JP2014029112A - Mounting device for automatic door - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic door control system capable of performing various setting operations for opening/closing speed, an opening width, and the like of an automatic door by using a setting machine without stopping an automatic door control device even without using a dedicated signal line.SOLUTION: An automatic door control device includes: a door; a drive mechanism; a breaker way switch; and a door controller for performing opening/closing of the door when an internal sensor or an external sensor detects an object and controls the opening/closing of the door. In the automatic door control device, a serial signal transmitter-receiver which has a function for setting opening/closing speed of the door and the opening/closing width of the door in the opening/closing control of the door by inputting serial signal data for setting data of controlling the opening/closing of the door in the door controller of the automatic door control device and for outputting control data set in the door controller of the automatic door control device, transmits and receives the data by using a signal line of unused signals in a breaker way switch, the internal sensor or the external sensor.

Description

  The present invention relates to an automatic door control system, and in particular, an automatic door control capable of setting an opening / closing speed and an opening width without preparing a dedicated wiring using a setting device called a handy terminal or a teaching pendant. About the system.

  In general, when a person or an object approaches a door, an automatic door control device inputs a signal from a sensor to the control device. The opening / closing operation is controlled. Various setting values, which are parameters (for example, opening / closing speed, opening width, etc.) used in the door opening / closing control, are set by various setting volumes provided in the control device. In this case, the control device is generally attached to an invisible or ceiling above the door.

  The automatic door control device has a plurality of devices constituting the automatic door, for example, a door controller that controls the speed of the automatic door, a sensor for detecting a passerby, and the like. This automatic door control device sets the opening / closing speed and opening width of the automatic door according to the environment in which the automatic door is installed and the desire of the construction owner to install the automatic door. There is a need to.

  In an automatic door control system, settings such as opening / closing speed and opening width are generally performed by a controller of an automatic door control device. However, the opening / closing speed and the opening width may be reset due to maintenance or the like. In such a case, in addition to the various setting volumes provided in the control device, using a setting device called a handy terminal or teaching pendant, this setting device is connected to the automatic door control device, and the opening / closing speed and opening width are set. Setting work such as is performed.

  When such a handy terminal is connected to the door controller, each parameter currently set in the door controller is transmitted to the handy terminal and displayed on the display unit of the handy terminal. When a parameter to be changed is changed by the input device while viewing this display, the changed parameter is transmitted to the door controller and stored in the door controller.

JP-A-3-76984

When using this handy terminal or setting machine called teaching pendant, prepare a dedicated wiring to connect to the automatic door control device, and use this wiring to connect the setting machine to the automatic door control device. Setting work such as opening / closing speed and opening width is performed.
Similarly, when performing centralized control or remote control, a dedicated wiring is generally prepared.

However, since the opening / closing speed and opening width are generally set only at the time of construction or maintenance of the automatic door system, it is usually not possible to prepare a dedicated wiring for connecting the setting machine to the automatic door control device in advance. Not done. If it is necessary to set the opening / closing speed or opening width of the automatic door after the automatic door is installed, open the inspection cover of the automatic door system installed at a high place and install the setting machine for the automatic door control device. Correspondence is made by connecting to the connection port using a dedicated wiring.
For this reason, when setting the opening and closing speed and opening width after construction of the automatic door system, the setting machine is connected to the automatic door control device for setting the opening and closing speed and opening width. There is a problem in that a work for connecting a dedicated wiring to the door control device is required, and a work for the dedicated wiring for connecting the setting machine is complicated.
Further, even when the automatic door control device is provided with a volume for setting the opening / closing speed and the opening width, there is a problem that access to the control device attached at a high place is complicated.

In addition, when an automatic door control system that has already been installed is to be used for centralized control or remote control later, dedicated wiring must be prepared, and wiring work is required, resulting in troublesome work. ing.
Furthermore, in the case of the conventional automatic door control system, when the automatic door control system is reset after installation, the automatic door opening / closing operation cannot be performed in the activated state. The automatic door opening / closing operation must be stopped each time, and the automatic door opening / closing operation cannot be stopped at a location where resetting is difficult.
In addition, when performing two-way communication with human sensors, etc., and changing or checking setting values, open the inspection cover installed at a high place whenever necessary, and connect the transceiver to the dedicated connection port. The problem is that work is complicated and the work is complicated.

  It is an object of the present invention to perform automatic setting operations such as opening / closing speed and opening width of an automatic door using a setting machine without stopping an automatic door control device without using a dedicated signal line. It is to provide a door control system.

The automatic door control system of the present invention according to claim 1, which has been made to solve the above problems, includes a door and a drive mechanism for opening and closing the door using a motor as a drive source, and by turning on a breaker way switch The door includes a door controller that operates the driving mechanism that opens and closes the door when the door is opened and closed manually and an object is detected by an internal sensor or an external sensor, and the door is detected by the internal sensor or the external sensor. In the automatic door control device that controls the opening and closing of
The door controller further receives a general-purpose input terminal to which a detection signal output from the internal sensor or the external sensor is input, and serial data for setting data for controlling the opening and closing of the door in the door controller. A serial input terminal and a serial output terminal for outputting control data set in the door controller;
A function of setting the door opening and closing speed and the door opening and closing width in the door opening and closing control by inputting the serial signal data to the serial input terminal and outputting the control data from the serial output terminal Serial signal transceiver with
It is connected to the general-purpose input terminal, the serial input terminal, and the serial output terminal, and is sent and received using a signal line of a busy signal among the breakaway switch, an internal sensor, or an external sensor.

  The automatic door control system of the present invention according to claim 2, which has been made to solve the above-mentioned problem, connects the signal line of the busy signal in the automatic door control system of the present invention according to claim 1 to the breaker switch. It is characterized by using a signal line.

  The automatic door control system of the present invention according to claim 3, which has been made to solve the above-mentioned problems, is provided with a light projecting element in the serial signal transceiver in the automatic door control system of the present invention according to claim 1, Using a signal line to which a safety light sensor is connected to the signal line of the bus signal, an optical signal is input from the light projecting element of the serial signal transmitter / receiver to the light receiving element of the safety light sensor, The serial signal data is input to the door controller via a signal line to which a sensor is connected.

  The automatic door control system of the present invention according to claim 4, which has been made to solve the above-mentioned problems, is wireless or ultrasonic in the serial signal transceiver in the automatic door control system of the present invention according to claim 1. A wireless signal transmission function is provided, and a signal line connected to a touch sensor after invalidating transmission of a touch sensor signal is used for the signal line of the busy signal, from the wireless signal transmitter of the serial signal transceiver The wireless signal is input to the receiver of the touch sensor, and the serial signal data is input to the door controller via a signal line to which the touch sensor is connected.

  The automatic door control system of the present invention according to claim 5, which has been made to solve the above-mentioned problems, is connected to a signal line of a busy signal in the automatic door control system of the present invention according to claim 1 by a human sensor. It is characterized by using a signal line.

  According to the automatic door control system of the first aspect of the present invention, the serial signal transceiver for outputting the control data for setting the door opening / closing speed and the door opening / closing width to the door controller for controlling the automatic door is provided. Various setting operations such as opening / closing speed and opening width of the automatic door using the setting machine without stopping the automatic door control device by using the signal line of the breakage switch, internal sensor or external sensor signal It can be performed. According to the first aspect of the invention, communication between the serial signal receiver 40 and the door controller 4 can be performed without preparing a dedicated wiring for connecting the setting machine to the automatic door control device in advance. it can.

  According to the automatic door control system according to claim 2 of the present invention, the setting machine can be used without stopping the automatic door control device by using the signal line connected to the breaker way switch for the signal line of the busy signal. Various setting operations such as opening / closing speed and opening width of the automatic door can be performed.

  According to the automatic door control system of claim 3 of the present invention, a signal line in which a light projecting element is provided in the serial signal transmitter / receiver in the automatic door control system, and a safety light sensor is connected to a signal line of a busy signal. The light signal is input from the light projecting element of the serial signal transmitter / receiver to the light receiving element of the safety light sensor, and the serial signal data is sent to the door controller via the signal line to which the safety light sensor is connected. Various setting operations such as the opening / closing speed and opening width of the automatic door can be performed using the setting machine without stopping the automatic door control device.

  According to the automatic door control system of claim 4 of the present invention, the serial signal transmitter / receiver in the automatic door control system is provided with a wireless signal transmission function such as radio or ultrasonic wave, and the signal line of the busy signal is connected with the touch sensor signal. A signal to which a touch sensor is connected by inputting a wireless signal to the receiver of the touch sensor from the wireless signal transmitter of the serial signal transmitter / receiver using the signal line to which the touch sensor is disabled after transmission is disabled Serial signal data can be input to the door controller via the line, and various setting operations such as opening / closing speed and opening width of the automatic door can be performed using the setting machine without stopping the automatic door control device. .

  According to the automatic door control system of claim 5 of the present invention, the setting machine can be used without stopping the automatic door control device by using the signal line connected to the human sensor for the signal line of the busy signal. Various setting operations such as opening / closing speed and opening width of the automatic door can be performed.

1 is a configuration diagram of an automatic door device to which an automatic door control system according to the present invention is applied. 1 is a schematic diagram showing a first embodiment of an automatic door control system according to the present invention. It is a schematic diagram which shows the 2nd Example of the automatic door control system which concerns on this invention. It is a schematic diagram which shows the 3rd Example of the automatic door control system which concerns on this invention. It is a schematic diagram which shows the 4th Example of the automatic door control system which concerns on this invention. It is a schematic diagram which shows the 5th Example of the automatic door control system which concerns on this invention.

Hereinafter, an example of an embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a configuration diagram of an automatic door device to which an automatic door control system according to the present invention is applied.

The automatic door device inputs a detection signal from a means for detecting an object such as a human body to the microcomputer to rotate the motor forward and backward, and at this time, the opening / closing movement amount of the door is measured by counting the number of rotations of the motor. Thus, the position of the door is determined, and the opening and closing of the door is controlled by the high-speed opening and closing door movement in which the opening deceleration point and the closing deceleration point are set based on the determination result. In order to perform such opening / closing control, it is necessary to measure the door stroke in advance and store it.
Hereinafter, an outline of an automatic door device to which the automatic door control system according to the present invention is applied will be described.

In FIG. 1, the automatic door device 1 includes a door 2, a drive mechanism 3 for opening and closing the door 2, and a door controller 4 for controlling the drive mechanism 3.
The drive mechanism 3 includes a motor 5 and a transmission mechanism 6. This structure of the drive mechanism 3 is attached to a mounting sideways base (not shown).
The door 2 opens and closes when the driving force from the motor 5 is transmitted through the transmission mechanism 6.
The motor 5 is provided with a magnetic pole position sensor 7. The magnetic pole position sensor 7 generates a pulse signal proportional to the amount of movement of the door 2 based on the rotation operation of the motor 5.

The transmission mechanism 6 includes a first belt mechanism 8, a second belt mechanism 9, and a speed reduction mechanism (not shown).
The first belt mechanism 8 and the second belt mechanism 9 are connected via a speed reduction mechanism. The first belt mechanism 8 includes a first toothed main driving pulley 10 that is attached to the motor output shaft of the motor 5, a first toothed driven pulley 11, and a first toothed belt 12 that is wound around these. ing.
The second belt mechanism 9 includes a second toothed main pulley 13, a second toothed driven pulley 14, and a second toothed belt 15 wound around them. The door 2 is attached to the second toothed belt 15 via a connector 16.

The door controller 4 is configured by a microcomputer (generally referred to as a microcomputer), and is configured to be able to open and close the door 2 by transmitting a door activation signal to the motor 5.
The door controller 4 includes a motor drive / speed controller 17 that controls the motor 5 to drive in the forward / reverse direction at an arbitrary speed, and a door open / close signal (speed command, forward / reverse direction, motor) to the motor drive / speed controller 17. A control calculation unit 18 that outputs a current command and an opening / closing width command) and a position / velocity pulse synthesis / rotation direction determination circuit that synthesizes a pulse signal from the magnetic pole position sensor 7 of the motor 5 and outputs this to the control calculation unit 18 19 and a storage unit 20 connected to the control calculation unit 18.

An internal sensor 21 and an external sensor 22 are provided inside and outside the door 2, respectively. The door 2 is also provided with a safety light switch 23 for preventing a person from being caught in the door 2 during the opening / closing operation. These are provided as object detection output means.
In the figure, reference numeral 24 indicates a power source, reference numeral 25 indicates a power switch, and reference numeral 26 indicates a power connection portion in the door controller 4.
Reference numeral 27 indicates an internal sensor input section, reference numeral 28 indicates an external sensor input section, and reference numeral 29 indicates a safety light input section (these are provided as an object detection signal input section). The internal sensor 21, the external sensor 22, and the safety light switch 23 are connected to the door controller 4 via the internal sensor input unit 27, the external sensor input unit 28, and the safety light input unit 29.

  After the power switch 25 is turned on, power from the power source 24 is supplied to the drive mechanism 3 and the door controller 4. Power is supplied to the internal sensor 21, the external sensor 22, and the safety light switch 23 through the door controller 4. Power supply to the drive mechanism 3 is also performed via the door controller 4. In the figure, a power supply line is shown by a broken line to distinguish it from a signal line.

The control calculation unit 18 includes a door stroke length measuring unit 30, a fully opened position detecting unit 31, a fully closed position detecting unit 32, and a door position detecting unit 33. The door stroke length measuring means 30 drives the motor 5 after the power switch 25 is turned on to drive the door 2 at a low speed, and generates a pulse speed synthesizing / rotation direction discriminating circuit for the position speed pulse signal from the magnetic pole position sensor 7 of the motor 5. It is configured to count through 19 and store the counted value in the storage unit 20 as a reference door stroke value.
After the door stroke length measuring means 30 is executed, a door opening / closing mode selecting means and the like are executed although not particularly shown. The pulse signal synthesized by the position / velocity pulse synthesizing / rotation direction discriminating circuit 19 is also outputted to the motor drive / speed controller 17 in order to measure the timing of energizing the coil of the motor 5.

The fully open position detecting means 31 and the fully closed position detecting means 32 calculate the reference door stroke value obtained by the execution of the door stroke length measuring means 30 and the count value obtained by counting the pulse signal from the magnetic pole position sensor 7 of the motor 5. The comparison operation is performed to detect the fully open position or the fully closed position of the door 2. The door position detection means 33 is configured to detect the current position of the door 2 based on a count value obtained by counting pulse signals from the magnetic pole position sensor 7 of the motor 5.
The control calculation unit 18 having the door stroke length measuring means 30, the fully open position detecting means 31, the fully closed position detecting means 32, and the door position detecting means 33 compares the reference door stroke value with the above count value to calculate the door 2 The brake position, the fully open position, and the fully closed position during the opening / closing operation are detected, and predetermined high speed operation, deceleration operation, and low speed operation that are set in advance for the door 2 are executed.
[Example 1]

FIG. 2 shows a first embodiment of an automatic door control system according to the present invention.
In FIG. 2, the door controller 4 is provided with a general-purpose input terminal 4 a to which sensors such as an internal sensor 21, an external sensor 22, a safety light switch 23, and switches are connected. Detection signals output from sensors and switches such as the internal sensor 21, the external sensor 22, and the safety light switch 23 are input to the general-purpose input terminal 4a.
The door controller 4 is provided with a serial input terminal 4b and a serial output terminal 4c along with the general-purpose input terminal 4a. The serial input terminal 4 b is a terminal for setting a control value of the control calculation unit 18 by inputting a data signal to the control calculation unit 18 of the door controller 4. The serial output terminal 4 c is a terminal that outputs a control value set in the control calculation unit 18 of the door controller 4 from the control calculation unit 18 as a setting data signal.

The general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c are connected to the same signal line. A breakerway switch 50 is connected to the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c via a signal line 51.
The breaker way switch 50 is a switch that does not turn off the power switch 25 of the automatic door device 1 but turns the power switch 25 of the automatic door device 1 off. Therefore, when the breakaway switch 50 is turned on, the power switch 25 of the automatic door device 1 is turned off, that is, the door 2 is opened.

A command from the breaker way switch 50 to the automatic door control device is input as a no-voltage contact signal.
In the automatic door device 1, in order to prevent malfunction due to external noise or switch chattering, a filter circuit is provided by an electric circuit, and a signal input from the general-purpose input terminal 4a is read a plurality of times, and all the levels read are matched. In this case, a technique called a software filter is used, which is regarded as an effective signal. The time constant of the filter circuit is set much shorter than the time constant of the software filter. Accordingly, since the validity of the signal is determined by the time constant of the software filter, even if the signal level is changed below this time constant, the automatic door device 1 ignores it.

In FIG. 2, the serial signal transmitter / receiver 40 is connected to the signal line 51 from the breakaway switch 50 in parallel or in series (daisy chain connection, the same applies hereinafter).
The serial signal transceiver 40 is provided with a serial output terminal 41 and a serial input terminal 42. The serial signal transmitter / receiver 40 is configured to be connected to the signal line 51 of the breaker way switch 50 via the signal line 40a. That is, by connecting the serial signal transceiver 40 to the signal line 51 of the breaker switch 50 via the signal line 40a, the serial output terminal 41 of the serial signal transceiver 40 and the serial input terminal 4b of the door controller 4 are The serial input terminal 42 of the serial signal transmitter / receiver 40 and the serial output terminal 4c of the door controller 4 are connected to each other.

The serial output terminal 41 of the serial signal transmitter / receiver 40 has a function of outputting a serial data signal such as a set value from the serial signal transmitter / receiver 40 to a serial input terminal 4 b provided in the door controller 4.
The serial input terminal 42 of the serial signal transmitter / receiver 40 inputs a set value set in the door controller 4 or an already set value or the like from a serial output terminal 4c provided in the door controller 4 as a serial data signal. It has a function.
That is, the serial signal transmitter / receiver 40 has a function of reading a set value set in the door controller 4.

As described above, in the automatic door device 1 according to the present embodiment, the signal line 40a of the serial signal transmitter / receiver 40 is in parallel with the signal line to the general-purpose input terminal 4a of the door controller (microcomputer) 4 and the serial input terminal 4b and serial output terminal 4c. Will be connected to.
Since the signal to the general-purpose input terminal 4a is subjected to software filtering to prevent malfunction due to external noise or switch chattering, it is ignored as invalid data if the signal level is intentionally changed within this time constant. Is done.
Therefore, the door controller (microcomputer) 4 receives serial data output from the serial signal transmitter / receiver 40 or serial data output from the door controller (microcomputer) 4 is serialized except for the processing time for recognizing it as invalid data. Transmission to the signal transceiver 40 does not affect the reading and determination of the command.

On the other hand, in the serial input / output terminals 4b and 4c of the door controller (microcomputer) 4, when predetermined serial data is input a plurality of times, it recognizes that serial data has been received and responds.
Data read from the general-purpose input terminal 4a is ignored, and serial data can be received from the serial signal transmitter / receiver 40 without causing malfunction.
The signal line 40a of the serial signal transmitter / receiver 40 is connected to the serial output terminal 4c of the door controller (microcomputer) 4. When serial data is output from the serial output terminal 4c, reading from the general-purpose input terminal 4a is performed. The data is ignored and serial data can be received from the serial signal transmitter / receiver 40 without causing malfunction.
With this configuration, when waiting for a command when the signal from the breaker switch 50 is OFF, signals can be exchanged between the serial signal transmitter / receiver 40 and the door controller (microcomputer) 4 of the automatic door device 1. Become.
[Example 2]

FIG. 3 shows a second embodiment of the automatic door control system according to the present invention.
3, the door controller 4 has the same configuration as the door controller 4 shown in FIG.
The general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c are connected to the same signal line. A safety light switch 60 (same as the safety light switch 23) is connected to the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c via a signal line 61.

A safety light switch 60 (same as the safety light switch 23, hereinafter the same) irradiates light 63 such as infrared light from the light projecting element 61, and receives light 63 such as infrared light emitted from the light projecting element 61. By detecting the light, a passerby, an object, etc. are detected. That is, the safety light switch 60 is configured such that when the light 63 such as infrared light emitted from the light projecting element 61 is blocked by a passerby, an object, or the like, and the light is received or blocked by the light receiving element 62, the door 2 It is a door switch for controlling to stop opening / closing of the door or to open the door 2.
The safety light switch 60 is connected to the door controller (microcomputer) 4 via a signal line 64. That is, the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c of the door controller 4 are connected to the signal line 64 to which the safety light switch 60 is connected. Normally, a signal from the safety light switch 60 is input to the general-purpose input terminal 4a of the door controller 4 and processing for opening and closing the door 2 is performed.

The same light projecting element 43 as the light projecting element 61 of the safety light switch 60 is connected to the serial signal transmitter / receiver 40 for setting the opening / closing speed and opening width of the door 2 of the automatic door device 1 through the signal line 40a. ing. The light projecting element 43 irradiates light 44 such as infrared rays, similar to the light projecting element 61 of the safety light switch 60, and the light 44 such as infrared light emitted from the light projecting element 43 is emitted from the safety light switch 60. The light receiving element 62 receives light.
That is, the serial signal transmitter / receiver 40 sends a serial data signal, which is a setting signal of the opening / closing speed and opening width of the automatic door device 1, to the light receiving element 62 of the safety light switch 60 via the light projecting element 43. It outputs to 60 light receiving elements 62. A serial data signal that is a set value signal of the opening / closing speed and opening width of the door 2 of the automatic door device 1 received by the light receiving element 62 of the safety light switch 60 is sent from the safety light switch 60 via the signal line 64 to the door controller 4. Is input to the serial input terminal 4b.

  As described above, the serial signal transmitter / receiver 40 has a function of outputting a serial data signal such as a set value from the serial signal transmitter / receiver 40 to the serial input terminal 4 b provided in the door controller 4.

The safety light switch 60 is provided with a light projecting element 61 and a light receiving element 62 on the opening / closing path of the door 2, and light 63 such as infrared rays emitted from the light projecting element 61 between the light projecting element 61 and the light receiving element 62. It is a safety device that determines that there is a person and keeps the open state when is shielded from light.
The light projecting element 61 and the light receiving element 62 of the safety light switch 60 are installed at a position less than 1 m from the floor in order to reliably detect a short human body such as a child. Therefore, when the serial signal transmitter / receiver 40 is operated by connecting to the signal line 64 of the safety light switch 60, the serial signal transmitter / receiver 40 is provided at a low position, so that the installation of the serial signal transmitter / receiver 40 does not require a stepladder or the like and is easily accessible. It is.

The signals of the light projecting element 61 and the light receiving element 62 of the safety light switch 60 pass through a dedicated amplifier of the safety light switch 60 and are sent to a general-purpose input terminal 4a provided in the door controller 4 as a no-voltage contact signal. Entered.
In FIG. 3, the serial signal transmitter / receiver 40 is connected in parallel or in series to the safety light switch 60, and a light shielding tape is attached to the light projecting element 61 of the safety light switch 60 to project light 63 such as infrared rays. Ineffective, light 44 such as infrared rays is projected from the light projecting element 43 of the serial signal transmitter / receiver 40, and a serial data signal is input to the light receiving element 62 of the safety light switch 60.
In this way, serial data that is the set values of the opening / closing speed and opening width of the door 2 can be input from the serial signal transmitter / receiver 40 to the door controller 4.
[Example 3]

FIG. 4 shows a third embodiment of the automatic door control system according to the present invention.
4, the door controller 4 has the same configuration as the door controller 4 shown in FIG.
When the traffic of people is frequent and the door 2 of the automatic door device 1 is frequently opened and closed, a wireless open command input device called a touch sensor may be used.
In FIG. 4, the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c are connected to the same signal line. A touch sensor 70 is connected to the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c through a signal line 74.

The touch sensor 70 operates the touch sensor transmitter 71 to transmit an opening / closing signal of the door 2 to the touch sensor receiver 72 by a wireless signal 73 from the touch sensor transmitter 71 and operates the touch sensor receiver 72. It is a door switch that opens and closes the door 2.
That is, the touch sensor 70 is specifically a door switch that opens the door 2 by turning on a touch sensor transmitter 71 provided on the door 2.

As described above, when a button (not shown) provided on the touch sensor transmitter 71 of the touch sensor 70 is pressed, a switch (not shown) is turned on and the wireless signal 73 is transmitted. The open command is input to the door controller 4 of the automatic door device 1 as a no-voltage contact signal.
The touch sensor 70 is connected to the door controller 4 constituted by a microcomputer via a signal line 74. That is, the general-purpose input terminal 4a, serial input terminal 4b, and serial output terminal 4c of the door controller 4 are connected to the signal line 74 to which the touch sensor 70 is connected. Usually, a signal from the touch sensor 70 is input to the general-purpose input terminal 4a of the door controller 4 and processing for opening and closing the door 2 is performed.

The serial signal transmitter / receiver 40 for setting the opening / closing speed and opening width of the door 2 of the automatic door device 1 is connected to the touch sensor transmitter 71 of the touch sensor 70 via the signal line 40a.
Further, the same transmitter 45 as the touch sensor transmitter 71 of the touch sensor 70 is connected to the serial signal transmitter / receiver 40. Similar to the touch sensor transmitter 71 of the touch sensor 70, the transmitter 45 transmits an opening / closing signal of the door 2 to the touch sensor receiver 72 by a wireless signal 46. The wireless signal 46 transmitted from the transmitter 45 is transmitted to the transmitter 45. Are received by the touch sensor receiver 72 of the touch sensor 70.

That is, the serial signal transmitter / receiver 40 sends a serial data signal, which is a setting signal for the opening / closing speed and opening width of the door 2 of the automatic door device 1, to the touch sensor receiver 72 of the touch sensor 70 via the transmitter 45. To the touch sensor receiver 72. A serial data signal, which is a set value signal for the opening / closing speed and opening width of the door 2 of the automatic door device 1, received by the touch sensor receiver 72 of the touch sensor 70 is transmitted from the touch sensor 70 via the signal line 74 to the door controller 4. Is input to the serial input terminal 4b.
As described above, the serial signal transmitter / receiver 40 has a function of outputting a serial data signal such as a set value from the serial signal transmitter / receiver 40 to the serial input terminal 4 b provided in the door controller 4.

Since the touch sensor transmitter 71 of the touch sensor 70 is installed at a position where it can be easily operated by a person, when the serial signal transmitter / receiver 40 is connected to the signal line 74 of the touch sensor 70 and operated, the touch sensor transmitter 71 is installed at an arbitrary position. Therefore, the installation of the serial signal transmitter / receiver 40 does not require a stepladder or the like and is easily accessible.
The wireless signal 73 of the touch sensor transmitter 71 and the touch sensor receiver 72 of the touch sensor 70 is a general-purpose input provided in the door controller 4 as a no-voltage contact signal via a dedicated amplifier of the touch sensor 70. Input to the terminal 4a.
In FIG. 4, the serial signal transmitter / receiver 40 is connected in parallel or in series with the touch sensor 70, and a drive stop signal is output from the serial signal transmitter / receiver 40 to the touch sensor transmitter 71 of the touch sensor 70 via the signal line 40a. Then, the drive of the touch sensor transmitter 71 of the touch sensor 70 is stopped, the wireless signal 46 is transmitted from the transmitter 45 of the serial signal transmitter / receiver 40, and the serial data signal is input to the touch sensor receiver 72 of the touch sensor 70. To do.
In this way, serial data that is the set values of the opening / closing speed and opening width of the door 2 can be input from the serial signal transmitter / receiver 40 to the door controller 4.
[Example 4]

FIG. 5 shows a fourth embodiment of the automatic door control system according to the present invention.
5, the door controller 4 has the same configuration as the door controller 4 shown in FIG.
In the automatic door system, an opening width adjusting volume may be provided at a position where the user can easily access so that the end user can freely adjust the opening width of the door 2 of the automatic door device 1.
In FIG. 5, the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c are connected to the same signal line. An opening width adjusting volume 80 is connected to the general-purpose input terminal 4a, serial input terminal 4b, and serial output terminal 4c via a signal line 81.

The opening width adjusting volume 80 is a device that adjusts the opening / closing width of the door 2 by adjusting the volume.
The signal from the opening width adjusting volume 80 is input to the analog input terminal through a filter circuit using an electric circuit in order to prevent malfunction due to external noise or the like.
Furthermore, a method called a software filter, such as reading a voltage signal input from an analog input terminal a plurality of times and calculating a moving average, is used.
The opening width adjusting volume 80 is connected to a door controller 4 constituted by a microcomputer via a signal line 81. That is, the general-purpose input terminal 4a, serial input terminal 4b, and serial output terminal 4c of the door controller 4 are connected to the signal line 81 to which the opening width adjusting volume 80 is connected. Normally, a signal from the opening width adjusting volume 80 is input to the general-purpose input terminal 4a of the door controller 4, and processing for controlling the opening / closing width of the door 2 is performed.

The serial signal transmitter / receiver 40 for setting the opening / closing speed and opening width of the door 2 of the automatic door device 1 is connected to the signal line 81 of the opening width adjusting volume 80 via the signal line 40a.
The serial signal transmitter / receiver 40 includes a serial output terminal 41 that outputs a serial data signal of the opening / closing speed and opening width of the door 2 of the automatic door device 1 set in the serial signal transmitter / receiver 40 to the door controller 4, and a door controller. A serial input terminal 42 for inputting the data value of the opening / closing speed and opening width set to 4 as a serial data signal is provided.

A serial data signal for setting the opening / closing speed and opening width of the door 2 of the automatic door device 1 output from the serial output terminal 41 of the serial signal transceiver 40 is input to the serial input terminal 4 b of the door controller 4.
A serial data signal that is a data value of the opening / closing speed and opening width set in the door controller 4 and output from the serial output terminal 4 c of the door controller 4 is input from the serial input terminal 42 of the serial signal transceiver 40. The
In FIG. 5, the serial output terminal 41 of the serial signal transmitter / receiver 40 and the serial input terminal 42 of the serial signal transmitter / receiver 40 are connected in parallel or in series to the signal line 81 of the opening width adjusting volume 80 via the signal line 40a. To do. After the connection as described above, the output voltage from the opening width adjusting volume 80 is electrically disconnected, for example, by providing a switch (not shown) in the previous stage, and the opening width adjusting volume is connected via the signal line 40a. If serial data signals are input to the 80 signal lines 81, serial data can be input to the door controller 4.
[Example 5]

FIG. 6 shows a fifth embodiment of the automatic door control system according to the present invention.
In FIG. 6, the door controller 4 has the same configuration as the door controller 4 shown in FIG.
In an automatic door system, it is common to provide a human sensor (also referred to as human switch, hereinafter the same) that opens and closes the door 2 of the automatic door device 1 when a person approaches the door 2. is there.

  In FIG. 6, the door controller 4 is provided with a serial input terminal 4b and a serial output terminal 4c along with the general-purpose input terminal 4a. The serial input terminal 4 b is a terminal for setting a control value of the control calculation unit 18 by inputting a data signal to the control calculation unit 18 of the door controller 4. The serial output terminal 4 c is a terminal that outputs a control value set in the control calculation unit 18 of the door controller 4 from the control calculation unit 18 as a setting data signal.

The general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c are connected to the same signal line. A human sensor 90 is connected to the general-purpose input terminal 4a, the serial input terminal 4b, and the serial output terminal 4c through a signal line 91.
The human sensor 90 outputs an opening command signal for the door 2 when a person approaches the vicinity of the door 2, and outputs a closing command signal for the door 2 when the person moves away from the door 2 by a predetermined distance to control opening / closing of the door 2. It is a switch that performs.

A command from the human sensor 90 to the automatic door control device is input as a no-voltage contact signal.
In the automatic door device 1, in order to prevent malfunction due to external noise or switch chattering, a filter circuit is provided by an electric circuit, and a signal input from the general-purpose input terminal 4a is read a plurality of times, and all the levels read are matched. In this case, a technique called a software filter is used, which is regarded as an effective signal. The time constant of the filter circuit is set much shorter than the time constant of the software filter. Accordingly, since the validity of the signal is determined by the time constant of the software filter, even if the signal level is changed below this time constant, the automatic door device 1 ignores it.

In FIG. 6, the serial signal transmitter / receiver 40 is connected to the signal line 91 from the human sensor 90 in parallel or in series (daisy chain connection, the same applies hereinafter).
The serial signal transceiver 40 is provided with a serial output terminal 41 and a serial input terminal 42. The serial signal transmitter / receiver 40 is configured to be connected to the signal line 91 of the human sensor 90 via the signal line 40a. That is, by connecting the serial signal transceiver 40 to the signal line 91 of the human sensor 90 via the signal line 40a, the serial output terminal 41 of the serial signal transceiver 40 and the serial input terminal 4b of the door controller 4 are The serial input terminal 42 of the serial signal transmitter / receiver 40 and the serial output terminal 4c of the door controller 4 are connected to each other.

The serial output terminal 41 of the serial signal transmitter / receiver 40 has a function of outputting a serial data signal such as a set value from the serial signal transmitter / receiver 40 to a serial input terminal 4 b provided in the door controller 4.
The serial output terminal 41 of the serial signal transmitter / receiver 40 inputs a set value set in the door controller 4 or an already set value or the like from the serial output terminal 4c provided in the door controller 4 as a serial data signal. It has a function.
That is, the serial signal transmitter / receiver 40 has a function of reading a set value set in the door controller 4.

As described above, in the automatic door device 1 according to this embodiment, the signal line 40a of the serial signal transceiver 40 is connected to the serial input terminal 4b and the serial output terminal 4c in parallel with the signal line to the general-purpose input terminal 4a of the door controller 4. Will be.
Since the signal to the general-purpose input terminal 4a is subjected to software filtering to prevent malfunction due to external noise or switch chattering, it is ignored as invalid data if the signal level is intentionally changed within this time constant. Is done.
Therefore, the door controller 4 receives serial data output from the serial signal transmitter / receiver 40 or transmits serial data output from the door controller 4 to the serial signal transmitter / receiver 40 except for the processing time for recognition as invalid data. However, it does not affect the reading and determination of commands.

On the other hand, when predetermined serial data is input a plurality of times, the serial input / output terminals 4b and 4c of the door controller 4 recognize the serial data received and respond.
Data read from the general-purpose input terminal 4a is ignored, and serial data can be received from the serial signal transmitter / receiver 40 without causing malfunction.
The signal line 40a of the serial signal transmitter / receiver 40 is connected to the serial output terminal 4c of the door controller 4. When serial data is output from the serial output terminal 4c, the read data from the general-purpose input terminal 4a is ignored. Thus, the serial data can be received from the serial signal transmitter / receiver 40 without causing a malfunction.
With this configuration, it is possible to exchange signals between the serial signal transmitter / receiver 40 and the door controller 4 of the automatic door device 1 when waiting for a command when the signal from the human sensor 90 is OFF.

1 ………… Automatic door device 2 ………… Door 3 ………… Drive mechanism 4 ………… Door controller 4a ………… General-purpose input terminal 4b ………… Serial input terminal 4c ……… Serial output terminal 5 ………… Motor 21 ………… Internal sensor 22 ……… External sensor 25 ……… Power switch 40 ……… Serial signal transceiver 40a …… Signal line 41 ……… Serial output terminal 42 ……… Serial input terminal 43... Projecting element 50... Breaker way switch 51... Signal line 60... Safety beam switch 61... Projecting element 62. Touch sensor transmitter 72 ......... Touch sensor transmitter 73 ......... Wireless signal 80 ......... Volume for adjusting opening width 81 ......... Signal line 90 ......... Human sensor 91 ......... Signal line

Claims (5)

A door and a drive mechanism for opening and closing the door using a motor as a drive source are provided. When the breaker way switch is turned on, the door is manually opened and closed. When an internal sensor or an external sensor detects an object, the door opens and closes. In an automatic door control device that includes a door controller that operates the drive mechanism that performs, and controls opening and closing of the door by detection of an object by the internal sensor or external sensor,
The door controller further receives a general-purpose input terminal to which a detection signal output from the internal sensor or the external sensor is input, and serial data for setting data for controlling the opening and closing of the door in the door controller. A serial input terminal and a serial output terminal for outputting control data set in the door controller;
A function of setting the door opening and closing speed and the door opening and closing width in the door opening and closing control by inputting the serial signal data to the serial input terminal and outputting the control data from the serial output terminal Serial signal transceiver with
An automatic door control system that is connected to the general-purpose input terminal, the serial input terminal, and the serial output terminal, and is sent and received using a signal line of a busy signal in the breaker switch, an internal sensor, or an external sensor. . The signal line of the busy signal is
The automatic door control system according to claim 1, wherein the signal line is connected to the breakaway switch. A light projecting element is provided in the serial signal transceiver,
Using a signal line to which a safety light sensor is connected to the signal line of the busy signal,
An optical signal is input from the light projecting element of the serial signal transceiver to the light receiving element of the safety light sensor, and the serial signal data is input to the door controller via a signal line to which the safety light sensor is connected. The automatic door control system according to claim 1. The serial signal transceiver is provided with a wireless signal transmission function such as radio or ultrasonic,
Using the signal line to which the touch sensor after invalidating the transmission of the touch sensor signal is connected to the signal line of the busy signal,
A wireless signal is input from the wireless signal transmitter of the serial signal transceiver to the receiver of the touch sensor, and the serial signal data is input to the door controller via a signal line to which the touch sensor is connected. The automatic door control system according to claim 1. The signal line of the busy signal is
The automatic door control system according to claim 1, wherein the signal line is connected to a human sensor.

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