JP6066186B2 - Terminal block - Google Patents

Description

  The present invention relates to a terminal block, for example, a terminal block provided in an electronic device or the like, and relates to a terminal block suitable for flowing a relatively large current through a connected cable.

  2A and 2B are diagrams showing an example of a conventional terminal structure, showing a case where there is a single connection cable. FIG. 2A is a perspective view of a state in which the cable is connected, FIG. C) is a front view of the terminal body, and (D) is a top view of the terminal body. In FIG. 2, a terminal fitting 2 having a male screw portion provided on the outer periphery of the insertion end is inserted into the mounting panel 1, and an insulating washer 3, a flat washer 4 and a spring washer 5 are sequentially inserted into the insertion end 2a of the terminal fitting 2. The first nuts 6 are screwed together by fitting in a stacked state. As a result, the terminal fitting 2 is fixed to the mounting panel 1.

  The lug terminal 8 connected to the end of the cable 7 is fitted to the insertion end 2a of the terminal fitting 2 fixed to the mounting panel 1, and the second nut 9 and the third nut 10 are sequentially screwed together. The lug terminal 8 is fixed to the insertion end 2 a of the terminal fitting 2 by a double nut of the second nut 9 and the third nut 10.

  FIG. 3 is a diagram showing another conventional terminal structure, and shows a case where six cables are connected. (A) is a perspective view of a state in which cables are connected, and (B) It is a side view. In addition, the same code | symbol is attached | subjected to the part which is common in FIG. 3 is different from FIG. 2 in that six lug terminals respectively connected to the end portions of six cables are fitted in the insertion end portion 2a of the terminal fitting 2 in place of the lug terminal 8 in FIG. The terminal block 11 configured to be screwed can be attached.

  According to the configuration of FIG. 3, signal wiring (not shown) connected to the terminal portion of the terminal fitting 2 is branched and connected to six signal wirings via the terminal block 11, or six signal wirings connected to the terminal block 11 are connected. The signal wiring can be collected in one terminal part system of the terminal fitting 2.

  Patent Document 1 describes a branch terminal block device that can increase or decrease the number of terminal portions on the input side and output side according to the application.

JP 2008-34265 A

  However, according to the configuration of FIG. 2, when a large current is to flow through one cable 7 with the lug terminal 8, a large lug terminal or a thick cable is required, and it is difficult to fix to the terminal fitting 2. Become.

  In addition, when a large current is divided into a plurality of cables with lug terminals using the configuration of FIG. 3, a difference in resistance value occurs according to the distance from each lug terminal to the terminal fitting 2. As the distance from the terminal fitting 2 increases, the resistance value increases and the conditions deteriorate.

  Moreover, when the flat terminal block 11 is used as shown in FIG. 3, a relatively wide installation location is required.

  Further, when the flat-type terminal block 11 as shown in FIG. 3 is used, in order to prevent the terminal block 11 from rotating and coming into contact with surrounding parts when fixing the terminal block 11 to the terminal fitting 2. It is necessary to hold the terminal block 11 so that it does not rotate and to fix it, or to prevent any rotation.

  The present invention solves these problems, and its purpose is to make the distance between the terminal fitting and the plurality of cables the shortest and all equal when connecting a plurality of cables to the terminal fitting, and to make the terminal compact. An object of the present invention is to provide a terminal block that is easy to secure the cross-sectional area of the table and does not require detent when the terminal block is fixed to the terminal fitting.

In order to achieve such a problem, the invention according to claim 1 of the present invention is:
A terminal block made of a conductor member that can be attached to and detached from the insertion end of the terminal fitting,
The insertion end of the terminal fitting is inserted and fixed to the mounting panel,
The terminal block is formed into a polygonal tube with a polygonal cross section and a bottom, and a cable is connected to each outer peripheral surface of the rectangular tube polygon and screwed into the bottom surface of the rectangular tube. A cylindrical fastening member is screwed and fixed so as to be enclosed in a double cylindrical shape at an insertion end portion of the terminal fitting penetrating into the rectangular cylindrical shape .

The invention according to claim 2 is the terminal block according to claim 1,
The cross-sectional shape is a hexagon.

The invention according to claim 3 is the terminal block according to claim 2,
The hexagon is formed so as to fit into a box wrench.

  As a result, the distance between the terminal fitting and the plurality of cables can be made the shortest and all the same, and the cross-sectional area of the terminal block can be easily ensured in a small size.

It is a block diagram which shows one Example of this invention. It is a conventional terminal structure example diagram. It is another conventional terminal structure example.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of the present invention, and the same reference numerals are given to portions common to FIGS. 1, (A) is a perspective view, (B) is a side view of (A), (C) is a partial sectional view of (B), and (D) is an enlarged sectional view of polygonal terminal block 12 of (C). (E) is a front view of (D), (F) is an enlarged sectional view of the polygonal fastening member 13 of (C), and (G) is a front view of (F).

  In place of the lug terminal 8 in FIG. 2 and the terminal block 11 in FIG. 3, a polygonal terminal block 12 formed in a rectangular tube shape with a bottom made of a conductor member is screwed into the insertion end 2 a of the terminal fitting 2. In addition, a polygonal fastening member 13 is included in the polygonal terminal block 12 in a double cylinder shape at the insertion end 2a of the terminal fitting 2 that is screwed into the bottom surface of the polygonal terminal block 12 and passes therethrough. Screwed and fixed.

  The polygonal terminal block 12 is formed in, for example, a hexagonal shape with an equiangular cross-sectional shape, one end 12a is opened, and the outer end of the insertion end 2a of the terminal fitting 2 is provided at the center of the bottom surface of the other end 12b. A screw hole 12c that is screwed into the screw groove is provided. And each screw | thread hole 12d-12i for screwing the lug terminal connected to the edge part of a cable is provided in each outer peripheral surface of a cylindrical hexagon.

  The polygonal fastening member 13 is formed in an equiangular shape, for example, a hexagonal shape like the polygonal terminal block 12 so as to be enclosed in the polygonal terminal block 12, and both ends 13a and 13b are opened in a straight tube shape. ing.

  The outer diameter dimensions of the polygonal terminal block 12 and the polygonal fastening member 13 are adapted to sockets of a predetermined diameter of a socket wrench standardized as a tool used for assembling or removing bolts and nuts, respectively. Is set to

  Thus, in a state where the cable to be connected does not hinder, the insertion end portion of the terminal fitting 2 can be obtained by fitting the polygonal terminal block 12 and the polygonal fastening member 13 to a socket having a predetermined diameter of the socket wrench and rotating it. 2a can be screwed and fixed.

  The lug terminal 8 connected to the end of the cable 7 is screwed into the screw holes 12d to 12i on the outer peripheral surfaces of the cylindrical hexagonal shape of the polygonal terminal block 12 thus configured.

  By screwing the lug terminal 8 connected to the end of the cable 7 to each outer peripheral surface of the cylindrical hexagon of the polygonal terminal block 12, up to six cables 7 can be connected under the same conditions.

  As a result, the connection path of the cable 7 to the polygonal terminal block 12 can be made the shortest and the electric resistance value can be lowered, so that an appropriate maximum compliance voltage can be secured. For example, when used in a current generator with a maximum of 60 A, the current terminals can be efficiently arranged in a narrow place while ensuring the maximum compliance voltage.

  In addition, a desired output current can be obtained by combining currents flowing into the polygonal terminal block 12 from a maximum of six cables. For example, a maximum of 60 A can be generated by combining 12 A × 5 pieces. In this case, by making the connection conditions of the connection cables the same, it is possible to eliminate a difference when the number of connection cables is changed.

  In addition, by making the cross-sectional shape of the terminal block polygonal (for example, hexagonal), the pitch between terminals can be made narrower and space-efficient layout can be achieved compared to conventional flat terminal blocks. The size can be significantly reduced, and the terminal block can be installed in a narrow installation space.

  Moreover, it becomes easy to ensure a cross-sectional area by making the cross-sectional shape of a terminal block into a polygon (for example, hexagon), and an appropriate maximum compliance voltage can be ensured by decreasing an electrical resistance value.

  Also, by making the terminal block cross-section polygonal (for example, hexagonal), assembly using a general tool such as a socket wrench is possible, and no special jigs or tools are required. Work cost can be improved.

  Furthermore, since the terminal block has a polygonal cross section (for example, a hexagon), there is no risk of contact with surrounding parts even if the terminal block rotates. Such an anti-rotation member and care for avoiding contact during work are unnecessary, and the efficiency of the terminal block mounting work can be improved.

  In the above embodiment, the example in which the polygon of the cross-sectional shape of the terminal block is a general-purpose hexagon has been described. However, the polygon is not limited to a hexagon, and the number of corners of the polygon may be appropriately increased or decreased depending on the special application. May be.

  As described above, according to the present invention, when connecting a plurality of cables to the terminal fitting, the distance between the terminal fitting and the plurality of cables can be made the shortest and all the same, and the sectional area of the terminal block can be ensured in a small size. It is easy to realize a terminal block that does not require detent when the terminal block is fixed to the terminal fitting.

2 Terminal fitting 2a Insertion end 7 Cable 8 Lug terminal 12 Polygonal terminal block 12c-12i Screw hole 13 Polygonal fastening member

Claims (3)

A terminal block made of a conductor member that can be attached to and detached from the insertion end of the terminal fitting,
The insertion end of the terminal fitting is inserted and fixed to the mounting panel,
The terminal block is formed into a polygonal tube with a polygonal cross section and a bottom, and a cable is connected to each outer peripheral surface of the rectangular tube polygon and screwed into the bottom surface of the rectangular tube. A terminal block characterized in that a cylindrical fastening member is screwed and fixed so as to be enclosed in a double cylinder shape at an insertion end portion of the terminal fitting penetrating into a rectangular cylindrical shape .   The terminal block according to claim 1, wherein the cross-sectional shape is a hexagon.   The terminal block according to claim 2, wherein the hexagon is formed so as to fit into a box wrench.

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