JP6784483B2 - Sensor terminal block and terminal block unit - Google Patents

Description

An embodiment of the present invention relates to a sensor terminal block to which a plurality of sensors are connected, and a terminal block unit constituting the sensor terminal block.

For example, in machine tools and industrial machines, various sensors are connected to a control panel via a terminal block (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 6-251817

By the way, the number of sensors attached to machine tools and industrial machines is increasing, and the wiring is becoming more complicated as the number of attached sensors is increasing. If the wiring is in a complicated state, for example, when a trouble such as a sensor failure occurs, it takes a lot of labor and time to investigate, identify, and restore the cause.

Therefore, a sensor terminal block capable of avoiding complicated sensor wiring and a terminal block unit constituting the sensor terminal block are provided.

The terminal block for a sensor according to the present embodiment is a terminal block in which a plurality of terminal block units are connected, and the terminal block unit includes one positive power supply terminal, one negative power supply terminal, and one signal terminal. , A connecting bracket provided on the side of the positive power terminal and having an arc-shaped notch in which the shaft of the screw fits into the tip, and a connecting metal fitting provided on the side of the negative power terminal and having a screw on the tip. A connecting metal fitting having an arc-shaped notch into which the shaft portion is fitted, and an insertion hole having a rectangular opening into which the connecting metal fitting provided on the side of the positive power supply terminal provided in the other terminal block unit can be inserted. Each of the terminal block units is provided with an insertion hole having a rectangular opening into which a connecting metal fitting provided on the side of the negative power supply terminal can be inserted, and a plurality of the terminal block units are connected to each other. The positive power supply terminals included in the terminal block unit are connected to each other via a connecting metal fitting provided on the side of the positive power supply terminal to form a positive power supply line, and the negative power supply included in each terminal block unit is formed. The terminals are connected to each other via a connecting metal fitting provided on the side of the negative power supply terminal to form a negative power supply line. According to this configuration, wiring can be performed by one terminal block unit for one sensor, and complicated wiring can be avoided.

The terminal block unit according to the present embodiment is provided on one positive power supply terminal, one negative power supply terminal, one signal terminal, and a side portion of the positive power supply terminal, and a screw shaft portion is fitted to the tip portion. A connecting metal fitting having an arc-shaped notch to be inserted, a connecting metal fitting having an arc-shaped notch provided on the side of the negative power supply terminal and into which a screw shaft is fitted into the tip , and another terminal block. An insertion hole that opens in a rectangular shape into which a connecting bracket provided on the side of the positive power supply terminal provided in the unit can be inserted, and a connecting bracket provided on the side of the negative power supply terminal provided in another terminal block unit can be inserted. It is a terminal block unit having an insertion hole that opens in a rectangular shape and forming a terminal block for a sensor by connecting a plurality of the terminal blocks, and by connecting a plurality of the terminal block units, the respective terminal blocks are formed. The positive power supply terminals included in the terminal block unit are connected to each other via a connecting metal fitting provided on the side of the positive power supply terminal to form a positive power supply line, and the negative power supply terminals provided in the respective terminal block units are formed. It is configured to form a negative power supply line by being connected to each other via a connecting metal fitting provided on the side of the negative power supply terminal. According to this terminal block unit, by increasing the number of terminal block units according to the number of sensors to be attached, it is possible to easily construct a sensor terminal block having necessary terminals.

A diagram schematically showing a configuration example of a sensor terminal block according to an embodiment. The figure which shows the structural example of the terminal block unit for end which concerns on one Embodiment. A diagram schematically showing a configuration example of an expansion terminal block unit according to an embodiment. A perspective view showing a specific configuration example of the expansion terminal block unit according to the embodiment. The figure which shows an example of the connection mode of the sensor to the terminal block for a sensor which concerns on one Embodiment. The figure which shows the connection mode of a sensor to a conventional terminal block

Hereinafter, an embodiment relating to the sensor terminal block and the terminal block unit will be described with reference to the drawings. For example, sensors generally used in machine tools and industrial machines require three wires: a power line for a positive power supply, a power line for a negative power supply, and a signal line for signal transmission. May have a length of, for example, about 1 to 3 m. This type of sensor may be connected directly to the control panel without going through a terminal block. However, in consideration of the existence of moving parts such as machine tools and industrial machines and workability when replacing the sensor, it is common to reconnect the wiring of this type of sensor via the terminal block. Is.

As illustrated in FIG. 6, in the case of attaching, for example, 10 sensors 101 [1] to 101 [10] in the conventional sensor terminal block 100, 10 signal lines Ls extending from a control panel (not shown) It is possible to wire with two power lines Le [+] and Le [-]. However, in the conventional terminal block 100 for sensors, in order to make one power supply line Le [+] correspond to ten sensors 101 [1] to 101 [10], and one power supply line Le [-]. ] Corresponds to 10 sensors 101 [1] to 101 [10], a plurality of crossovers Lw are required. In addition, it is difficult to grasp how the power lines LeS [+] and LeS [-] of the sensors 101 [1] to 101 [10] correspond to the signal lines LsS. Therefore, for example, sensor replacement, etc. Maintenance work such as is difficult. In addition, since the number of wirings is large, it is necessary to secure a wiring space. In addition, there are problems that the wiring is complicatedly entangled and the appearance is deteriorated, and the terminal block becomes large.

As described above, the conventional sensor terminal block 100 has many problems such as complicated wiring. Therefore, in the present embodiment, in order to solve such a problem, a configuration example of a sensor terminal block that can avoid complication of sensor wiring will be disclosed.
That is, the sensor terminal block 10 illustrated in FIG. 1 has a configuration in which a plurality of terminal block units 11 are connected. In this case, the sensor terminal block 10 has one end terminal block unit 11A and a plurality of expansion terminal block units 11B as the terminal block unit 11.

As illustrated in FIG. 2, the end terminal block unit 11A includes a sensor-side wiring portion 13A and a control panel-side wiring portion 14A in a unit main body portion 12A made of, for example, an electrically insulating material such as resin. The sensor-side wiring unit 13A is a wiring unit to which wiring from a sensor (not shown) is connected. The control panel side wiring unit 14A is a wiring unit to which wiring from a control panel (not shown) is connected.

The sensor-side wiring unit 13A is a sensor-side negative power supply terminal TeS to which the sensor-side positive power supply terminal TeS [+] to which the sensor positive power supply line LeS [+] is connected and the sensor negative power supply line LeS [-] are connected. [-] And a sensor-side signal terminal TsS to which the signal line LsS of the sensor is connected are provided.

The control panel side wiring unit 14A is a control panel to which the control panel side positive power supply terminal TeC [+] to which the positive power supply line LeC [+] of the control panel is connected and the negative power supply line LeC [-] of the control panel are connected. A side negative power supply terminal TeC [-] and a control panel side signal terminal TsC to which the signal line LsC of the control panel is connected are provided.

In the terminal block unit 11A for the end, the sensor-side positive power supply terminal TeS [+] and the control panel-side positive power supply terminal TeC [+] are electrically connected by a conductive member such as a metal fitting. Further, the negative power supply terminal TeS [−] on the sensor side and the negative power supply terminal TeC [−] on the control panel side are electrically connected by a conductive member such as a metal fitting.

As illustrated in FIG. 3, the expansion terminal block unit 11B includes a sensor-side wiring portion 13B and a control panel-side wiring portion 14B in a unit main body portion 12B made of, for example, an electrically insulating material such as resin. The sensor-side wiring unit 13B is a wiring unit to which wiring from a sensor (not shown) is connected. The control panel side wiring unit 14B is a wiring unit to which wiring from a control panel (not shown) is connected.

The sensor-side wiring unit 13B is connected to the sensor-side positive power supply terminal TeS [+] to which the sensor positive power supply line LeS [+] is connected and the sensor-side negative power supply terminal TeS to which the sensor negative power supply line LeS [-] is connected. [-] And a sensor-side signal terminal TsS to which the signal line LsS of the sensor is connected are provided.

The control panel side wiring unit 14B includes a control panel side signal terminal TsC to which the signal line LsC of the control panel is connected. That is, the expansion terminal block unit 11B has a configuration in which the control panel side positive power supply terminal TeC [+] and the control panel side negative power supply terminal TeC [−] are omitted from the end terminal block unit 11A.

Further, as illustrated in FIG. 4, the expansion terminal block unit 11B includes connecting metal fittings 21 and 22. Further, the expansion terminal block unit 11B includes insertion holes 31 and 32. The unit main body portion 12B of the expansion terminal block unit 11B has a plurality of step portions having different heights of the lower stage portion 12Ba, the middle stage portion 12Bb, and the upper stage portion 12Bc. The lower portion 12Ba is provided with a sensor-side positive power supply terminal TeS [+], and the middle-stage portion 12Bb is provided with a sensor-side negative power supply terminal TeS [−]. Further, the upper 12Bc is provided with a sensor-side signal terminal TsS and a control panel-side signal terminal TsC.

The connecting metal fitting 21 protrudes outward from the side portion of the lower stage portion 12Ba, and the connecting metal fitting 22 projects outward from the side portion of the middle stage portion 12Bb. The connecting metal fittings 21 and 22 have a plate shape, and the tip portion thereof is cut out in an arc shape. Further, the insertion hole 31 is provided on the side portion of the lower stage portion 12Ba opposite to the connecting metal fitting 21, and the insertion hole 32 is provided on the side portion of the middle stage portion 12Bb opposite to the connecting metal fitting 22. There is. The insertion holes 31 and 32 are opened in a rectangular shape into which the connecting metal fittings 21 and 22 can be inserted. Therefore, the connecting metal fittings 21 and 22 provided in the other expansion terminal block unit 11B are inserted into the insertion holes 31 and 32. Although not shown, the end terminal block unit 11A is also provided with insertion holes 31 and 32.

The sensor terminal block 10 is configured by connecting a plurality of extension terminal block units 11B to one end terminal block unit 11A. That is, the sensor terminal block 10 is constructed by adding the expansion terminal block unit 11B according to the number of sensors. At this time, the connecting metal fittings 21 and 22 of the other terminal block unit 11 to be added to the one terminal block unit 11 are inserted into the insertion holes 31 and 32 of the one terminal block unit 11. Then, the shaft portion of the screw provided in the power supply terminal Te of the other terminal block unit 11 is fitted into the cutout portion of the tip portion of the connecting metal fittings 21 and 22. As a result, the electrical connection between the adjacent power supply terminals Te becomes more reliable.

In the sensor terminal block 10 constructed by connecting a plurality of terminal block units 11, the positive power supply terminals TeS [+] included in each terminal block unit 11 are electrically connected to each other via the connecting metal fitting 21. Be connected. As a result, as illustrated in FIG. 1, the positive power supply terminals Te [+] included in each terminal block unit 11 are connected to each other to form a positive power supply line TeL [+].

Further, in the sensor terminal block 10 constructed by connecting a plurality of terminal block units 11, the negative power supply terminals TeS [-] provided in each terminal block unit 11 are electrically connected to each other via the connecting metal fitting 22. Is connected. As a result, as illustrated in FIG. 1, the negative power supply terminals Te [−] included in each terminal block unit 11 are connected to each other to form the negative power supply line TeL [−].

Next, one connection form of the sensor with respect to the sensor terminal block 10 will be illustrated. That is, as illustrated in FIG. 5, when a plurality of sensors 101 [1], ... 101 [n] are attached, the positive power supply line LeC [+] of the control panel controls the terminal block unit 11A for the end. It is connected to the positive power supply terminal TeC [+] on the panel side, and the negative power supply line LeC [−] of the control panel is connected to the negative power supply terminal TeC [−] on the control panel side of the terminal block unit 11A for the end. Further, the signal lines LsC of the control panel are each connected to the signal terminals TsC on the control panel side of each terminal block unit 11.

Then, for example, the positive power supply line LeS [+], the negative power supply line LeS [-], and the signal line LsS of the sensor 101 [1] are the sensor side positive power supply terminal TeS [+] and the sensor side of the terminal block unit 11A for the end. It is connected to the negative power supply terminal TeS [-] and the sensor side signal terminal TsS, respectively. Further, for example, the positive power supply line LeS [+], the negative power supply line LeS [-], and the signal line LsS of the sensor 101 [3] are on the sensor side of the second extension terminal block unit 11B from the end terminal block unit 11A. It is connected to the positive power supply terminal TeS [+], the sensor side negative power supply terminal TeS [-], and the sensor side signal terminal TsS, respectively.

That is, the positive power supply line LeS [+], the negative power supply line LeS [-], and the signal line LsS included in one sensor 101 [n] are the sensor-side positive power supply terminal TeS [+] provided in the same terminal block unit 11. It is connected to the negative power supply terminal TeS [-] on the sensor side and the signal terminal TsS on the sensor side, respectively. In other words, one sensor 101 [n] can be connected by one terminal block unit 11.

The sensor terminal block 10 according to the present embodiment is a terminal block formed by connecting a plurality of terminal block units 11. The plurality of terminal block units 11 each include one positive power supply terminal TeS [+], one negative power supply terminal TeS [−], and one signal terminal TsS. That is, the sensor terminal block 10 has a configuration in which one terminal block unit 11 corresponds to one sensor. According to this configuration, wiring can be performed by one terminal block unit 11 for one sensor, and complicated wiring can be avoided.

Further, in the sensor terminal block 10, by connecting a plurality of terminal block units 11, the positive power supply terminals TeS [+] of each terminal block unit 11 are connected to each other, and the positive power supply line TeL [+] is automatically set. The negative power supply terminals TeS [−] of each terminal block unit 11 are connected to each other, and the negative power supply line TeL [−] is automatically formed. That is, the power supply line can be expanded at the same time as the terminal block unit 11 is added, and the trouble of wiring the power supply line can be saved.

Further, the terminal block unit 11 according to the present embodiment includes one positive power supply terminal TeS [+], one negative power supply terminal TeS [-], and one signal terminal TsS, and a plurality of them are connected. This constitutes the sensor terminal block 10. According to the terminal block unit 11, the sensor terminal block 10 having the necessary terminals can be easily constructed by adding the terminal block units 11 according to the number of sensors to be attached. In addition, it is possible to suppress the generation of unnecessary terminals, and it is possible to avoid an increase in the size of the terminal block 10 as a whole and a complicated structure.

Further, if a certain sensor has a failure or the like, the sensor and the terminal block unit 11 have a one-to-one correspondence with each other, so that the terminal block unit 11 can be replaced together, for example. Further, since the wiring destination of the sensor is clearly separated for each terminal block unit 11, work such as investigation, identification, and restoration of the cause can be easily performed.

The present embodiment is not limited to the above-described embodiment, and can be applied to various embodiments without departing from the gist thereof. For example, the configuration of the expansion terminal block unit 11B illustrated in FIG. 4 is merely an example, and is not limited to this configuration. Further, the configuration of the terminal block unit 11A for the end portion can also be changed as appropriate.

In the drawing, 10 is the sensor terminal block, 11 is the terminal block unit, 11A is the end terminal block unit, 11B is the expansion terminal block unit, TeS [+] is the sensor side positive power supply terminal (plus power supply terminal), TeS. [-] Indicates a negative power supply terminal (negative power supply terminal) on the sensor side, TsS indicates a signal terminal (signal terminal) on the sensor side, TeL [+] indicates a positive power supply line, and TeL [-] indicates a negative power supply line.

Claims (2)

A terminal block in which multiple terminal block units are connected.
The terminal block unit is provided on one positive power supply terminal, one negative power supply terminal, one signal terminal, and a side portion of the positive power supply terminal, and has an arc shape in which a screw shaft portion is fitted into the tip portion. A connecting metal fitting having a notch portion, a connecting metal fitting having an arc-shaped notch portion provided on the side portion of the negative power supply terminal and into which a screw shaft portion is fitted into the tip portion, and the other terminal block unit are provided. An insertion hole that opens in a rectangular shape into which a connecting bracket provided on the side of the positive power supply terminal can be inserted, and a rectangle into which a connecting bracket provided on the side of the negative power supply terminal provided in the other terminal block unit can be inserted. With an insertion hole that opens in shape,
By connecting the plurality of terminal block units,
The positive power supply terminals provided in the respective terminal block units are connected to each other via a connecting metal fitting provided on the side of the positive power supply terminal to form a positive power supply line.
A terminal block for a sensor in which the negative power supply terminals included in the respective terminal block units are connected to each other via a connecting metal fitting provided on a side portion of the negative power supply terminal to form a negative power supply line. A connection having one positive power supply terminal, one negative power supply terminal, one signal terminal, and an arc-shaped notch portion provided on the side portion of the positive power supply terminal and into which a screw shaft portion is fitted at the tip portion. A metal fitting, a connecting metal fitting having an arc-shaped notch portion provided on the side portion of the negative power supply terminal and into which a screw shaft portion is fitted into the tip portion, and a side portion of the positive power supply terminal provided in another terminal block unit. An insertion hole that opens in a rectangular shape into which the connecting metal fittings provided in the above can be inserted, and an insertion hole that opens in a rectangular shape in which the connecting metal fittings provided on the side of the negative power supply terminal provided in the other terminal block unit can be inserted. It is a terminal block unit that constitutes a terminal block for a sensor by connecting a plurality of terminals.
By connecting the plurality of terminal block units,
The positive power supply terminals provided in the respective terminal block units are connected to each other via a connecting metal fitting provided on the side of the positive power supply terminal to form a positive power supply line.
A terminal block unit configured such that the negative power supply terminals included in the respective terminal block units are connected to each other via a connecting metal fitting provided on a side portion of the negative power supply terminal to form a negative power supply line.

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