two steps of strong and weak The operation for controlling the stop will be taken as an example.

  The ventilation blower 1 determines the presence / absence of a rotation speed variable information pulse signal for changing the rotation speed of the motor 11 at the operation information pulse input unit 15 (step S1). When there is a rotation speed variable information pulse signal (step S1, Yes), the process proceeds to step S2. When there is no rotation speed variable information pulse signal (No at Step S1), the process proceeds to Step S5.

  In step S2, the duty ratio of the ON pulse is calculated. In step S <b> 3, the ventilation blower 1 determines a rotation ratio proportional to the duty ratio of the ON pulse as the control rotation speed of the motor 11.

  The ventilation blower 1 presets the relationship between the duty ratio of the ON pulse within a predetermined time and the operation content, and stores it in the microcomputer. For example, the operation stop mode is set for each operation content such that the ON pulse duty ratio is 0%, and in the maximum rotation mode, the ON pulse duty ratio is 100%. The ventilation blower 1 refers to the relationship between the duty ratio of the ON pulse set in advance and the content of the operation information, and updates the operation state (step S4). In step S5, the presence / absence of a strong / weak driving information pulse signal is determined. When there is a strong / weak driving information pulse signal (step S5, Yes), the process proceeds to step S6. When there is no strong / weak air volume information pulse signal, the ventilation blower 1 stops the operation for updating the operation state (step S7). In step S6, the ventilation blower 1 determines the control rotation speed of the motor 11 according to the strong and weak operation information pulse signal. In the microcomputer, set values set in advance for the two-step operation of strong and weak are stored. The ventilation blower 1 updates the operating state according to the control rotation speed determined in step S6 (step S4).

  The ventilation blower 1 may use the number of pulses in addition to using the pulse duty ratio for identifying the operation information. The ventilation fan 1 can be operated in the same manner as when the duty ratio of the pulse is used, even if the operation state is updated according to the number of pulses. In addition, a ventilation ventilation system is not restricted to the case where wired communication is employ | adopted as a communication system, You may employ | adopt wireless communication for at least one part.

  As described above, according to the first embodiment, by using a pulse signal for transmission of driving information, it is possible to reduce deterioration in communication performance as compared with the case of using an analog signal. In addition, it is possible to reduce the restriction on the number of ventilation fans 1 and the restriction on the wiring length that are linked and controlled in the ventilation fan system. As a result, it is possible to accurately exchange operation information between the ventilation fans 1 and to perform highly reliable interlocking control with a simple circuit configuration.

Embodiment 2. FIG.
FIG. 4 is a block diagram showing a schematic configuration of the ventilation fan according to the second embodiment of the present invention. The ventilation blower 2 according to the second embodiment includes a motor 11, a fan 12, and a control unit 21. The control unit 21 includes an operation input unit 14, an interlocking pulse input unit 22, an interlocking pulse output unit 23, an operation information pulse input unit 15, and an operation information pulse output unit 16. The same parts as those in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 5 is a block diagram illustrating a schematic configuration of a ventilation fan system including a ventilation fan according to the second embodiment. The ventilation fan system includes a plurality of ventilation fans 2a, 2b, and 2c and a plurality of operation devices 17a, 17b, and 17c. The ventilation blowers 2a, 2b, and 2c all have the same configuration as the ventilation blower 2 shown in FIG. The ventilation blowers 2a, 2b, 2c perform transmission / reception of an interlocking pulse signal in addition to an operation information pulse signal related to air volume setting and the like. In addition, illustration of the motor 11 and the fan 12 is abbreviate | omitted in ventilation fan 2a, 2b, 2c.

  The operating device 17a sets operation information related to the operation of the motor 11 for the plurality of ventilation fans 2a, 2b, and 2c. The operation information set by the operating device 17a includes an interlocking operation request for operating a plurality of ventilation fans 2a, 2b, and 2c in an interlocked manner and at least one of the plurality of ventilation fans 2a, 2b, and 2c individually operating. And an individual operation request for making it happen. The ventilation blower system causes each of the ventilation blowers 2a, 2b, and 2c to be linked or individually operated by inputting an interlocking pulse signal to the ventilation blowers 2b and 2c. The operation devices 17a, 17b, and 17c set individual operation information for the ventilation fans 2a, 2b, and 2c, respectively.

  The operation input unit 14 of the ventilation fan 2a is connected to a controller 18 that controls the operation device 17a. The operation input unit 14 of the ventilation blower 2a receives input of operation information from the operation device 17a. The ventilation blower 2 a operates the motor 11 based on the operation information input to the operation input unit 14.

  The interlocking pulse output unit 23 of the ventilation blower 2a generates and outputs an interlocking pulse signal corresponding to the setting content in the operating device 17a. The interlock pulse signal is a signal indicating whether the operation information input to the operation input unit 14 includes an interlock operation request or an individual operation request. The interlocking pulse input unit 22 of the ventilation fan 2b is connected to the interlocking pulse output unit 23 of the ventilation fan 2a. The interlocking pulse input unit 22 of the ventilation fan 2b receives the input of the interlocking pulse signal generated by the interlocking pulse output unit 23 of the ventilation fan 2a. When the interlocking pulse signal including the interlocking operation request is input to the interlocking pulse input unit 22, the ventilation fan 2b performs the interlocking operation with the other ventilation fans 2a and 2c.

  The operation input unit 14 of the ventilation fan 2b is connected to a controller 18 that controls the operation device 17b. When the interlocking pulse signal including the individual operation request is input to the interlocking pulse input unit 22, the ventilation fan 2b performs the individual operation by the operation device 17b.

  The interlocking pulse input unit 22 of the ventilation fan 2c is connected to the interlocking pulse output unit 23 of the ventilation fan 2b. The ventilation blower 2 b outputs the same interlocking pulse signal as the interlocking pulse signal input to the interlocking pulse input unit 22 from the interlocking pulse output unit 23. The interlocking pulse input unit 22 of the ventilation fan 2c receives the input of the interlocking pulse signal from the interlocking pulse output unit 23 of the ventilation fan 2b. When the interlocking pulse signal including the interlocking operation request is input to the interlocking pulse input unit 22, the ventilation fan 2c performs the interlocking operation with the other ventilation fans 2a and 2b.

  The operation input unit 14 of the ventilation fan 2c is connected to a controller 18 that controls the operation device 17c. When the interlocking pulse signal including the individual operation request is input to the interlocking pulse input unit 22, the ventilation fan 2c performs the individual operation by the operation device 17c.

  The ventilation blower 2a generates an interlocking pulse signal from the operation information and outputs it from the interlocking pulse output unit 23. In the ventilation fans 2b and 2c in which other ventilation fans are connected to the interlocking pulse input unit 22, the interlocking pulse signal input to the interlocking pulse input unit 22 is output. The interlock pulse output unit 23 receives the interlock pulse signal generated from the operation information or the operation information pulse signal input to the interlock pulse input unit 22 according to the connection mode of the ventilation fans 2a, 2b, and 2c in the ventilation fan system. Output.

  The operation information pulse output unit 16 of the ventilation blower 2a and the operation information pulse input unit 15 of the ventilation blower 2b, the operation information pulse output unit 16 of the ventilation blower 2b, and the operation information pulse input unit 15 of the ventilation blower 2c are respectively two-core. Connected by transition wiring. The interlocking pulse output unit 23 of the ventilation fan 2a and the interlocking pulse input unit 22 of the ventilation fan 2b, and the interlocking pulse output unit 23 of the ventilation fan 2b and the interlocking pulse input unit 22 of the ventilation fan 2c are connected by a two-core crossover wiring. Has been.

  Here, three ventilation fans 2a, 2b, and 2c are shown, but the ventilation fan system may connect more ventilation fans. Similarly to the ventilation blowers 2b and 2c, the ventilation blower connected after the ventilation blower 2c also performs input / output of the operation information pulse signal and the interlocking pulse signal and the operation of the motor 11. In the ventilation blower system of the present embodiment, a plurality of ventilation blowers 2a, 2b, 2c can be operated with the same air volume, for example, in response to an interlocking operation request from the operation device 17a.

  Also in the present embodiment, as in the first embodiment, the operation information set by the operation device 17a includes information on the start and stop of the motor 11 and the number of rotations (air volume) of the motor 11 per unit time. And at least one of information regarding abnormality of the motor 11 is included.

  FIG. 6 is a flowchart for explaining an operation procedure of the ventilation fan according to the second embodiment. Here, the operation of the ventilation blower 2 (the ventilation blowers 2b and 2c in the example shown in FIG. 5) in which the interlocking pulse signal is input to the interlocking pulse input unit 22 will be described.

  The ventilation blower 2 performs determination of the interlocking pulse signal input to the interlocking pulse input unit 22 (step S11) and determination of the operation information pulse signal input to the operation information pulse input unit 15 (step S12). The ventilation blower 2 determines which one of the interlock operation request and the individual operation request is included from the interlock pulse signal. The determination of the operation information pulse signal by the ventilation fan 2 is the same as that of the ventilation fan 1 according to the first embodiment. Note that the order of step S11 and step S12 may be arbitrary.

  When it is determined by the determination in step S11 that the interlocking pulse signal has a request for interlocking operation (step S13, Yes), the ventilation blower 2 performs the interlocking operation according to the operation information pulse signal (step S14). When the interlocking pulse signal includes the interlocking operation request, the ventilation blower 2 preferentially applies the operation information pulse signal in the operation of the motor 11.

  When it is determined by the determination in step S11 that the interlocking pulse signal does not have the interlocking operation request, that is, has the individual operation request (step S13, No), the ventilation blower 2 performs the individual operation according to the individual operation information. (Step S15). When the interlocking pulse signal includes an individual operation request, the ventilation fan 2 preferentially applies individual operation information in the operation of the motor 11.

  In the second embodiment, by using a pulse signal for transmission of driving information, as in the first embodiment, highly reliable interlocking control is possible with a simple circuit configuration. Moreover, the ventilation fan system of Embodiment 2 can also perform the individual driving | operation of the ventilation fan 2 according to a user's request | requirement.

  As described above, the ventilation fan and the ventilation fan system according to the present invention are suitable for ventilating fans in general houses, offices, buildings, and the like.

1, 1a, 1b, 1c, 2, 2a, 2b, 2c Ventilation blower 11 Motor 12 Fan 13, 21 Control unit 14 Operation input unit 15 Operation information pulse input unit 16 Operation information pulse output unit 17, 17a, 17b, 17c Equipment 18 Controller 22 Interlocking pulse input section 23 Interlocking pulse output section

Claims (9)

Ventilation including a plurality of ventilation fans including a fan for blowing air, a motor for rotating the fan, and an operation device for setting operation information related to the operation of the motor for the plurality of ventilation fans. The ventilation blower constituting the blower system,
An operation input unit capable of receiving input of the driving information from the operation device;
An operation information pulse input unit capable of receiving an input of an operation information pulse signal generated based on the operation information,
An operation information pulse signal generated from the operation information input to the operation input unit and an operation information pulse signal input to the operation information pulse input unit are connected to the ventilation fan in the ventilation fan system. An operation information pulse output unit that can be output according to
Ventilation blower characterized by having. When the operation device is connected to the operation input unit, the driving information pulse output unit converts the driving information input from the operating device to the operation input unit into a driving information pulse signal, and outputs the driving information pulse signal.
When another ventilation blower constituting the ventilation blower system is connected to the operation information pulse input unit, the operation information pulse output unit is an operation input from the other ventilation blower to the operation information pulse input unit. The ventilation blower according to claim 1, wherein the ventilation information blower outputs the same operation information pulse signal as the information pulse signal. The operation information is set including an interlock operation request for operating a plurality of the ventilation fans in an interlocked manner and an individual operation request for individually operating at least one of the plurality of ventilation fans.
An interlocking pulse input unit capable of accepting input of an interlocking pulse signal indicating whether the operation information includes the interlocking operation request or the individual operation request;
The interlocking pulse signal generated from the operation information input to the operation input unit and the interlocking pulse signal input to the interlocking pulse input unit can be output according to the connection mode in the ventilation fan system. Linked pulse output section,
The ventilation blower according to claim 1 or 2, further comprising: When the operation device is connected to the operation input unit, the interlock pulse output unit can generate and output the interlock pulse signal from the operation information input from the operation device to the operation input unit. And
When another ventilation blower constituting the ventilation blower system is connected to the interlocking pulse input unit, the interlocking pulse output unit is connected to the interlocking pulse signal input from the other ventilation blower to the interlocking pulse input unit. The ventilation fan according to claim 3, wherein the same interlocking pulse signal is output. The operation device provided for each ventilation blower is connected to the operation input unit,
When the interlocking pulse signal includes the interlocking operation request, the operation information pulse signal input to the operation information pulse input unit is preferentially applied to the operation of the motor,
When the interlocking pulse signal includes the individual operation request, the individual operation information input to the operation input unit is preferentially applied to the operation of the motor. The ventilation blower described.   The ventilation fan according to any one of claims 1 to 5, wherein the operation information includes information related to operation start and stop of the motor.   The ventilation fan according to any one of claims 1 to 6, wherein the operation information includes information related to a rotation speed per unit time of the motor.   The ventilation fan according to any one of claims 1 to 7, wherein the operation information includes information on abnormality of the motor. A plurality of ventilation fans including a fan for blowing air and a motor for rotating the fan;
An operation device for setting operation information related to the operation of the motor for a plurality of the ventilation fans,
The ventilation fan is
An operation input unit capable of receiving input of the driving information from the operation device;
An operation information pulse input unit capable of receiving an input of an operation information pulse signal generated based on the operation information,
An operation information pulse signal generated from the operation information input to the operation input unit and an operation information pulse signal input to the operation information pulse input unit are connected to the ventilation fan in the ventilation fan system. An operation information pulse output unit that can be output according to
A ventilation fan system characterized by comprising:

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