JP3596287B2 - Fan coil system - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a fan coil system that controls the operation of a fan coil unit that can change the blowing capacity stepwise.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a fan coil system installed in a hotel, office, or the like, a fan coil unit that can switch the air volume in three stages (strong, medium, and weak) and an operation device that controls the operation of the fan coil unit are provided. Are provided. A rotary switch is used as the operation device, and the fan coil unit is controlled by switching a contact inserted between the commercial power supply and the fan coil unit by operating an operation knob exposed from the front of the case of the operation device. It is supposed to.
[0003]
[Problems to be solved by the invention]
However, since the operating device in the above-described conventional fan coil system uses a rotary switch, it is necessary to rotate the operating knob for operation, and there is a problem that operability is not very good.
[0004]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a fan coil system with good operability.
[0005]
[Means for Solving the Problems]
The invention of claim 1 achieves the above object.Has the following configuration.
[0006]
Claim1The invention of the present invention comprises a fan coil unit capable of switching the blowing capacity in three stages of strong, medium and weak, and four switches for switching and controlling the fan coil unit.An operation terminal device having a unique address and generating operation data according to the state of each switch; a fan coil control terminal device having a unique address and controlling a fan coil unit; The terminal is connected via a two-wire signal line and sends out a transmission signal including address data to the signal line to access each terminal device, and the operation data and a fan created based on the operation data A transmission processing device for performing time-division multiplex transmission of control data indicating the control content of the coil unit,Each of the above switches includes a first switch for increasing the blowing capacity, a second switch for reducing the blowing capacity, a third switch for reducing the blowing capacity, and a power supply for the fan coil unit. A fourth switch for turning on / off, and a push button for operating each switch is provided.Operation terminalSide by side along the length of the caseThe fan coil control terminal includes a signal processing unit that controls the fan coil unit based on the control data, and the four switches of the operation terminal are transmitted along with the address data by the transmission signal. Corresponding to strong, medium, weak, and power on / off of the fan coil unit by the load numberBy simply pressing the push button, it is possible to control the blowing capacity of the fan coil unit or to control the turning on / off of the power of the fan coil unit, thereby improving operability.
[0007]
In addition, transmission by two-wire signal lineSince the fan coil is controlled by the fan coil control terminal connected to the processing unit, the operation of the fan coil unit can be switched and controlled from a remote location, enabling group control, centralized control and centralized monitoring of the fan coil unit. And the degree of freedom of the installation location is increased.
[0008]
Also, operationThe four switches of the terminal device are associated with strong, medium, weak, and power on / off of the fan capacity of the fan coil unit according to the load number transmitted along with the address data by the transmission signal. The load number is appropriately set on the existing operation terminal equipped with four switches used for control and the like, and the name sheet is displayed with characters such as “strong”, “medium”, “weak”, and “on / off”. By replacing the name sheet with the written name sheet, the operation terminal used for the lighting control or the like can be used as the operation terminal of the fan coil system.
[0009]
Claim2The invention of claim1In the invention of the above, since the operation terminal is provided with a power supply circuit that obtains the power for operation of the internal circuit from the transmission signal transmitted from the transmission processing device through the signal line, the operation terminal is used to supply power to the operation terminal. Since it is not necessary to separately provide the wiring, the number of wirings can be reduced, and the construction becomes easy.
[0010]
Claim3The invention of claim1 or claim 2In the invention, Operation terminalHas a display element for displaying the state of the switch, so that the state of the switch can be easily checked from the outside, and the state of the fan coil unit can be known.
[0011]
Claim4The invention of claim 1 to claim 13In the invention ofOf operation terminalThe base has a size corresponding to three wiring units of unit size that can be connected and mounted up to a maximum of three units to the mounting frame for the wiring device so that the front surface of the case is exposed from the opening window of the mounting frame. And the mounting portion for mounting to the mounting frame is formed, so that it can be constructed by the same construction method as an embedded wiring device such as an outlet, and the construction work becomes easy for a construction company.
[0012]
Claim5The invention of the claimClaim 1 to Claim 4In the present invention, the fan coil control terminal includes an output switching circuit inserted into a power supply path to the fan coil unit, and the signal processing unit controls the fan switching by controlling the output switching circuit based on the received control data. It is characterized in that the blowing capacity of the coil unit is changed.
[0013]
Claim6The invention of the claimClaim 1 to Claim 5In the invention, the case of the terminal unit for controlling the fan coil is formed to have an integral multiple of the size of the collective wiring breaker for the light distribution board, and is fixed in the distribution board, and is formed in the distribution board. The terminal for fan coil control is easily arranged in the distribution board via the panel connection mounting plate because the mounting part for mounting on the panel connection mounting plate that can be connected and mounted is formed. And the installation work and the wiring work can be simplified.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
First, the basic configuration and basic operation of the fan coil system according to the present embodiment will be described with reference to the system shown in FIG. In the system shown in FIG. 11, in the transmission processing device 1, a plurality of operation terminals 4 for monitoring the operation state of the switch and a plurality of control terminals 3 for controlling the load 2 are connected via a two-wire signal line Ls. The transmission processing device 1 remotely controls the operation of the load 2 based on a switch operation, and the transmission processing device 1 monitors the operation state of the load 2. Here, a unique address is set for each of the terminals 3 and 4.
[0015]
The transmission processing device 1 transmits a transmission signal Vs having a format as shown in FIGS. 12A and 12B to the signal line Ls. That is, the transmission signal Vs includes a start pulse ST indicating the start of signal transmission, mode data MD indicating a signal mode, address data AD, control data CD for controlling a load, checksum data CS for detecting a transmission error, and a control terminal. 3 and a signal return period WT for setting a return period of a return data signal from the operation terminal device 4. This is a bipolar (± 24V) time division multiplexed signal, and data is transmitted by pulse width modulation. ing.
[0016]
In each control terminal 3 and each operation terminal 4, when the address data AD transmitted by the transmission signal Vs received via the signal line Ls matches the preset own address (unique address), The control data CD of the transmission signal Vs is taken in, and the return data is sent out by short-circuiting the current mode signal (between the signal lines Ls via an appropriate low impedance) in synchronization with the signal return period WT of the transmission signal Vs. Signal).
[0017]
Further, the transmission processing device 1 is provided with a dummy signal transmitting unit and an interrupt processing unit. The dummy signal transmitting means always transmits a dummy transmission signal in which the mode data MD is set to the dummy mode. Further, when the interrupt signal Vi as shown in FIG. 12C is returned, the interrupt processing means detects the operation terminal 4 that has generated the interrupt signal Vi, and accesses the operation terminal 4 to access the operation terminal 4. Return data is returned from the operation terminal 4 that has generated the interrupt signal Vi. That is, the dummy transmission signal is normally transmitted to the signal line Ls by the dummy signal transmission means, and the interrupt signal Vi generated from the operation terminal device 4 in accordance with the operation of the switch is synchronized with the start pulse signal ST of the dummy transmission signal. Upon detection, the transmission processing device 1 sends out the transmission signal Vs, which sets the mode data signal MD to the address confirmation mode, to the signal line Ls by the interrupt processing means. Each operation terminal 4 sets an interrupt flag for requesting an interrupt when an interrupt signal Vi is generated, and in the operation terminal 4 for which the interrupt flag is set, the mode data signal MD indicates the transmission signal Vs in the address confirmation mode. Is received, the address data set in the operation terminal 4 is returned as return data in synchronization with the signal return period WT of the transmission signal Vs. In this way, the transmission processing device 1 can obtain the address of the operation terminal 4 that has generated the interrupt signal Vi.
[0018]
When the transmission processing device 1 acquires the address of the operation terminal device 4 that has generated the interrupt signal Vi, the transmission processing device 1 generates control data to be transmitted to the control terminal device 3 connected to the load 2 whose correspondence with the switch is set in advance. At the same time, the transmission signal Vs including the control data is transmitted to the signal line Ls, and the control data is transmitted to the corresponding control terminal 3 to control the load 2.
[0019]
By the way, the operation terminal 4 has switches of up to four circuits, the control terminal 3 can control the load 2 of up to four circuits, and the operation terminal 4 and the control terminal 3 have respective loads. In order to recognize 2 individually, a 2-bit load number is added. The correspondence between the load number of the switch and the load number of the load 2 is managed by the transmission processing device 1.
[0020]
(Embodiment)
As shown in FIG. 1, the fan coil system according to the present embodiment includes a control terminal 3, a fan coil control terminal, and an operation terminal 4 on a two-wire signal line Ls from the transmission processing device 1. Are connected. A fan coil unit, which is a load 2, is connected to the fan coil control terminal 3. Here, a remote control transformer 5 for supplying AC 24 V to the fan coil control terminal 3 is connected to a power supply line L.₂Connected through. Note that the fan coil unit 2 has a conventionally well-known configuration including a blower F, a motor M, an electric valve V, and the like, and operates by receiving power supply from an AC power supply AC such as a commercial power supply. The air blowing capacity (operation mode) can be switched between three levels of “strong”, “medium”, and “weak”.
[0021]
The operation terminal device 4 includes a first switch for setting the blow capacity of the fan coil unit 2 to “strong”, a second switch for setting the blow capacity to “medium”, and a third switch for setting the blow capacity to “weak”. , A fourth switch for turning on / off the power of the fan coil unit 2, and a push button P for operating each switch.₁, P₂, P₃, P₄Are exposed from the front surface of the case 40 (see FIG. 2).
[0022]
The four switches of the operation terminal device 4 correspond to the strong, medium, weak, and on / off of the blowing capacity of the fan coil unit 2 by the load number transmitted accompanying the address data AD by the transmission signal Vs. Can be Here, in the operation terminal device 4, different load numbers are set for the respective switches, and the push button P₁Is operated, the address data AD of the transmission signal Vs transmitted from the operation terminal 4 is accompanied by the load number set corresponding to the first switch.₂Is operated, the load number set corresponding to the second switch is attached to the address data AD.₃Is operated, the address data AD is accompanied by the load number set corresponding to the third switch, and the push button P₄Is operated, the load number set corresponding to the fourth switch is attached to the address data AD. Further, the fan coil control terminal 3 is also associated with strong, medium, weak, and on / off of the blowing ability of the fan coil unit 2 by the load number transmitted along with the address data AD by the transmission signal Vs. . That is, the fan coil control terminal 3 controls the fan coil unit 2 according to the received load number.
[0023]
That is, the operation terminal 4 is connected to any one of the push buttons P₁~ P₄Is operated, the push button P₁~ P₄To generate operation data (data in which a load number is added to address data) indicating the switch operated, and transmit a transmission signal Vs including the operation data to the signal line Ls and return it to the transmission processing device 1. .
[0024]
Accordingly, the load number is appropriately set in an existing operation terminal having four switches conventionally used for lighting control and the like, and the name sheet is set to “strong”, “medium”, “weak”, “on / off”. By replacing the name sheet with characters such as "", the operation terminal used for lighting control and the like can be used as the operation terminal 4 of the fan coil system.
[0025]
In addition, the case 40 of the operation terminal device 4 is formed in such a manner that the front surface of the case is exposed through an opening window of the mounting frame 70 in a mounting frame 70 for a recessed wiring device (a mounting frame of a large-sized continuous wiring device). It is formed in a size corresponding to three wiring units of unit size that can be connected and mounted up to a maximum of three, and a mounting portion (not shown) for mounting to the mounting frame 70 is formed. The operation terminal 4 includes a pair of display elements LD corresponding to each switch.₁₁, LD₁₂, LD₂₁, LD₂₂, LD₃₁, LD₃₂, LD₄₁, LD₄₂Is provided. Here, each pair of display elements LD₁₁, LD₁₂, LD₂₁, LD₂₂, LD₃₁, LD₃₂, LD₄₁, LD₄₂Each display element LD₁₁, LD₂₁, LD₃₁, LD₄₁Is formed by a green light emitting diode, and the other display elements LD₁₂, LD₂₂, LD₃₂, LD₄₂Are formed by red light emitting diodes.
[0026]
As shown in FIG. 3, the operation terminal 4 includes a signal processing unit 60 including a microcomputer or the like. The signal processing unit 60 is connected to the signal line Ls via a transmission / reception circuit 61. Here, the transmission / reception circuit 61 includes a reception unit and a transmission unit, and the transmission signal Vs (see FIG. 12) transmitted from the transmission processing device 1 to the signal line Ls is input to the signal processing unit 60 through the reception unit. Is done. On the other hand, from the signal processing unit 60, a current mode signal can be returned to the transmission processing device 1 through the transmission unit (by short-circuiting both lines of the signal line Ls via an appropriate low impedance). The signal processing unit 60 includes an input circuit 64 including the above-described first to fourth switches and the above-described display element LD.₁₁, LD₁₂, LD₂₁, LD₂₂, LD₃₁, LD₃₂, LD₄₁, LD₄₂And an address setting unit 63 for setting an address and a load number (lower address) from the outside by, for example, a wireless signal or the like. In addition, the operation terminal device 4 includes a power supply circuit 62 that rectifies the transmission signal Vs constantly transmitted to the signal line Ls and obtains the operation power of the internal circuit. That is, the wiring to the operation terminal 4 can be performed only by the signal line Ls of a small power, and it is not necessary to separately provide a power supply, so that the number of wirings can be reduced and the construction becomes easy.
[0027]
The fan coil control terminal 3 includes a pair of signal line terminals N to which the signal line Ls from the transmission processing device 1 is connected.₁, N₂And the power line L from the remote control transformer 5₂Is connected to a pair of power supply terminals T₃, T₄And a common terminal T connected to one end of the AC power supply AC.₅And a terminal T connected to the fan coil unit 2.₆~ T₉And The terminal T₆Is connected to the motor-operated valve V and the terminal T₇Corresponds to "weak" of the motor M, and the terminal T₈Corresponds to the "middle" of the motor M, and the terminal T₉Corresponds to “strong” of the motor M. In this embodiment, a contact r to be described later is used.₆, R₇, R₈(See FIG. 4) constitutes an output switching circuit.
[0028]
The fan coil control terminal 3 has a circuit configuration as shown in FIG. That is, a signal processing unit 50 including a microcomputer or the like is provided.₁, N₂Is connected to the signal line Ls. The transmitting / receiving circuit 21 includes a transistor Q₁, Photocoupler PC₁And a transistor Q₂, Q₃And resistance R₅And photo coupler PC₂And a transmission unit 21b provided with Therefore, the transmission signal Vs (see FIG. 12) transmitted from the transmission processing device 1 to the signal line Ls is input to the signal processing unit 50 through the receiving unit 21a. On the other hand, from the signal processing unit 50, the transistor Q₃Is turned on, the resistance R between the two lines of the signal line Ls is changed.₅And a current mode signal can be returned to the transmission processing device 1 through a short circuit. Here, diode bridge DB₁Are shared with the transmission unit 21b. The reception state of the transmission signal Vs is determined by the reception display light emitting diode LED connected to the signal processing unit 50.₂Flashing.
[0029]
The power supply to the signal processing unit 50 is performed by applying 24 V AC supplied from the remote control transformer 5 to a diode bridge.DB ₂ Full-wave rectification by transistor Q₄, Zener diode ZD₁, Capacitor C₂And the like, and the transistor Q₅, Zener diode ZD₂, Capacitor C₃This is performed through a power supply circuit 23 composed of the above.
[0030]
The address of the fan coil control terminal 32 and the function data for setting the function of the signal processing unit 50 are stored in a data storage unit 42 composed of a nonvolatile memory such as an EEPROM. The data stored in the data storage unit 42 is created by processing the signal received by the optical signal receiving circuit 41 by the signal processing unit 50. Here, the signal received by the optical signal receiving circuit 41 is a wireless signal such as infrared light transmitted from an external address setting device (not shown). The terminal 3 for controlling the fan coil includes a light emitting diode LED.₁, Transistor Q₆When a wireless signal from the address setting device is received, a response signal such as reception confirmation or setting confirmation is returned to the address setting device as a wireless signal in accordance with the content of the signal. It is supposed to. Here, an address and a load number are set by the address setting device.
[0031]
The signal processing unit 50 is also connected with a transmission circuit 43 for supplying a basic clock, a reset circuit 44 for resetting the signal processing unit 50, and the like.
[0032]
The fan coil control terminal 3 is provided with a relay Ry for controlling the fan coil unit 2.₁, Ry₂, Ry₃, Ry₄, Ry₅, Ry₆And each relay Ry₁~ Ry₆Transistor Q for controlling the₁₁~ Q₁₇And a relay control unit. The power supply to the relay control unit is performed by the power supply circuit 22 described above. Also, the relay Ry₁, Ry₂, Ry₃Is a latching relay. The diode D in FIG.₁₁~ D_ThirteenAre provided for measures against external noise.
[0033]
Hereinafter, the operation of the fan coil system will be briefly described with reference to FIGS. FIG. 5 shows the push button P of the fourth switch.₄Is operated when is operated, FIG. 6 shows the push button P of the first switch₁Is operated when is operated, FIG. 7 shows the push button P of the second switch.₂FIG. 8 shows the operation of the third switch push button P.₃Respectively when the is operated.
[0034]
First, the push button P of the fourth switch₄The operation when is operated will be described. Push button P₄Is operated (S1), an interrupt signal Vi is generated from the operation terminal 4, and reply data (operation data) including the content indicating that the fourth switch has been operated is output from the operation terminal 4. Returned to the transmission processing device 1 (S2), the transmission processing device 1 generates control data based on the operation data, sends out a transmission signal Vs including the control data to the signal line Ls, and outputs the fan coil control terminal. The control data is transmitted to the device 3 (S3). In the fan coil control terminal device 3 receiving the control data, the relay Ry₄(S4), and the relay Ry₄Is off, the signal processing unit 50 sets the relay Ry₄Ry before turning off₁~ Ry₆Relay Ry to return to the state of₁~ Ry₆Is controlled (S8). For example, the relay Ry₄If the fan coil unit 2 has been operating with the "weak" air blowing capacity before the power supply is turned off, the signal processing unit 50 operates the transistor Q of the relay control unit.₁₁Control signal to the transistor Q₁₁By turning on the relay Ry₁Set coil is excited, and the contact r₁Turns on. Then, the transistor Q₁₇To turn on the relay Ry₄To excite. Then, the contact r₈Turns on. As a result, power is supplied to the fan coil unit 2 so that the fan coil unit 2 operates with a “weak” blowing capacity. After S8, a control confirmation signal is returned from the fan coil control terminal 3 to the transmission processing device 1 as a current mode signal (S9). The transmission processing device 1 receives the control confirmation signal, confirms the operation state of the fan coil unit 2, and transmits control data including control data for displaying the current load control state on the display circuit 65 of the operation terminal 4. The signal Vs is transmitted to the signal line Ls (S10). As a result, in the operation terminal 4, the signal processing unit 60 causes the display element LD to operate.₁₁, LD₁₂, LD₂₁, LD₂₂, LD₃₁, LD₃₂, LD₄₁, LD₄₂Is controlled, and the push button P₄The operation returns to the state before the power of the fan coil unit 2 was turned off.
[0035]
On the other hand, the fan coil control terminal 3 that has received the control data₄(S4), and the relay Ry₄Is ON, the signal processing unit 50 outputs all the relays Ry₁~ Ry₆Is turned off (S5). For example, when the fan coil unit 2 is operating with the “weak” air blowing capacity, the signal processing unit 50 operates the transistor Q of the relay control unit.₁₂Control signal to the transistor Q₁₂By turning on the relay Ry₁Reset coil is excited, and the contact r₁Is turned off. As a result, power supply to the fan coil unit 2 is cut off. After S5, a control confirmation signal is returned from the fan coil control terminal 3 to the transmission processing device 1 as a current mode signal. The transmission processing device 1 receives the control confirmation signal, confirms the operation state of the fan coil unit 2, and transmits control data including control data for displaying the current load control state on the display circuit 65 of the operation terminal 4. The signal Vs is transmitted to the signal line Ls (S7). As a result, in the operation terminal 4, each push button P₁, P₂, P₃, P₄Element LD consisting of green light-emitting diodes respectively corresponding to₁₁, LD₂₁, LD₃₁, LD₄₁Lights up.
[0036]
Next, the push button P of the first switch of the fan coil operating terminal 4₁The operation when is operated will be described. Push button P₁Is operated (S11), an interrupt signal Vi is generated from the operation terminal 4, and reply data (operation data) including the content that the first switch is operated is output from the operation terminal 4. Returned to the transmission processing device 1 (S12), when receiving the operation data, the transmission processing device 1 generates control data based on the operation data and sends a transmission signal Vs including the control data to the signal line Ls. Then, the control data is transmitted to the fan coil control terminal 3 (S13). In the fan coil control terminal 3 that has received the control data, the signal processing unit 50 determines that the relay Ry corresponding to “strong”₂, Ry₃(S14), and the relay Ry₂, Ry₃Is off, the signal processing unit 50 operates the transistor Q of the relay control unit._Thirteen, Q_FifteenControl signal to the transistor Q_Thirteen, Q_FifteenBy turning on the relay Ry₂, Ry₃Set coil is excited, and the contact r₂, R₃, R₄, R₅Turns on and relay Ry₅, Ry₆Is excited and the contact r₆, R₇Is turned on (S15). As a result, power is supplied from the AC power supply AC to the motor M and the motor-operated valve V of the fan coil unit 2, and the fan coil unit 2 operates with a "strong" air blowing capacity. After S15, a control confirmation signal is returned from the fan coil control terminal 3 to the transmission processing device 1 as a current mode signal (S16). The transmission processing device 1 receives the control confirmation signal, confirms the operation state of the fan coil unit 2, and transmits the transmission data including control data for displaying the current load control state on the display circuit 65 of the operation terminal 4. The signal Vs is transmitted to the signal line Ls (S17). As a result, the push button P₁Element LD consisting of green light emitting diode corresponding to LED₁₁Lights up and another push button P₂, P₃, P₄Display element LD consisting of red light-emitting diodes respectively corresponding to₂₂, LD₃₂, LD₄₂Lights up.
[0037]
Next, the push button P of the second switch₂The operation when is operated will be described. Push button P₂Is operated (S21), an interrupt signal Vi is generated from the operation terminal 4, and reply data (operation data) including the content indicating that the second switch has been operated is output from the operation terminal 4. Returned to the transmission processing device 1 (S22), when receiving the operation data, the transmission processing device 1 generates control data based on the operation data and sends a transmission signal Vs including the control data to the signal line Ls. Then, the control data is transmitted to the fan coil control terminal 3 (S23). In the fan coil control terminal 3 that has received the control data, the signal processing unit 50 determines that the relay Ry corresponding to “medium”₃(S24), and the relay Ry₃Is off, the signal processing unit 50 operates the transistor Q of the relay control unit._ThirteenControl signal to the transistor Q_ThirteenBy turning on the relay Ry₃Set coil is excited, and the contact r₂, R₄Turns on and relay Ry₅Is excited and the contact r₆Is turned on (S25). As a result, power is supplied to the motor M and the motor-operated valve V of the fan coil unit 2 from the AC power supply AC, and the fan coil unit 2 operates at the “medium” air blowing capacity. After S25, a control confirmation signal is returned from the fan coil control terminal 3 to the transmission processing device 1 as a current mode signal (S26). The transmission processing device 1 receives the control confirmation signal, confirms the operation state of the fan coil unit 2, and transmits the transmission data including control data for displaying the current load control state on the display circuit 65 of the operation terminal 4. The signal Vs is transmitted to the signal line Ls (S27). As a result, the push button P₂Display element LD consisting of green light emitting diode corresponding to (second switch)₂₁Lights up and another push button P₁, P₃, P₄Display element LD consisting of red light-emitting diodes respectively corresponding to₁₂, LD₃₂, LD₄₂Lights up.
[0038]
Next, the push button P of the third switch₃The operation when is operated will be described. Push button P₃Is operated (S31), an interrupt signal Vi is generated from the operation terminal 4, and reply data (operation data) including the content that the third switch has been operated is output from the operation terminal 4. Returned to the transmission processing device 1 (S32), when receiving the operation data, the transmission processing device 1 generates control data based on the operation data and sends a transmission signal Vs including the control data to the signal line Ls. Then, the control data is transmitted to the fan coil control terminal 3 (S33). In the fan coil control terminal device 3 that has received the control data, the signal processing unit 50 sets the relay Ry corresponding to “weak”₂, Ry₃(S34), and the relay Ry₂, Ry₃Is ON, the signal processing unit 50 operates the transistor Q of the relay control unit.₁₄, Q₁₆Control signal to the transistor Q₁₄, Q₁₆By turning on the relay Ry₂, Ry₃Reset coil is excited, and the contact r₂, R₃Is turned off (S35). As a result, power is supplied from the AC power supply AC to the motor M and the motor-operated valve V of the fan coil unit 2, and the fan coil unit 2 operates with a "weak" air blowing capacity. After S35, a control confirmation signal is returned to the transmission processing device 1 as a current mode signal from the fan coil control terminal 3 (S36). The transmission processing device 1 receives the control confirmation signal, confirms the operation state of the fan coil unit 2, and transmits the transmission data including control data for displaying the current load control state on the display circuit 65 of the operation terminal 4. The signal Vs is transmitted to the signal line Ls (S37). As a result, the push button P₃Display element LD consisting of green light emitting diode corresponding to (third switch)₃₁Lights up and another push button P₁, P₂, P₄Display element LD consisting of red light-emitting diodes respectively corresponding to₁₂, LD₂₂, LD₄₂Lights up.
[0039]
In the present embodiment, a system configuration including one fan coil control terminal 3, one operation terminal 4, and one fan coil unit 2 has been exemplified, but the present invention is not limited to this. For example, if a plurality of fan coil control terminals 3, operation terminals 4, and fan coil units 2 are connected to the transmission processing device 1 by a plurality of signal lines Ls, the plurality of fan coil units 2 are collectively monitored collectively. Control, and group control, centralized control, and centralized monitoring of the fan coil unit 2 can be easily performed.
[0040]
The circuit shown in FIG. 4 is mounted on two circuit boards 11a and 11b connected via a flexible tape wire 11c or the like as shown in FIGS. The case 10 is configured by connecting a rectangular parallelepiped body 13 having an open surface and a cover 14 fitted to the opening of the body 13 by assembly screws 15a. The dimensions of the case 10 are set to correspond to a plurality of times (four times) the unit size of the collective wiring breaker for a light distribution board, and are fixed in a distribution board (not shown). A mounting portion 13b is formed as a mounting hole for mounting to a panel connecting mounting plate or the like to which a collective wiring breaker for a distribution board can be connected and mounted. That is, the case 10 can be easily disposed in the distribution board using the panel connection mounting plate or the like. A recess 17 is formed on both sides of the cover 14 and is partitioned by a partition 16, and a terminal plate 19 in which a terminal screw 18 is screwed is provided in the recess 17. These terminal plates 19 are connected to each terminal N₁, N₂, T₃, T₄, T₅, T₆, T₇, T₈, T₉It becomes. In addition, a light emitting diode LED is provided on the front of the cover 14.₁And light receiving element PD₁Window 14a on which a filter 14b for transmitting and receiving light is mounted, and a light-emitting diode LED for reception display₂And a light transmitting window 14c for transmitting light from the light source. Note that the above-described terminal T₃, T₄, T₅, T₆, T₇, T₈, T₉A terminal cover 12 is disposed in front of the terminal cover 12.
[0041]
【The invention's effect】
The present invention has the following effects.
[0042]
Claim1The invention of the present invention comprises a fan coil unit capable of switching the blowing capacity in three stages of strong, medium and weak, and four switches for switching and controlling the fan coil unit.An operation terminal device having a unique address and generating operation data according to the state of each switch; a fan coil control terminal device having a unique address and controlling a fan coil unit; The terminal is connected via a two-wire signal line and sends out a transmission signal including address data to the signal line to access each terminal device, and the operation data and a fan created based on the operation data A transmission processing device for performing time-division multiplex transmission of control data indicating the control content of the coil unit,Each of the above switches includes a first switch for increasing the blowing capacity, a second switch for reducing the blowing capacity, a third switch for reducing the blowing capacity, and a power supply for the fan coil unit. A fourth switch for turning on / off, and a push button for operating each switch is provided.Operation terminalSide by side along the length of the caseThe fan coil control terminal includes a signal processing unit that controls the fan coil unit based on the control data, and the four switches of the operation terminal are transmitted along with the address data by the transmission signal. The blow number of the fan coil unit is associated with strong, medium, weak, and power on / off by a load number.It is possible to control the air blowing capacity of the fan coil unit or to control the turning on / off of the power of the fan coil unit by an operation of merely pressing, thereby improving the operability.
[0043]
In addition, transmission by two-wire signal lineSince the fan coil is controlled by the fan coil control terminal connected to the processing unit, the operation of the fan coil unit can be switched and controlled from a remote location, enabling group control, centralized control and centralized monitoring of the fan coil unit. This has the effect of increasing the degree of freedom of the installation location.
[0044]
Also, operationThe four switches of the terminal device are associated with strong, medium, weak, and power on / off of the fan capacity of the fan coil unit according to the load number transmitted along with the address data by the transmission signal. The load number is appropriately set on the existing operation terminal equipped with four switches used for control and the like, and the name sheet is displayed with characters such as “strong”, “medium”, “weak”, and “on / off”. By replacing the name sheet with the written name sheet, there is an effect that the operation terminal used for the lighting control and the like can be used as the operation terminal of the fan coil system.
[0045]
Claim2The invention of claim1In the invention of the above, since the operation terminal is provided with a power supply circuit that obtains the power for operation of the internal circuit from the transmission signal transmitted from the transmission processing device through the signal line, the operation terminal is used to supply power to the operation terminal. Since it is not necessary to separately provide the wiring, the number of wirings can be reduced, and there is an effect that the construction becomes easy.
[0046]
Claim3The invention of claim1 or claim 2In the invention, Operation terminalIs equipped with a display element that displays the status of the switch, so that the status of the switch can be easily checked from outside, and the status of the fan coil unit can be known.There is an effect that.
[0047]
Claim4The invention of claim 1 to claim 13In the invention ofOf operation terminalThe base has a size corresponding to three wiring units of unit size that can be connected and mounted up to a maximum of three units to the mounting frame for the wiring device so that the front surface of the case is exposed from the opening window of the mounting frame. And the mounting portion for mounting to the mounting frame is formed, so that it can be constructed by the same construction method as an embedded wiring device such as an outlet, and the construction work becomes easy for a construction company.
[0048]
Claim6The invention of the claimClaim 1 to Claim 5In the invention, the case of the terminal unit for controlling the fan coil is formed to have an integral multiple of the size of the collective wiring breaker for the light distribution board, and is fixed in the distribution board, and is formed in the distribution board. The terminal for fan coil control is easily arranged in the distribution board via the panel connection mounting plate because the mounting part for mounting it on the panel connection mounting plate that can be connected and mounted is formed. Therefore, there is an effect that the installation work and the wiring work can be simplified.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing a first embodiment.
FIG. 2 is a schematic configuration diagram of the operation terminal device according to the first embodiment;
FIG. 3 is a circuit block diagram of the operation terminal device according to the first embodiment;
FIG. 4 is a circuit diagram of the fan coil control terminal device according to the first embodiment;
FIG. 5 is an operation explanatory view of the above.
FIG. 6 is an operation explanatory view of the above.
FIG. 7 is an operation explanatory view of the above.
FIG. 8 is an operation explanatory view of the above.
9A and 9B show a terminal device for controlling a fan coil of the above, wherein FIG. 9A is a front view, FIG. 9B is a plan view, and FIG. 9C is a side view.
10A and 10B show a state where a cover of the terminal device for controlling a fan coil is removed, FIG. 10A is a front view, and FIG. 10B is a side view.
FIG. 11 is a system configuration diagram of a basic system.
FIG. 12 is an explanatory diagram of a transmission signal used in the Embodiment.
[Explanation of symbols]
1 Transmission processing device
2 Fan coil unit
3 Terminal device for fan coil control
4 Operation terminal
Ls signal line
P₁~ P₄  Push button

Claims (6)

Equipped with a fan coil unit that can switch the air blowing capacity in three stages of high, medium, and low, and four switches that switch and control the fan coil unit, and have a unique address and generate operation data according to the state of each switch. Operating terminal, a fan coil controlling terminal having a unique address for controlling the fan coil unit, and a transmission signal including address data, wherein each terminal is connected via a two-wire signal line. A transmission processing device for accessing each terminal device by transmitting the control data to the signal line to perform time-division multiplex transmission of the operation data and control data indicating the control content of the fan coil unit created based on the operation data. Each of the switches is a first switch for increasing the blowing capacity, and a second switch for setting the blowing capacity to the middle. A third switch for the blowing capacity and weak, a fourth switch for on / off the fan coil unit, the longitudinal push button operation terminal unit of the case for the operation of the switch The fan coil control terminal device is provided along the direction, and includes a signal processing unit for controlling the fan coil unit based on the control data. The four switches of the operation terminal device address data by the transmission signal. The fan coil system is characterized in that the fan number of the fan coil unit is corresponded to strong, medium, weak, and power on / off by a load number transmitted along with the fan number . Operation terminal instrument, fan coil system of claim 1, wherein you characterized in that it comprises a power circuit to obtain operating power supply of the internal circuit from the transmission signal transmitted from the transmission processing unit through the signal line . 3. The fan coil system according to claim 1 , wherein the operation terminal includes a display element for displaying a state of the switch . The case of the operation terminal device has three units of unit-size wiring equipment that can be connected and mounted up to a maximum of three in a form in which the front surface of the case is exposed from an opening window of the mounting frame to the mounting frame for wiring equipment. The fan coil system according to any one of claims 1 to 3, wherein the fan coil system is formed to have a size corresponding to (1), and a mounting portion for mounting to the mounting frame is formed . The fan coil control terminal includes an output switching circuit inserted into a power supply path to the fan coil unit, and the signal processing unit controls the output switching circuit based on the received control data to control the fan coil unit. The fan coil system according to any one of claims 1 to 4, wherein the blowing capacity is changed . The case of the terminal unit for fan coil control is formed to be an integral multiple of the size of the collective wiring breaker for the light distribution board, and is fixed inside the distribution board to connect the collective wiring breaker for the light distribution board. The fan coil system according to any one of claims 1 to 5, wherein a mounting portion for mounting to a panel connecting mounting plate that can be mounted by mounting is formed .

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