JP4062741B2 - Terminal conversion unit - Google Patents

Description

  The present invention relates to a terminal conversion unit capable of diverting an electric wire connected to an existing device to the new device as it is when replacing the existing device with a new device.

A PLC (programmable logic controller) is widely known as a representative control device in the FA field for automating factory production lines and the like. FIG. 6 illustrates a typical model of this PLC. The sequencer system 101 includes a power supply unit 102 that converts commercial power into power and supplies power to each device unit, a CPU unit 103 that performs sequence control according to, for example, a ladder program stored in the internal storage device in advance, and 32 points, for example. An input unit 104 having a transistor input and the like, and an output unit 105 having, for example, 32 transistor outputs are mounted in each slot of a flat plate-like base unit 106. The input unit 104 or the like mounted in each slot of the base unit 106 corresponds to a device unit. In the figure, the base unit 106 is hidden by each device unit and partially invisible, but the base unit 106 has a base connector 107 that can be attached to and detached from the back side of each device unit. A plurality of devices are arranged in parallel at each position, and each device unit is electrically connected by mounting each device unit on the base unit 106. At this time, each device unit is firmly fixed by screwing into the screw holes 106a drilled on both sides of the base unit 106 in the short direction. The base unit 106 is attached to the control panel by, for example, screwing.

  A detachable terminal block 110 is attached to each of the input unit 104 and the output unit 105, and a plurality of electric wires 111 having crimp terminals crimped to the ends of the electric wires are connected to the terminal block 110 by screwing. Thus, signal input / output is performed between the sequencer system 101 and the external device.

  In addition to the above, there are many device units such as AC input / output units and special units for positioning, A / D conversion, network communication, etc. Correspondingly, the wiring method with external equipment is different. That is, when the number of signals per unit is relatively small, the terminal block 110 is used similarly to the input unit 104 and the output unit 105, but when the number of signals per unit is relatively large, the terminal block 110 Instead, a connector is used. Specifically, a male connector is provided on the device unit side, and external wiring is performed by fitting a female connector to which a plurality of electric wires are soldered and connected.

Although the sequencer system 101 shown in FIG. 6 is a large-sized PLC, the PLC has been rapidly miniaturized in recent years, and a large size reduction has been realized as compared with the conventional model. When replacing an existing large PLC with a small PLC, the terminal block 110 is first removed from the input unit 104 and the output unit 105 of the sequencer system 101, which is an existing large PLC, as shown in FIG. After the system 101 is removed, a new small PLC is installed, and the replacement work is performed by replacing the electric wire 111 connected to the conventional terminal block 110 with the small PLC.

  At this time, in order to replace the electric wire 111 from the terminal block 110 to the small PLC, loosen the screw of the terminal block 110, separate the electric wires 111 one by one, re-bond the terminals of each electric wire 111, and connect the terminals of the small PLC. It was necessary to connect to the base by screwing, which was a laborious work. Even if the old and new equipment units are functionally compatible, many small PLCs have a connector wiring system that allows more external wiring in a space-saving manner due to the limitation of unit space. In this case, it is necessary to solder and connect the wires 111 separated from the terminal block 110 to the connectors one by one, which is a laborious operation. This replacement work usually has to be performed with the production line in operation temporarily stopped, and therefore there has been a strong demand for shortening the wiring and installation time on site.

As one of means for solving the above problem, there is a conversion connector disclosed in Patent Document 1. This conversion connector includes a terminal block holder to which a terminal block for an existing control panel can be attached and a male connector to which a female connector for a new control panel can be attached and detached, and the gap between the terminal block receiver and the male connector. Terminal block-connector conversion is enabled by electrical connection so that the signal arrangement is appropriate. With this configuration, it is possible to replace the control panel while the electric wires are still connected to the terminal block without disconnecting each electric wire of the terminal block.
JP 2005-32619 A

  However, since the conversion connector of the above-mentioned Patent Document 1 is directly attached to the terminal block for the existing control panel and fitted into the male connector for the new control panel, when this conversion connector is applied to a PLC, There was a problem.

  Since the small PLC generally has a narrower device unit width than the large PLC, each electric wire connected to the adjacent small PLC device unit interferes when the conversion connector is attached. Therefore, it is necessary to bend the crimp terminal of the electric wire into an L shape so that no stress is applied to the connecting portion of the electric wire, and make the electric wire stand up with respect to the terminal block. In particular, since the wire bundle becomes thicker toward the end of the device unit, the space becomes strict.

  Since the terminal block for large PLC is generally larger than the equipment unit for small PLC, the replaced small PLC is hidden under the conversion connector on which the terminal block for large PLC is mounted. There is a risk of hindering the operation check after the replacement work, for example, the display of each device unit such as the signal status display becomes invisible or the switch operation of the device unit becomes difficult.

  SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a terminal conversion unit that can easily and quickly replace an existing device with a new device.

In the terminal conversion unit according to claim 1 of the present invention, a first connection terminal capable of connecting a removable external wiring body to the device unit constituting one device in which the device unit is detachably attached to the base unit. An electrical connection between the first connection terminal portion and the second connection terminal portion, a second connection terminal portion capable of connecting the other end of the conductor, one end of which is connected to another device. The main body is configured to be attachable to the base unit in place of the device unit , the other device can be installed and the top plate covers the main body, and the top plate And a column that can stand on the base unit.

In this way, the external wiring body connected to the existing one device can be removed and connected as it is to the first connection terminal portion of the terminal conversion unit. Can be exchanged. In addition, since the main body of the terminal conversion unit can be attached to the base unit instead of the equipment unit that constitutes one equipment, the connection space of the external wiring body remains unchanged before the external wiring needs to be cured. In addition, since the terminal conversion unit can be installed using the existing base unit as it is, the installation is easy and the cost can be reduced. In addition, it is possible to use the space where one existing device was installed and to expose another new device on the surface side, so it is necessary to provide a space for newly installing another device This makes it easier to maintain other equipment.

According to the first aspect of the present invention, there is provided a terminal conversion unit that makes it easy and short to replace an existing device with a new device, saves space, and improves maintainability. be able to.

  Hereinafter, preferred embodiments of a terminal conversion unit according to the present invention will be described with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the same location as a prior art example, and since description of a common part overlaps, it abbreviate | omits as much as possible.

1 and 2 are views showing an embodiment of a terminal conversion unit according to the present invention. The casing 2 as an outer member of the conversion unit body 1 is a rectangular parallelepiped box having substantially the same dimensions as the input unit 104 and the output unit 105 of the large PLC shown in FIG. Similarly to the above, the base unit 106 can be detachably attached. However, the height h of the casing 2 (the distance from the back surface facing the base unit 106 to the front surface) is lower than that of the units 104 and 105. Ear portions 3 are formed at both ends in the longitudinal direction of the casing 2 so that the back member extends so as to protrude from the side wall, and a long hole 13 through which a screw 15 can be inserted is formed at the center of the ear portion 3. It has been drilled. The casing 2 is firmly fixed to the base unit 106 by inserting the screw 15 through the long hole 13 of the ear portion 3 and screwing it into the screw hole 106 a of the base unit 106.

  In order to allow the terminal block 110 to be attached to the front side of the casing 2, a terminal block opening 8 into which the connector portion 110 b of the terminal block 110 can be inserted is formed in an elongated shape in a rectangular shape, and the terminal block opening 8 Are respectively provided with screw holes 10 therebetween. In this embodiment, the terminal block opening 8 is formed in the longitudinal direction of the casing 2 so that the mounting position of the terminal block 110 with respect to the conversion unit main body 1 corresponds to the position with respect to the units 104 and 105 (the position on the lower right side in FIG. 6). An opening is formed along the longitudinal side from one end in the direction. A printed circuit board 4 on which a circuit pattern is formed is fastened and fixed with bolts 12 inside the casing 2, and a card edge terminal 9 in which a plurality of terminal pieces are disposed at the end of the printed circuit board 4. It is exposed from the terminal block opening 8. The terminal block 110 has a plurality of terminal screws 110a arranged in two rows on the main body portion front side, and a protrusion formed on the back side is a connector portion 110b. The connector part 110b is a card edge connector into which the card edge terminal 9 of the printed circuit board 4 can be fitted, and terminal pieces that are respectively connected to the terminal screws 110a are arranged inside an edge insertion port (not shown). In addition, mounting screws 110c are rotatably held at both ends in the longitudinal direction of the terminal block 110, respectively.

  When the terminal block 110 is attached to the casing 2, the connector portion 110 b is inserted into the terminal block opening 8, the edge insertion port of the connector portion 110 b is directed to the card edge terminal 9, and the mounting screw 110 c is moved to the screw hole 10. Screw together. With the screwing, the card edge terminal 9 is gradually fitted into the connector portion 110b, and the terminal block 110 is attached to the casing 2. By inserting the card edge terminal 9 of the printed circuit board 4 into the edge insertion port of the connector part 110b, the terminal piece of the card edge terminal 9 and the terminal piece of the connector part 110b are brought into contact with each other and formed on the printed circuit board 4. The pattern and the terminal screw 110a of the terminal block 110, and thus the electric wire 111 are electrically connected.

  Further, in order to enable attachment of a newly-replaced small PLC connector cable 18 on the front side of the casing 2, a connector opening 11 is formed in a rectangular shape at an appropriate location. A connector 6 that can be fitted with the provided connector 16 is provided. The connector 17 provided at the other end of the connector cable 18 is connected to each device unit (not shown) of the small PLC. The connector 6 is electrically connected to the connector 5 mounted on the printed circuit board 4 by the internal wiring 7 inside the casing 2.

  FIG. 3 shows an example in which a plurality of conversion unit bodies 1 are mounted on the base unit 106. All large PLC device units are removed from the base unit 106, and the conversion unit main body 1 is mounted in a slot other than the power supply unit 102 and the CPU unit 103 that are not wired to external devices. ing. A decorative board 20 is attached to the slot in which the power supply unit 102 and the CPU unit 103 are mounted to cover the two slots and improve the appearance.

FIG. 4 shows a sequencer system 31 composed of a new small PLC connected to the conversion unit main body 1 of FIG. The sequencer system 31 includes a power supply unit 32 that converts commercial power into power and supplies power to each device unit, a CPU unit 33 that performs sequence control in accordance with, for example, a ladder program stored in the internal storage device in advance, and 32 points, for example. An input unit 34 having a transistor input and the like, and an output unit 35 having, for example, 32 transistor outputs are mounted in each slot of a flat plate base unit 36. The newly-replaced small PLC input unit 34 and output unit 35 functionally correspond to the existing large PLC input unit 104 and output unit 105. The sequencer system 31 is installed separately from the existing base unit 106, and the connector 17 of the connector cable 18 is connected to the input unit 34 and the output unit 35. The other connector 16 of the connector cable 18 is connected to the conversion unit main body 1 attached to each slot of the base unit 106 instead of the input unit 104 and the output unit 105. In the figure, the conversion unit main body 1 exchanged with the input unit 104 is connected to the new input unit 34, and the conversion unit main body 1 exchanged with the output unit 105 is connected to the new output unit 35. Although the connection relationship is established, the connector cable 18 may be branched in accordance with the number of signals between corresponding device units to form a connection relationship of 1 to n (n is an arbitrary number of device units).

  Here, the printed circuit board 4 built in the casing 2 of the conversion unit main body 1 includes an existing large PLC input unit 104 and output unit 105, and a corresponding new small PLC input unit 34 and output unit 35. A circuit pattern is formed according to the input and output signals of external devices wired externally according to the input unit 104 and output unit 105, and the input and output signals are input and output to the input unit 34 and output unit 35 appropriately. Designed to be. That is, by connecting the terminal block 110 and the connector cable 18 to the conversion unit main body 1, the wire 111 externally wired to the terminal block 110 attached to the input unit 104 and the output unit 105 before device replacement, and the device replacement The input / output signals passing through the connector cable 18 connected to the input unit 34 and the output unit 35 are converted into an appropriate signal arrangement through the circuit pattern of the printed circuit board 4, and a new sequencer system 31 after replacement with external equipment is obtained. The input / output signals are transmitted without any problem between the input unit 34 and the output unit 35 constituting the. In this way, the terminal block 110 connected to the large PLC can be removed and directly connected to the card edge terminal 9 of the conversion unit main body 1, so that the PLC can be replaced without breaking the wires 111 from the terminal block 110. Can be done. Moreover, since the conversion unit main body 1 can be attached to the base unit 106 instead of the input unit 104 and the output unit 105, the connection space of the terminal block 110 remains unchanged, so that there is no need for curing the electric wire 111. Since the conversion unit main body 1 can be installed using the existing base unit 106 as it is, the installation is easy and the cost can be reduced.

  FIG. 5 shows a modification of the system configuration shown in FIG. In this figure, the unit configuration of the sequencer system 31 and the connection method between the input unit 34 and output unit 35 and the conversion unit main body 1 are the same, but the sequencer system 31 converts by using the base plate 40 for stacking. The unit is placed on the unit body 1. The base plate for stacking 40 is a rectangular plate-shaped top plate on which the sequencer system 31 can be installed on the front side (opposite side to the conversion unit main body 1) and covers the conversion unit main body 1 mounted on the base unit 106. 41 and four columns 42 which support the four corners of the top plate 41 from the back side (side facing the conversion unit main body 1) and can stand on the base unit 106. Since the sequencer system 31 can be installed using the installation space of the existing base unit 106 by using the stacking base plate 40, there is no need to provide a space for newly installing the sequencer system 31. . Further, in the stacking base plate 40, since the sequencer system 31 can be installed on the upper side of the conversion unit main body 1, the sequencer system 31 is exposed to the outside, and maintenance is facilitated.

As described above, in the terminal conversion unit of this embodiment, the input constituting the sequencer system 101 corresponding to one device in which the input unit 104 and the output unit 105 as the device unit are detachably attached to the base unit 106. A card edge terminal 9 as a first connection terminal portion that can connect a terminal block 110 as a removable external wiring body to the unit 104 and the output unit 105, and a connector 17 provided at one end is a sequencer as another device An electrical connection is made between the connector 6 as the second connection terminal portion to which the connector 16 provided at the other end of the connector cable 18 as the conductor connected to the system 31 can be connected, and the card edge terminal 9 and the connector 6. The conversion unit main body 1 is provided with a printed circuit board 4, a connector 5, and an internal wiring 7 corresponding to electrically connecting conductive means. Is attachable configured to base unit 106 in place of the force unit 104 and output unit 105, a top plate 41 that covers the conversion unit body 1 can be disposed a programmable controller system 31, the base unit 106 supports the top plate 41 standing And a supportable column 42.

In this way, the terminal block 110 connected to the existing sequencer system 101 can be removed and directly connected to the card edge terminal 9 of the conversion unit main body 1, so that the wires 111 are not separated from the terminal block 110. Can be exchanged. Moreover, since the conversion unit main body 1 can be attached to the base unit 106 instead of the input unit 104 and the output unit 105 constituting the sequencer system 101, the connection space of the terminal block 110 remains unchanged before external wiring. Therefore, since the conversion unit main body 1 can be installed using the existing base unit 106 as it is, the installation is easy and the cost can be reduced. As described above, it is possible to provide a terminal conversion unit that can easily and quickly replace an existing device with a new device. In addition, since the space where the existing sequencer system 101 was installed can be used and the new sequencer system 31 can be exposed on the surface side, a space for newly installing the sequencer system 31 is provided. This eliminates the need for maintenance of the sequencer system 31. Accordingly, it is possible to save space and improve the maintainability.

  In addition, this invention is not limited to the said Example, It can change in the range which does not deviate from the meaning of this invention. As an application example of the present invention, it is also possible to form an electric circuit made of an element such as a resistor on the printed circuit board 4 and convert, for example, voltage levels and currents of input / output signals. If it is necessary to supply power to the elements constituting the electric circuit, the power supply unit 102 or the like can be used to supply power to the printed circuit board 4 using the base connector 107 provided in the base unit 106.

It is principal part sectional drawing seen from the side surface direction of the terminal conversion unit in this invention. It is a front view of a terminal conversion unit same as the above. It is a front view which shows the state which mounted the terminal conversion unit on the existing base same as the above. It is a perspective view which shows the sequencer system using a terminal conversion unit same as the above. It is a perspective view which shows another aspect of the sequencer system using a terminal conversion unit same as the above. It is a front view of the sequencer system comprised from large PLC. It is a front view which shows the state which removed the terminal block from the sequencer system of FIG.

Explanation of symbols

1 Conversion unit body 4 Printed circuit board (conductive means)
5 Connector (conductive means)
6 Connector (second connection terminal)
7 Internal wiring (conductive means)
9 Card edge terminal (first connection terminal)
18 Connector cable (conductor)
31 Sequencer system (other devices)
41 Top plate
42 Prop
101 Sequencer system (one device)
104 Input unit (equipment unit)
105 Output unit (equipment unit)
106 Base unit
110 Terminal block (external wiring body)

Claims (1)

A first connection terminal portion that can connect a removable external wiring body to the device unit that constitutes one device in which the device unit is detachably attached to the base unit, and one end is connected to another device. The main body includes a second connection terminal portion connectable to the other end of the conductor, and conductive means for electrically connecting the first connection terminal portion and the second connection terminal portion, The main body is configured to be attachable to the base unit instead of the equipment unit, and the other equipment can be installed, and a top plate that covers the main body, and a column that supports the top board and can stand on the base unit And a terminal conversion unit.

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