JP4369024B2 - Transmission unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission unit.
[0002]
[Prior art]
For example, as shown in FIG. 7, the serial transmission slave station (transmission unit) 51 includes a serial signal input unit 52, a power input terminal 53, a control unit 54, an output unit 55, and an output terminal (output connection point) 56. Yes. The serial transmission slave station 51 receives a serial signal output from a sequencer (not shown) at the serial signal input unit 52, and drives the solenoid valve 58 of the solenoid valve manifold 57 according to the serial signal. The power supplied to 58 is controlled. Each wiring 59 connected to each solenoid (not shown) of the electromagnetic valve 58 is individually connected to the output terminal 56 provided on the output side of the output unit 55.
[0003]
The number of output points (number of connection points) of the output unit 55 is determined according to the number of control points of the control unit 54 that is built in the main body of the slave station 51 and communicates with the sequencer. Conventionally, the control unit 54 has 16 or 32 control points, and the serial transmission slave station 51 has 16 or 32 output points of the output unit 55 according to the control points of the control unit 54. There are things. The slave station 51 shown in FIG. 7 has 16 output points of the output unit 55. When this slave station 51 is used, the total number of solenoids of the solenoid valves 58 mounted on the solenoid valve manifold 57 is 16 or less. It can correspond to things.
[0004]
[Problems to be solved by the invention]
However, if the serial transmission slave station 51 having 16 output points of the output unit 55 is used in the solenoid valve manifold 60 having a total of 32 solenoids shown in FIG. 8, for example, two slave stations 51 are provided as shown in FIG. Necessary. For this reason, each slave station 51 is connected to a wiring extending from the sequencer and a power supply wiring, which causes a problem of complicated wiring.
[0005]
On the other hand, a slave station (not shown) having 32 output points may be used for the solenoid valve manifold 60 having 32 solenoids. However, if this slave station is used for the solenoid valve manifold 57 having a total of 16 solenoids, the output of the slave station's 16 points will be set aside, and the slave station's size will be in proportion to the size of the solenoid valve manifold 57. There is a problem that the size increases. Therefore, it is conceivable to prepare slave stations with 16 and 32 output points, but there is a problem that two types of slave stations are required and there is a lot of waste.
[0006]
The present invention has been made in view of the above problems, and an object of the present invention is to provide a transmission unit that can change the size of the transmission unit according to the required number of connection points and can also suppress the complexity of wiring. It is in.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, there is provided a control unit capable of serial communication with an external device, and an input / output capable of inputting / outputting at least one of a signal and a power source electrically connected to the control unit. And a main unit that is separate from the main unit and includes at least one sub-unit that includes an input / output unit that can input and output at least one of a signal and a power source. A connection unit that electrically connects the main unit and the sub unit is provided between the main unit and the sub unit so that signal and power can be input / output between the control unit of the unit and the input / output unit on the sub unit side. Provided in each of the subunits, the number of connection points of the input / output unit of the main unit is set to be smaller than the number of control points of the control unit, Continued score is, the gist that it is set to have a number of connections within the numerical range minus the number of connection points of the main unit side from the control points of the control unit.
[0008]
According to the present invention, the main unit and at least one subunit are attached and detached via the connection portion. When the subunit is connected to the main unit, input / output of at least one of a signal and a power source is performed between the input / output unit of the subunit and the control unit via the connection unit. When the number of connection points of the input / output section of the main unit is sufficient, only the main unit is used as the transmission unit, so that the transmission unit becomes a small size. In addition, when the number of connection destinations connected to the input / output unit of the main unit exceeds the number of connection points of the input / output unit of the main unit, the transmission unit that connects the sub unit to the main unit is used. Since there is no need to newly connect the wiring, wiring connection work is easy and wiring is not complicated. Here, the input / output unit has at least one function of the input unit and the output unit.
[0009]
According to a second aspect of the present invention, in the first aspect of the present invention, the main unit is provided with a power input unit, and the control unit is based on an input signal input as a serial signal from the external device. The power source output from at least one connection point of the input / output unit of the subunit is controlled, and the subunit receives signals and power from the main unit via the connection unit.
[0010]
According to the present invention, in addition to the operation of the first aspect of the invention, the power input from the power input unit of the main unit is supplied to the input / output unit of the sub-unit via the connection unit. Therefore, the power source is also shared with the main unit, wiring connection work is further simplified, and wiring complexity is further suppressed.
[0011]
According to a third aspect of the present invention, in the first or second aspect of the present invention, at least one of the subunits and the main unit have power supply input units capable of inputting different voltage values. The gist is that it is provided.
[0012]
According to the present invention, in addition to the operation of the invention described in claim 1 or 2, the power input portion of the subunit can be supplied with a power having a value different from the voltage value supplied to the power input portion of the main unit. Therefore, for example, it is possible to input / output power supplies having different values at the input / output units of the main unit and the subunit.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
A first embodiment in which the present invention is embodied in a solenoid valve manifold will be described below with reference to FIGS.
[0014]
As shown in FIG. 2, the solenoid valve manifold 1 includes a plurality of solenoid valves 4 mounted on a manifold 3. The electromagnetic valve 4 includes a supply flow path 2a and an exhaust flow path 2b formed through the longitudinal direction of the manifold 3, and two input / output ports (not shown) provided for each manifold 3 station. The communication state is switched between. Each solenoid valve 4 is a double solenoid type in this example, and has two power supply connector portions 5 at both ends of the main body. The single solenoid type solenoid valve 4 has one connector portion 5 only at one end of the main body.
[0015]
The solenoid built in the solenoid valve 4 is excited by the power supplied from the connector unit 5. When power is not supplied to the connector section 5, the solenoid valve 4 is not driven, and each input / output port of the manifold 3 on which the solenoid valve 4 is mounted does not input / output air. On the other hand, when power is supplied to the connector section 5, the solenoid valve 4 is driven, and each input / output port of the manifold 3 on which the solenoid valve 4 is mounted inputs and outputs air. Each manifold 3 is individually connected with a pneumatic device (air cylinder or the like) (not shown) through a pipe connected to the input / output port, and the plurality of pneumatic devices are sequence-controlled via the solenoid valve manifold 1. The sequence control of the solenoid valve 4 is performed via a serial transmission slave station 6 as a transmission unit.
[0016]
The serial transmission slave station 6 is composed of two stations of a main unit 7 and a subunit 8 in which 32 output points (number of connection points) are divided into 16 points each. That is, the main unit 7 is provided with an output terminal array 10 including 16 power output terminals (output connection points) 9, and the subunit 8 is also configured with an output including 16 power output terminals (output connection points) 9. A terminal row 11 is arranged. A serial communication terminal 12 for inputting a serial signal from the sequencer and a power input terminal 13 as a power input unit for inputting power are provided only in the main unit 7.
[0017]
The sub unit 8 is removable from the main unit 7. Connector portions 14 and 15 as connecting portions for connecting the two together are provided on the side surfaces of the main unit 7 and the sub unit 8, and the main unit 7 is joined by joining both the connector portions 14 and 15. And the subunit 8 are assembled together. The serial transmission slave station 6 can support a maximum of 32 power supply outputs. Each connector portion 5 of the electromagnetic valve 4 is connected to each power output terminal 9 of the serial transmission slave station 6 through each wiring 4a.
[0018]
FIG. 1 shows a circuit configuration of the serial transmission slave station 6.
The main unit 7 includes a transmission / reception unit 16 as a control unit and an output unit 17 as an input / output unit having 16 power supply output terminals 9. The transmission / reception unit 16 receives a serial signal from the sequencer 18 as an external device through the serial communication terminal 12. The transmission / reception unit 16 has 32 control points, 16 of which are connected to the output unit 17 through 16 signal lines 19, and the remaining 16 points are connected to the connector unit 14 through 16 signal lines 20. . The power input terminal 13 connected to the power source 21 is connected to the output unit 17 and the connector unit 14 through the power lines 22 and 23, respectively.
[0019]
On the other hand, the subunit 8 incorporates an output unit 24 as an input / output unit having 16 power output terminals 9. The output unit 24 and the connector unit 15 are connected by 16 signal lines 25 and a power line 26. By connecting the connectors 14 and 15, the output unit 24 of the subunit 8 is supplied with signals and power from the transmission / reception unit 16 and the power input terminal 13 of the main unit 7.
[0020]
The output units 17 and 24 each include 16 switching circuits that open and close the connection between the 16 power output terminals 9 and the power lines 22 and 26. The transmission / reception unit 16 transmits an ON signal to the address specified based on the serial signal received from the sequencer 18 through the signal lines 19, 20, and 25, and the switching circuit operates by the ON signal, so that the power from the power source 21 is received. It is output from the power supply output terminal 9 at the designated address. Thus, the solenoids of the plurality of solenoid valves 4 connected to the respective power supply output terminals 9 through the wires 4a are excited at the excitation timing corresponding to the command content of the serial signal from the sequencer 18, and the solenoid valve manifold 1 operates.
[0021]
The output unit 17 of the main unit 7 is set to an output point M (<32) less than the control point “32” of the transmission / reception unit 16, and the output unit 24 of one subunit 8 is the control point of the transmission / reception unit 16. The number of output points N (= 32−M) obtained by subtracting the number of output points M from “32” is set. The combination of the number of output points M and N is not limited to a combination having the same number of output points (M = N), and can be arbitrarily set within a range of combinations that satisfy the above conditions. Furthermore, it is possible to set a combination in which the sum of the output points M and N is less than the control point “32” of the transmitting / receiving unit 16.
[0022]
Next, the operation of the serial transmission slave station configured as described above will be described.
When the solenoid valve manifold 1 has a total number of solenoids of 16 or less (16 points or less), only the main unit 7 can be used to function as a serial transmission slave station capable of outputting 16 points. When the solenoid valve manifold 1 is 16 points or less, the serial transmission slave station 6 can be reduced in size and space because it is used only by the main unit 7.
[0023]
On the other hand, when the solenoid valve manifold 1 is added to a total of 17 or more solenoids (17 or more points), or when connecting to the solenoid valve manifold 1 having a total of 17 or more solenoids from the beginning, the connectors 14 and 15 are used. Then, the subunit 8 is connected to the main unit 7. Thereby, it can function as a serial transmission slave station capable of outputting 32 points. At this time, since the sub unit 8 is supplied with signals and power from the main unit 7 through the connector portions 14 and 15, no extra wiring is required other than the wiring connected to the main unit 7. Therefore, new wiring connection work is unnecessary and wiring is not complicated.
[0024]
Whether the serial transmission slave station 6 is used for 16-point output or 32-point output, the main unit 7 is used as a common component. For this reason, compared to the case where serial transmission slave stations having 16 and 32 control points, each having a transmission / reception unit 16, a power input terminal 13 and the like, are provided in accordance with the number of points of the solenoid valve manifold 1, serial transmission elements are provided. The parts cost for the station 6 can be reduced.
[0025]
Therefore, in this embodiment, the following effects can be obtained.
(1) In the case of the solenoid valve manifold 1 having 16 points or less, since only the 16-point main unit 7 is used, the serial transmission slave station 6 can be downsized. Further, in the case of the solenoid valve manifold 1 having 17 points or more, it is only necessary to connect the subunit 8 to the main unit 7, so that it is not necessary to add a serial communication or power supply wiring, and the wiring is not complicated. In addition, since it is not necessary to individually prepare 16 and 32 serial transmission slave stations each provided with the transmission / reception unit 16 and the power input terminal 13 and the like, it is possible to reduce the cost of parts related to the serial transmission slave station 6.
[0026]
(Second Embodiment)
Next, a second embodiment will be described with reference to FIG. In this example, the power terminal is provided in the subunit, which is different from the first embodiment and the other configurations are the same. Therefore, the same parts are denoted by the same reference numerals and detailed description thereof is omitted.
[0027]
As shown in FIG. 3, the serial transmission slave station 6 includes a main unit 7 and a subunit 8. The main unit 7 includes a transmission / reception unit 16 as a control unit and an output unit 17 having a power supply output terminal 9. The main unit 7 includes a power input terminal 13 for inputting power, and a connector unit 14 connected to the transmission / reception unit 16 through the signal line 20.
[0028]
On the other hand, the subunit 8 also includes an output unit 24 having a power output terminal 9 and a connector unit 15 connected to the output unit 24 through a signal line 25. The subunit 8 is also provided with a power input terminal 31 as a power input unit for inputting power. The power input terminal 31 is connected to the output unit 24 by a power line 32.
[0029]
The power input terminals 13 and 31 of the main unit 7 and the sub unit 8 can input power supplies having different voltage values (for example, 12 and 24V). For this reason, a single serial signal input source (sequencer 18) can output voltages having different values from the output units 17 and 24 of the main unit 7 and the subunit 8. The electromagnetic valve 4 having a different required voltage value is 1 Driven by two serial transmission slave stations 6.
[0030]
Therefore, in this embodiment, in addition to the effects described in the first embodiment, (1) downsizing of the serial slave station, suppression of component costs for the slave station, etc., the following effects can be obtained. Can do.
[0031]
(2) Since the power input terminal 31 is also provided in the subunit 8, and a power supply having a voltage value different from that of the main unit 7 can be input to the power input terminal 31, one solenoid valve 4 having a different required voltage value is provided. The drive can be controlled by the serial transmission slave station 6. Even if the power input terminal 31 is provided in the subunit 8, the transmission / reception unit 16 that communicates with the sequencer 18 exists only in the main unit 7, and the subunit 8 receives supply of signals from the main unit 7. The number of wires connected to the station 6 is relatively small.
[0032]
(Third embodiment)
Next, a third embodiment will be described with reference to FIG.
As shown in FIG. 4, the serial transmission slave station 6 includes a main unit 7 and two subunits 8 and 35. The number of output points (number of connection points) of the output unit 24 built in the subunit 8 is 8. The sub unit 35 is detachably integrated with the sub unit 8 via connector portions 36 and 37 as connecting portions. The connector unit 36 of the subunit 8 is connected to the connector unit 15 through a signal line 38 and a power line 39.
[0033]
The number of output points of the output unit 40 as an input / output unit built in the subunit 35 is eight. The output unit 40 is connected to the connector unit 37 through a signal line 41 and a power line 42. The output unit 40 of the subunit 35 is supplied with signals and power by the transmission / reception unit 16 via the signal lines 38 and 41 and the power supply lines 39 and 42. The number of subunits can be freely set within a predetermined range according to the number of control points of the transmission / reception unit 16 and the number of output points of the output unit of the main unit 7.
[0034]
Therefore, in this embodiment, in addition to the effects described in the first embodiment, (1) downsizing of the serial transmission slave station 6, suppression of component costs for the serial transmission slave station 6, and the like, The following effects can be obtained.
[0035]
(3) The serial transmission slave station 6 can be resized in three stages according to the required number of output points, and the play portion of the power output terminal 9 of the output units 17, 24, 40 can be reduced.
In addition, embodiment is not limited to the above, For example, you may change as follows.
[0036]
In the first to third embodiments, the input / output unit is not limited to an output unit that outputs power to a predetermined electromagnetic valve in accordance with an input signal from the transmission / reception unit. For example, as shown in FIG. 5, the subunit 8 may be provided with an input unit 43 as an input / output unit. In this example, the input unit 43 has a signal input terminal 44 as a connection point, and a predetermined signal input from the outside to the signal input terminal 44 is transmitted in parallel via the connector units 14 and 15 and the signal lines 20 and 25. The data is output to the transmission / reception unit 16. In this case, a signal input from the outside can be output to the sequencer 18. For example, a feedback signal output by a sensor that detects an operating state of a pneumatic device or the like is sent to the sequencer 18 via the serial transmission slave station 6. Can also be sent to.
[0037]
In the first to third embodiments, as shown in FIG. 6, the input / output unit 45 may include both the input unit 47 and the output unit 48 in one of them. In this case, the serial transmission slave station 6 can output power and input / output signals through the connection terminal 46 of the input / output unit 45.
[0038]
In the first to third embodiments, the input / output unit is not limited to a configuration including only the output unit or a combination of the output unit and the input unit, and may include only the input unit. In this case, for example, an input signal can be input in parallel from a connection point (signal input terminal), and the transmission / reception unit 16 can provide a serial transmission slave station that outputs a serial signal corresponding to the signal from the serial communication terminal.
[0039]
In the first to third embodiments, the input terminal (connection point) of the input / output unit may input a power supply voltage instead of a signal. For example, the power supply voltage input from the input terminal is used as a power supply output to the outside from the other output terminal (connection point) of the input / output unit, and the power output of the output terminal is switched by a signal from the transmission / reception unit. In addition, a signal (for example, a voltage signal) extracted from the power supply voltage input from the input terminal is transmitted to the transmission / reception unit through a signal line corresponding to the input terminal of the input / output unit, and is transmitted from the transmission / reception unit to the sequencer by serial communication. In this case, for example, the sequencer can monitor whether the power supply voltage is correctly input to the input terminal based on the signal sent from the input / output unit.
[0040]
In the first to third embodiments, the number of control points of the transmission / reception unit 16 is not limited to 32 points, but may be 16 points, 48 points, or the like other than 32 points.
In the first to third embodiments, the main unit 7 and the subunit 8 are integrally assembled via the connector portions 14 and 15, but instead of this, a structure that is electrically connected by wiring may be used. .
[0041]
In each embodiment other than the third embodiment, the number of subunits 8 is not limited to one, and may be two or more. In this case, the control points of the units 7 and 8 are set to an appropriate combination in which the sum of the output points of the main unit 7 and the plurality of subunits 8 is equal to or less than the control points of the transmission / reception unit. it can.
[0042]
In the third embodiment, when a plurality of subunits are provided, the number of output points of the plurality of subunits can be set differently. In this case, the degree of freedom of setting when connecting the subunit to the main unit 7 is increased, and the size selection range of the serial transmission slave station 6 is widened.
[0043]
In the third embodiment, when a plurality of subunits are provided, the subunit 35 is connected to the subunit 8. However, instead of this, the subunits 8 and 35 are provided on both sides with the main unit 7 interposed therebetween. It can also be configured to connect.
[0044]
In the first to third embodiments, the serial transmission slave station 6 is not limited to being used for the electromagnetic valve 4 (electromagnetic valve manifold 1), but can also be used for other devices.
[0045]
The technical ideas other than the claims that can be grasped from the embodiment and other examples will be described below together with the effects thereof.
(1) In Claims 1 to 3, the input / output unit is an output unit that outputs a power source or a signal. In this case, the connected device connected to the output unit can be driven by a power supply or a signal.
[0046]
(2) In Claims 1 to 3, the main unit and the subunit are detachably provided via the connection portion. In this case, the main unit and the subunit can be attached and detached by the connecting portion.
[0047]
(3) In Claims 1 to 3, the input / output unit is an input unit that inputs signals in parallel, and the control unit outputs an input signal from the input unit as a serial signal. In this case, the input signal can be output as a serial signal to an external device.
[0048]
(4) In Claim 2 and the technical idea (3), the input / output unit includes both the input unit and the output unit. In this case, both signals and power can be input / output in the same unit.
[0049]
(5) In Claims 1 to 3, the input / output unit is connected to a solenoid valve of a solenoid valve manifold. In this case, a transmission unit for the solenoid valve manifold can be provided.
[0050]
【The invention's effect】
As described above in detail, according to the present invention, the serial transmission slave station is divided into the main unit and at least one subunit, and the control unit of the main unit is shared with the subunit. In addition, the size of the transmission unit can be changed and the wiring complexity can be suppressed.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a serial transmission slave station in a first embodiment.
FIG. 2 is a perspective view when a serial transmission slave station is used for a solenoid valve manifold.
FIG. 3 is a configuration diagram of a serial transmission slave station in the second embodiment.
FIG. 4 is a configuration diagram of a serial transmission slave station in the third embodiment.
FIG. 5 is a configuration diagram of a serial transmission slave station in another example.
FIG. 6 is a configuration diagram of a serial transmission slave station in another example.
FIG. 7 is a perspective view when a conventional serial transmission slave station is used for a solenoid valve manifold.
FIG. 8 is a perspective view when using the serial transmission slave station.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Solenoid valve manifold, 6 ... Serial transmission slave station as a transmission unit, 7 ... Main unit, 8 ... Sub unit, 13, 31 ... Power input terminal as a power input part, 14, 15, 36, 37 ... Connection part Connector unit, 16 ... transceiver unit as control unit, 17 ... output unit as input / output unit (main unit side), 18 ... sequencer as external device, 24,40 ... output unit as input / output unit (sub (Unit side), 43... Input unit (sub unit side) as an input / output unit, 45.

Claims (3)

A main unit including a control unit capable of serial communication with an external device, and an input / output unit electrically connected to the control unit and capable of inputting and outputting at least one of a signal and a power source;
The main unit is separate from the main unit, and includes at least one subunit having an input / output unit capable of inputting / outputting at least one of a signal and a power source,
A connection part for electrically connecting the main unit and the subunit is provided between the main unit control part and the input / output part on the subunit side so that signals and power can be inputted and outputted. Provided in each unit and subunit,
The number of connection points of the input / output unit of the main unit is set to be smaller than the number of control points of the control unit. A transmission unit configured to have a number of connection points within a numerical range obtained by subtracting. A power input unit is provided in the main unit, and the control unit is a power source output from at least one connection point of the input / output units of the main unit and the subunit based on an input signal input as a serial signal from the external device. 2. The transmission unit according to claim 1, wherein the sub unit receives a signal and a power supply from the main unit through the connection unit. The transmission unit according to claim 1, wherein at least one of the subunits and the main unit are provided with a power input unit capable of inputting different voltage values.

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