JP6945134B2 - connector - Google Patents

Description

The present invention relates to a connector, and more particularly to a connector having a female terminal and a connector having a detachable male terminal.

Lighting fixtures such as downlights and base lights include, for example, a lamp unit and a power supply unit that generates electric power for lighting the lamp unit. The power supply unit includes a circuit board on which circuit components for lighting the lamp are mounted, and a circuit case for accommodating the circuit board. The power supply unit and the lamp unit are electrically connected by, for example, a power supply line. In this case, the circuit board of the power supply unit and the power supply line are electrically connected, for example, by connecting a connector attached to the circuit board (connector for the board) and a connector attached to the power supply line.

Conventionally, as this type of board connector, a connector having a connector housing into which a connector attached to a power supply line is inserted and a plurality of terminal fittings provided on the connector housing are known (for example, Patent Document 1). ..

Japanese Unexamined Patent Publication No. 2011-204370

In a conventional electric device, an electric connection between units is performed by using a connector having a male terminal and a connector having a female terminal as connectors. In this case, the two connectors are connected by connecting the plurality of male terminals and the plurality of female terminals to each other.

However, in the conventional connector, the plurality of male terminals and the plurality of female terminals may not all be connected at the same time depending on the connection method. In such a case, a problem may occur in the circuit of either of the two units connected by the two connectors due to the difference in the voltage applied to each male terminal (each female terminal).

For example, when the connector having a male terminal and the connector having a female terminal have a first terminal for low voltage, a second terminal for high voltage, and a third terminal for grounding, respectively, they are power supply terminals. If one terminal (second terminal) is connected before the third terminal, which is the ground terminal, unexpected overcurrent occurs in the electronic components that make up the circuit of the two units connected by the two connectors. Flows. As a result, electronic components may be destroyed or deteriorated, or each unit may malfunction. As described above, the conventional connector has a problem that the reliability of the electrical connection between the male terminal and the female terminal is low.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a connector having a male terminal capable of making a highly reliable electrical connection with a female terminal.

In order to achieve the above object, one aspect of the connector according to the present invention is a connector having a female terminal and a detachable connector, which are a long first male terminal and a long second male terminal. A first male terminal and a main body including a cavity having an opening facing the tip of the second male terminal and holding the first male terminal and the second male terminal. The width of the tip of the second male terminal is larger than the width of the tip of the second male terminal.

It is possible to make a highly reliable electrical connection with the female terminal.

It is a perspective view which shows the structure of the luminaire which concerns on embodiment. It is sectional drawing which shows the structure of the power supply unit in the lighting fixture which concerns on embodiment, and the connection structure of a power supply unit and a power supply line. It is a perspective view when the 1st connector which concerns on embodiment is seen obliquely rearward. It is a perspective view when the 1st connector which concerns on embodiment is seen obliquely from the front. It is a top view of the 1st connector which concerns on embodiment. It is a perspective view of the 2nd connector which concerns on embodiment. It is a top view of the 2nd connector which concerns on embodiment. It is a figure for demonstrating the method of connecting a 1st connector and a 2nd connector. It is a perspective view which shows the state at the time of connecting a 1st connector and a 2nd connector. It is a top view which shows the state at the time of connecting a 1st connector and a 2nd connector. It is sectional drawing which shows the state at the time of connecting a 1st connector and a 2nd connector. It is a perspective view of the 1st male terminal which concerns on modification 1. FIG. It is a perspective view of the 1st male terminal which concerns on modification 2. FIG. It is a perspective view of the 1st male terminal which concerns on modification 3.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. Each of the embodiments described below shows a preferred specific example of the present invention. Therefore, the numerical values, shapes, materials, components, the arrangement positions and connection forms of the components, the steps (processes), the order of the steps, and the like shown in the following embodiments are examples and limit the present invention. It is not the purpose of doing it. Therefore, among the components in the following embodiments, the components not described in the independent claims indicating the highest level concept of the present invention will be described as arbitrary components.

Each figure is a schematic view and is not necessarily exactly illustrated. In each figure, substantially the same configuration is designated by the same reference numerals, and duplicate description may be omitted or simplified.

Further, in the present specification and the drawings, the X-axis, the Y-axis, and the Z-axis represent the three axes of the three-dimensional Cartesian coordinate system, and in the present embodiment, the Z-axis direction is the vertical direction (vertical direction). The direction perpendicular to the Z axis (direction parallel to the XY plane) is the horizontal direction. The X-axis and the Y-axis are orthogonal to each other and both are orthogonal to the Z-axis.

(Embodiment)
[lighting equipment]
First, the lighting fixture 1 according to the embodiment of the present invention will be described with reference to FIG. FIG. 1 is a perspective view showing the configuration of the lighting fixture 1 according to the embodiment.

The lighting fixture 1 according to the present embodiment is, for example, an embedded lighting fixture that is embedded and arranged in an opening hole provided in the ceiling of a house or the like, and emits light toward the lower side of, for example, a floor or a wall. It is a downlight to do.

As shown in FIG. 1, the lighting fixture 1 includes a power supply unit 10 and a lamp unit 20 that lights up by supplying power from the power supply unit 10. The power supply unit 10 and the lamp unit 20 are electrically connected by a power supply line (connector line) 30.

The lamp unit 20 includes, for example, an aluminum die-cast frame 21 and a main body (base) 22, a mounting spring 23 for mounting the lamp unit 20 on a ceiling or the like, and a light source (not shown) fixed to the main body 22. To be equipped.

The main body 22 also functions as a heat sink, and in the present embodiment, heat dissipation fins are provided. The light source is, for example, an LED light source (LED module) including a substrate and a light emitting diode (LED) mounted on the substrate, and emits white light as illumination light, for example. In addition, the lamp unit 20 may be provided with a reflector, a translucent panel, or the like in the frame 21.

The power supply unit 10 is a power supply unit for lighting, generates electric power for lighting the lamp unit 20, and supplies power to the lamp unit 20 via the power supply line 30. Since the LED light source in the present embodiment is driven by a direct current, the lamp unit 20 is supplied with direct current power.

Here, with reference to FIG. 1, a specific configuration of the power supply unit 10 and a connection structure between the power supply unit 10 and the power supply line 30 will be described with reference to FIG. FIG. 2 is a cross-sectional view showing the configuration of the power supply unit 10 and the connection structure between the power supply unit 10 and the power supply line 30 in the lighting fixture 1 according to the embodiment.

First, the configuration of the power supply unit 10 will be described. As shown in FIG. 2, the power supply unit 10 includes a circuit board 11 and a circuit case 12 for accommodating the circuit board 11.

The circuit board 11 is a printed wiring board on which metal wiring having a predetermined shape is formed, and a plurality of electronic components (not shown) constituting a power supply circuit for lighting are mounted on the circuit board 11. These electronic components (circuit components) are mounted on the circuit board 11 by soldering.

The circuit case 12 is, for example, a metal housing, and as shown in FIGS. 1 and 2, a case body 12a that supports the circuit board 11 and a cover member that covers the circuit board 11 fixed to the case body 12a. It has 12b and. The cover member 12b is fixed to the case body 12a.

Next, the connection structure between the power supply unit 10 and the power supply line 30 will be described. As shown in FIGS. 1 and 2, the power supply unit 10 and the power supply line 30 are electrically and mechanically provided by two connectors, a first connector 100 having a male terminal 110 and a second connector 200 having a female terminal 210. It is connected to the. The first connector 100 and the second connector 200 form a connector unit.

In the present embodiment, the first connector 100 is a board connector attached to the circuit board 11. Specifically, the first connector 100 is fixed to the end of the circuit board 11 so that a part of the first connector 100 is exposed from the circuit case 12. As a result, the second connector 200 can be easily connected to the first connector 100 even when the circuit board 11 is covered with the circuit case 12.

A second connector 200 is connected to the first connector 100 as a mating connector of the first connector. The second connector 200 is an electric wire connector connected to one end of the power supply line 30.

In the present embodiment, the first connector 100 is a male connector having a male terminal 110, but has a female main body 120 having an insertion port into which the main body (housing) of the second connector is inserted. On the other hand, the second connector 200 is a female connector having a female terminal 210, but has a male main body 120 that is inserted into the insertion port of the main body of the first connector 100.

As described above, in the present embodiment, the first connector 100 and the second connector 200 are connected by inserting the second connector 200 connected to the power supply line 30 into the first connector 100. As a result, the first connector 100 and the second connector 200 are electrically and mechanically connected.

Specifically, the first connector 100 has a plurality of male terminals 110, the second connector 200 has a plurality of female terminals 210, and the plurality of male terminals 110 and the plurality of female terminals 210 are one-to-one. The first connector 100 and the second connector 200 are electrically and mechanically connected by connecting with. In the present embodiment, the number of male terminals 110 of the first connector 100 and the number of female terminals 210 of the second connector 200 are the same, but may be different.

Further, the first connector 100 and the second connector 200 are detachable. That is, the second connector 200 can be removed from the first connector 100 by pulling out the second connector 200 inserted into the first connector 100 from the first connector 100. Specifically, the male terminal 110 of the first connector 100 and the female terminal 210 of the second connector 200 are detachable.

[Male connector]
Next, the detailed configuration of the first connector 100 will be described with reference to FIGS. 3A to 3C. 3A to 3C are views showing the configuration of the first connector 100 according to the embodiment, FIG. 3A is a perspective view when viewed from an oblique rear view, and FIG. 3B is a perspective view when viewed from an oblique front view. FIG. 3C is a top view. In FIG. 3C, the main body 120 is omitted, and only the male terminal 110 is shown.

As shown in FIGS. 3A to 3C, the first connector 100 includes a plurality of male terminals 110 and a main body 120. In the present embodiment, the first connector 100 has a plurality of male terminals 110 such as a long first male terminal 110A, a long second male terminal 110B, and a long third male terminal 110C. And.

The first male terminal 110A, the second male terminal 110B, and the third male terminal 110C are conductive pins having conductivity, for example, metal pins made of metal. Specifically, the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C are made of a plate-shaped member such as a metal plate.

In the present embodiment, each of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C has one end side protruding linearly into the cavity 121 of the main body 120, and the other end side is a circuit board. It is bent to the 11 side and protrudes from the bottom of the main body 120 (see FIG. 2). The other end side of each of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C has a protruding portion soldered on the circuit board 11.

In the present embodiment, the first male terminal 110A is a ground terminal for grounding. The second male terminal 110B and the third male terminal 110C are power supply terminals for power supply. For example, the second male terminal 110B is a power supply terminal on the high voltage side, and the third male terminal 110C is a power supply terminal on the low voltage side.

Each of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C has a straight portion 111 extending linearly in the hollow portion 121 of the main body 120 and a tip portion located at the tip of the straight portion 111. It has 112 and.

The width (length in the Z-axis direction) of the tip portion 112 of the first male terminal 110A is the largest among the plurality of terminals of the first connector 100. Specifically, the width (plate width) of the tip 112 of the first male terminal 110A is larger than the width of the tip 112 of the second male terminal 110B and the width (plate width) of the tip 112 of the third male terminal 110C. Is also big.

The width (plate width) of the tip 112 of the second male terminal 110B and the width (plate width) of the tip 112 of the third male terminal 110C are the same.

Further, in the first male terminal 110A, the plate thickness (thickness in the Y-axis direction) of the straight portion 111 and the tip portion 112 is constant and the same, but the width of the tip portion 112 is the width of the straight portion 111. Is bigger than. In the present embodiment, in the first male terminal 110A, the tip portion 112 is the portion having the widest width in the first male terminal 110A.

Specifically, the shape of the tip portion 112 of the first male terminal 110A is such that the plate width gradually widens and then narrows from the connecting portion with the straight line portion 111 toward the tip. That is, the shape of the tip portion 112 is a shape that is curved so that the contour lines on both sides in the width direction bulge outward on both sides.

On the other hand, the shape of the tip portion 112 of the second male terminal 110B is such that the plate width narrows toward the tip from the connecting portion of the second male terminal 110B with the straight portion 111. Specifically, the shape of the tip portion 112 of the second male terminal 110B is a tapered shape. Further, the shape of the tip portion 112 of the third male terminal 110C is the same as the shape of the tip portion 112 of the second male terminal 110B. The plate thickness of the tip portion 112 is the same in each of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C.

Further, the tip 112 of the first male terminal 110A has the most protruding tip among the plurality of male terminals 110 of the first connector 100. Specifically, the tip 112 of the first male terminal 110A protrudes from the tip 112 of the second male terminal 110B and the tip 112 of the third male terminal 110C along the longitudinal direction of the first male terminal 110A. ing. That is, the lengths of the straight portion 111 and the tip portion 112 of the first male terminal 110A are longer than the lengths of the straight portion 111 and the tip portion 112 of the second male terminal 110B (and the third male terminal 110C).

In each of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C, each straight line portion 111 has a long rectangular shape having a constant width and thickness, and the circuit board 11 is mounted. It extends in a direction substantially parallel to the surface.

The first male terminal 110A, the second male terminal 110B, and the third male terminal 110C configured in this way are fixed to the main body 120.

The main body 120 is a first connector main body, and is an insulating housing that holds the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C. The main body 120 houses the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C.

The main body 120 is a resin molded product made of a resin such as PBT (polybutylene terephthalate), for example. The material of the main body 120 is not limited to resin, and may be made of an insulating material other than resin.

The main body 120 has a hollow portion 121 having an opening 121a facing the tip end portion 112 of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C. The linear portion 111 and the tip portion 112 of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C are laterally surrounded by a hollow portion 121. As a result, the straight portion 111 and the tip portion 112 are not exposed, so that even if the straight portion 111 and the tip portion 112 are energized, there is no risk of the user touching the straight portion 111 and the tip portion 112, which is excellent in terms of safety. At the same time, since the straight portion 111 and the tip portion 112 can be protected, it is possible to prevent the straight portion 111 and the tip portion 112 from being bent or damaged.

Further, the hollow portion 121 is an insertion hole into which the main body 220 of the second connector 200 is inserted. That is, the cavity portion 121 is an accommodating portion for accommodating the main body 220 of the second connector 200. Specifically, the protruding portion 221 of the main body 220 is inserted into the hollow portion 121. By inserting the protruding portion 221 into the hollow portion 121, the main body 120 of the first connector 100 and the main body 220 of the second connector 200 are connected.

In the present embodiment, the first male terminal 110A, the second male terminal 110B, the third male terminal 110C, and the cavity portion 121 are provided on a one-to-one basis. Specifically, three cavities 121 are formed side by side in a row. Each cavity 121 has a substantially bottomed tubular shape and has a spatial region surrounded by a bottom and four side walls.

Further, a through hole 122 (side wall through hole) is provided on the side surface of the main body 120. In the present embodiment, the through hole 122 is provided on the side wall of the cavity portion 121 corresponding to the first male terminal 110A which is the ground terminal.

The through hole 122 functions as a release portion for releasing the connection state between the first connector 100 and the second connector 200, and also functions as a connection maintenance portion for maintaining the connection state with the second connector 200. ..

In the present embodiment, when the first connector 100 and the second connector 200 are connected, the claw portion 222a of the second connector 200 is locked in the through hole 122. Specifically, the claw portion 222a is locked to the through hole 122 so that the claw portion 222a is hooked on the opening end portion of the through hole 122.

[Female connector]
Next, the detailed configuration of the second connector 200 will be described with reference to FIGS. 4A and 4B. FIG. 4A is a perspective view of the second connector 200 according to the embodiment. FIG. 4B is a top view of the second connector 200 according to the embodiment.

As shown in FIGS. 4A and 4B, the second connector 200 includes a first female terminal 210A, a second female terminal 210B, a third female terminal 210C, and a main body 220.

The first female terminal 210A, the second female terminal 210B, and the third female terminal 210C are made of a conductive material such as metal. In the present embodiment, the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C all have the same material and the same shape.

Each of the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C is electrically and mechanically connected to each of the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C. ..

Therefore, the first female terminal 210A is a ground terminal for grounding. The second female terminal 210B and the third female terminal 210C are power supply terminals for power supply. Specifically, the second female terminal 210B is a power supply terminal on the high voltage side, and the third female terminal 210C is a power supply terminal on the low voltage side.

Each of the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C has a tubular body 211 having an opening 211a (insertion port) into which the corresponding male terminal 110 is inserted.

Specifically, the first male terminal 110A is inserted into the opening 211a of the first female terminal 210A. Further, the second male terminal 110B is inserted into the opening 211a of the second female terminal 210B, and the third male terminal 110C is inserted into the opening 211a of the third female terminal 210C.

The male terminal 110 inserted into the cylinder 211 travels inside the cylinder 211 toward the back of the cylinder 211. That is, the inside of the tubular body 211 constitutes an insertion path into which the male terminal 110 is inserted. In the present embodiment, the cylindrical body 211 has a square tubular shape, and the opening 211a has a rectangular shape.

In each of the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C, a narrow portion 211b is provided in the middle of the tubular body 211. As an example, the narrow portion 211b is provided in the central portion of the tubular body 211. The narrow portion 211b is a portion that sandwiches and holds the male terminal 110 from the plate thickness direction (Y-axis direction).

In the present embodiment, since the tip 112 of the first male terminal 110A protrudes from the tip 112 of the second male terminal 110B and the third male terminal 110C, the narrow portion 211b of the first female terminal 210A is the first. The tip 112 of the 1 male terminal 110A is temporarily held, but the connection of the first male terminal 110A with the first female terminal 210A is completed at a position where the tip 112 passes through the narrow portion 211b.

On the other hand, the second male terminal 110B and the third male terminal 110C are connected to the second female terminal 210B and the second female terminal 210B by sandwiching the tip portion 112 between the narrow portions 211b.

Each of the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C is connected to the power supply line 30. Specifically, the power supply line 30 includes a grounding lead wire (earth wire) connected to the first female terminal 210A and a high-voltage side lead wire (high-voltage side power supply line) connected to the second female terminal 210B. ) And a low-voltage side lead wire (low-voltage side power supply line) connected to the third female terminal 210C.

The main body 220 is a second connector main body, and is an insulating housing that holds the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C. The main body 220 houses the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C.

Like the main body 120, the main body 220 is a resin molded product made of a resin such as PBT. In the present embodiment, the main body 120 is fixed to the circuit board 11, and the main body 220 is a component for inserting and removing the main body 220 from the main body 120. Therefore, the main body 220 is made of a material having higher mechanical strength than the main body 120. It is good to do it. For example, the main body 220 may be made of polycarbonate (PC). The material of the main body 220 may be a resin other than PBT and PC, or may be an insulating material other than the resin.

The main body 220 has three protrusions 221. Each of the three protrusions 221 houses each female terminal 210 (first female terminal 210A, second female terminal 210B, third female terminal 210C). Specifically, each female terminal 210 is surrounded on the side by a protrusion 221. As a result, the female terminal 210 is not exposed to the outside of the main body 220, so that even if the female terminal 210 is energized, there is no risk of the user touching the female terminal 210, which is excellent in terms of safety. Further, the female terminal 210 can be protected by storing the female terminal 210 in the protrusion 221. As a result, the female terminal 210 does not come into contact with other parts or the user, so that it is possible to prevent the female terminal 210 from being bent or damaged.

Each protrusion 221 is an insertion portion that is inserted into each cavity 121 of the main body 120 of the first connector 100. By inserting each protrusion 221 into each cavity 121, the protrusion 221 is fitted into the cavity 121, and the male terminal 110 and the female terminal 210 come into contact with each other and are electrically and mechanically connected. In the present embodiment, the first male terminal 110A and the first female terminal 210A are connected, the second male terminal 110B and the second female terminal 210B are connected, and the third male terminal 110C and the third female terminal 210C are connected. Is connected.

Further, the main body 220 has an arm portion 222 having a cantilever structure. The arm portion 222 is elastically deformed in a direction approaching the side surface of the main body 220 by applying stress to the arm portion 222, that is, in a direction in which the gap between the arm portion 222 and the main body 220 is narrowed. After that, the arm portion 222 returns to the original position by releasing the application of the stress.

The arm portion 222 functions as a release portion for releasing the connection state with the first connector 100, and also functions as a connection maintenance unit for maintaining the connection state with the first connector 100.

In the present embodiment, the arm portion 222 is provided with a claw portion 222a and a knob portion 222b.

The claw portion 222a is formed in the central portion of the arm portion 222, and when the first connector 100 and the second connector 200 are connected, the claw portion 222a is locked in the through hole 122 provided in the first connector 100. The claw portion 222a has a shape of being hooked on the open end portion of the through hole 122.

The knob portion 222b is a portion for applying stress to the arm portion 222, and is formed at an end portion of the arm portion 222 on the open end side. The knob portion 222b is, for example, a portion that the user's finger comes into contact with, and the arm portion 222 can be elastically deformed by pinching the knob portion 222b and the main body 220.

[How to connect the 1st connector and the 2nd connector]
Next, a method of connecting the first connector 100 and the second connector 200 will be described with reference to FIGS. 5 to 8. FIG. 5 is a diagram for explaining a method of connecting the first connector 100 and the second connector 200. 6 to 8 are views showing a state when the first connector 100 and the second connector 200 are connected, FIG. 6 is a perspective view, FIG. 7 is a plan view, and FIG. 8 is a cross-sectional view. .. Note that FIGS. 6 to 8 show only the male terminal 110 and the female terminal 210 of the first connector 100 and the second connector 200.

As shown in FIGS. 5A and 5B, when the first connector 100 and the second connector 200 are connected, the protruding portion of the second connector 200 is inserted into the hollow portion 121 (insertion hole) of the first connector 100. Insert 221.

Specifically, the second connector is inserted into the hollow portion 121 of the first connector 100 until the claw portion 222a of the arm portion 222 of the second connector 200 is locked in the through hole 122 provided in the main body 120 of the first connector 100. Push in the protrusion 221 of 200.

At this time, the arm portion 222 of the second connector 200 is elastically deformed by being pressed until the claw portion 222a is locked in the through hole 122. For example, when the user holds the main body 220 of the second connector 200 and inserts the protruding portion 221 into the hollow portion 121 of the first connector 100, the arm portion 222 can be elastically deformed by the pressure received from the side wall of the hollow portion 121.

After that, when the protruding portion 221 is further pushed into the hollow portion 121, the claw portion 222a of the arm portion 222 reaches the open end portion of the through hole 122. At this time, the pressure received by the arm portion 222 from the cavity portion 121 is released, so that the arm portion 222 expands outward due to the spring restoring force due to the resin elastic force and tries to return to the original state. As a result, the claw portion 222a is caught in the through hole 122 and locked, and the connected state of the first connector 100 and the second connector 200 is maintained.

The first connector 100 and the second connector 200 are connected in this way. In the process of connecting the first connector 100 and the second connector 200, the male terminal 110 of the first connector 100 and the female terminal 210 of the second connector 200 are shown in FIGS. The behavior shown in 8 is shown.

Specifically, when the second connector 200 is brought close to the first connector 100, the female terminal 210 of the second connector 200 becomes the second connector as shown in FIGS. 6 (a), 7 (a) and 8 (a). It approaches the male terminal 110 of 1 connector 100. Specifically, each of the first female terminal 210A, the second female terminal 210B, and the third female terminal 210C approaches the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C while facing each other. To go.

At this time, in the present embodiment, the width of the tip portion 112 of the first male terminal 110A is larger than the width of the tip portion 112 of the second male terminal 110B and the third male terminal 110C. As shown in 7 (b) and FIG. 8 (b), the tip 112 of the first male terminal 110A first contacts the first female terminal 210A. That is, before the tip 112 of the second male terminal 110B and the third male terminal 110C comes into contact with the second female terminal 210B and the third female terminal 210C, the tip 112 of the first male terminal 110A is the first female. Contact terminal 210A.

Specifically, as shown in FIG. 8B, the maximum width of the tip portion 112 of the first male terminal 110A is the opening 211a of the female terminal (first female terminal 210A) into which the first male terminal 110A is inserted. It is larger than the width (opening width) of. Therefore, the upper and lower ends (both ends in the Z-axis direction) of the tip 112 of the first male terminal 110A come into contact with the opening 211a of the tubular body 211 of the first female terminal 210A. Therefore, among the plurality of male terminals 110 and the plurality of female terminals 210, the first male terminal 110A and the first female terminal 210A first come into contact with each other to conduct conduction.

In particular, in the present embodiment, since the tip 112 of the first male terminal 110A protrudes from the tips of the second male terminal 110B and the third male terminal 110C, the second male terminal 110B and the third male terminal 110C The tip 112 of the first male terminal 110A surely comes into contact with the first female terminal 210A before the tip 112 of the first male terminal comes into contact with the second female terminal 210B and the third female terminal 210C.

As described above, the tip 112 of the first male terminal 110A is configured to always contact the opening 211a of the tubular body 211 of the first female terminal 210A, so that the time when the tip 112 contacts the opening 211a ( (B) in FIGS. 6 to 8), the conduction between the first male terminal 110A and the first female terminal 210A is completed.

After that, when the protruding portion 221 of the second connector 200 is further pushed into the hollow portion 121 of the first connector 100, the tip portion 112 of the first male terminal 110A becomes the upper and lower portions of the tubular body 211 of the first female terminal 210A. The first male terminal 110A advances in the tubular body 211 of the first female terminal 210A so as to push the first female terminal 210A.

In the middle of the process, the second male terminal 110B and the third male terminal 110C are inserted into the openings 211a of the second female terminal 210B and the third female terminal 210C, and the second female terminal 210B and the third female terminal 210B and the third female terminal 210B and the third female terminal 210B are inserted together with the first male terminal 110A. The female terminal 210C also travels in the cylinder 211.

Then, as shown in FIGS. 6 (c), 7 (c) and 8 (c), the tip portion 112 of the second male terminal 110B and the third male terminal 110C is a cylinder in the narrow portion 211b of the tubular body 211. By being sandwiched by the body 211, the connection between the second male terminal 110B and the second female terminal 210B is completed, and the connection between the third male terminal 110C and the third female terminal 210C is completed. That is, when the tip 112 of the second male terminal 110B and the third male terminal 110C reaches the narrow portion 211b of the tubular body 211, the second male terminal 110B and the second female terminal 210B are surely conductive and are also electrically connected. The third male terminal 110C and the third female terminal 210C are surely conductive.

The second male terminal 110B and the second female terminal 210B come into contact with the inside of the cylinder 211 when the second male terminal 110B inserts the inside of the cylinder 211 of the second female terminal 210B, and are temporarily in a conductive state. However, when the conduction between the second male terminal 110B and the second female terminal 210B is completed, the tip 112 of the second male terminal 110B is sandwiched between the narrow portions 211b of the tubular body 211 (FIG. 6). It is the time of (state (c) of FIG. 8). The same applies to the third male terminal 110C and the third female terminal 210C. When the continuity between the third male terminal 110C and the third female terminal 210C is completed, the tip 112 of the third male terminal 110C has a tubular body 211. This is the time when it is sandwiched between the narrow portions 211b of the above.

Further, when the tip 112 of the second male terminal 110B and the third male terminal 110C is sandwiched by the narrow portion 211b, the tip 112 of the first male terminal 110A penetrates the tubular body 211 of the first female terminal 210A. However, at this time, since the straight portion 111 of the first male terminal 110A is sandwiched by the narrow portion 211b, the conduction state between the first male terminal 110A and the first female terminal 210A is maintained and continued.

As described above, the first connector 100 and the second connector 200 are electrically and mechanically connected.

After the first connector 100 and the second connector 200 are connected, the connection state between the first connector 100 and the second connector 200 can be released by removing the claw portion 222a from the through hole 122. .. Specifically, the user pinches the knob portion 222b and the main body 220 of the second connector 200, and elastically deforms the arm portion 222 so that the arm portion 222 and the main body 220 come close to each other, thereby forming a through hole in the claw portion 222a. Remove from 122. Then, in this state, the second connector 200 can be removed from the first connector 100 by pulling the main body 220 of the second connector 200 so as to pull out the protruding portion 221 from the hollow portion 121. As a result, the connection state between the first connector 100 and the second connector 200 can be released.

In this way, when the first connector 100 and the second connector 200 are separated, the tip 112 of the first male terminal 110A is kept in contact with the first female terminal 210A until the end due to the configuration of the first male terminal 110A. be able to. That is, even after the tip 112 of the second male terminal 110B (third male terminal 110C) comes out of the second female terminal 210B (third female terminal 210C), the tip 112 of the first male terminal 110A remains the first female. It can be kept in contact with the terminal 210A.

[summary]
As described above, in the first connector 100 in the present embodiment, the width of the tip portion 112 of the first male terminal 110A is larger than the width of the tip portion 112 of the second male terminal 110B.

As a result, when connecting the first connector 100 and the second connector 200, the tip 112 of the first male terminal 110A comes into contact with the female terminal 210 before the tip 112 of the second male terminal 110B. That is, the first male terminal 110A can be brought into contact with the female terminal 210 before the second male terminal 110B.

Further, when the first connector 100 and the second connector 200 are separated, the tip portion 112 of the first male terminal 110A can be brought into contact with the female terminal 210 until after the second male terminal 110B. That is, even after the tip 112 of the second male terminal 110B is in a non-contact state with the female terminal 210, the tip 112 of the first male terminal 110A can be kept in contact with the female terminal 210.

Therefore, according to the first connector 100 in the present embodiment, it is possible to realize a connector having a male terminal 110 capable of making a highly reliable electrical connection with the female terminal 210.

For example, when the first male terminal 110A is a ground terminal, the ground connection can be made first by the first male terminal 110A. As a result, the male terminal of the power supply terminal is connected to the female terminal before the male terminal of the ground terminal, resulting in an unexpected overcurrent in the electronic components that make up the circuit of the two units connected by the two connectors. Can be suppressed from flowing.

Further, in the present embodiment, the width of the tip portion 112 of the first male terminal 110A is made larger than the width of the straight line portion 111 of the first male terminal 110A.

As a result, the first male terminal 110A can be inserted into the first female terminal 210A without applying an unnecessarily load to the first female terminal 210A.

Further, in the present embodiment, the tip portion 112 of the first male terminal 110A protrudes from the tip portion 112 of the second male terminal 110B along the longitudinal direction of the first male terminal 110A.

As a result, the first male terminal 110A can be brought into contact with the female terminal 210 more reliably before the second male terminal 110B.

Further, in the present embodiment, the maximum width of the tip portion 112 of the first male terminal 110A is larger than the width of the opening 211a of the first female terminal 210A into which the first male terminal 110A is inserted.

As a result, when the first male terminal 110A is to be inserted into the first female terminal 210A, the tip portion 112 of the first male terminal 110A can be surely brought into contact with the opening 211a of the tubular body 211 of the first female terminal 210A. can. Therefore, the first male terminal 110A can be brought into contact with the female terminal 210 more reliably before the second male terminal 110B.

(Modification example)
Although the present invention has been described above based on the embodiments, the present invention is not limited to the above embodiments.

For example, as shown in FIG. 9, a slit 112a may be formed in the tip portion 112 of the first male terminal 110A. The slit 112a can be formed, for example, in the shape of a notch extending along the longitudinal direction of the first male terminal 110A. The slit 112a may be formed only on the tip portion 112, but may be formed from the tip portion 112 to the straight portion 111 as shown in FIG.

By forming the slit 112a in the tip portion 112 of the first male terminal 110A in this way, the tip portion 112 can be made elastic. As a result, when the first male terminal 110A is inserted into the first female terminal 210A and the tip portion 112 comes into contact with the opening 211a, the tip portion 112 is elastically deformed. Therefore, even when the maximum width of the tip portion 112 before insertion of the first male terminal 110A is larger than the width of the opening 211a as in the above embodiment, the insertion stress of the tip portion 112 causes the first female The contact state (conduction state) between the first male terminal 110A (tip 112) and the first female terminal 210A (cylinder 211) can be easily maintained without deforming the terminal 210A (cylinder 211). can.

Further, in the above embodiment, the male terminal 110 is composed of a plate-shaped member, but the male terminal 110 is not limited to this. For example, as shown in FIG. 10, a first male terminal 110A having a linear portion 111 having a columnar shape and a tip portion 112 having a spherical shape may be used. In this case, the width of the tip 112 of the first male terminal 110A is the diameter, and the maximum diameter of the tip of the first male terminal 110A may be larger than the maximum diameter of the tip of the second male terminal 110B. That is, in the present invention, the tip portion 112 of the first male terminal 110A may have a portion that is thicker than the thickness of the tip portion 112 of the second male terminal 110B and the third male terminal 110C.

Alternatively, as shown in FIG. 11, a first male terminal 110A having a linear portion 111 having a columnar shape and a tip portion 112 having a disk shape may be used. The first male terminal 110A shown in FIG. 11 can be formed by crushing the tip of the cylindrical male terminal 110 by press working. Thereby, the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C can be formed by using the same parts. In this case, when the first male terminal 110A, the second male terminal 110B, and the third male terminal 110C are plate-shaped members, only one punching die can be used, and only the first male terminal 110A can be used. , The tip may be pressed to make it thicker.

Further, in the above embodiment, the width of the tip portion 112 of the first male terminal 110A is made larger than the width of the straight line portion 111 of the first male terminal 110A, but the present invention is not limited to this. For example, if the width (thickness) of the tip portion 112 of the first male terminal 110A is larger than that of the second male terminal 110B, the straight portion 111 and the tip portion 112 have the same width (thickness) at the first male terminal 110A. There may be. That is, the plate width may be constant over the entire straight portion 111 and the tip portion 112.

Further, in the above embodiment, the tubular body 211 of the female terminal 210 has a square tubular shape, but the present invention is not limited to this. For example, as the tubular body 211 of the female terminal 210, any shape such as a cylinder having a circular opening, an elliptical cylinder having an elliptical opening, or a polygonal cylinder having a polygonal opening can be used. .. In this case, the width of the opening 211a of the tubular body 211 of the first female terminal 210A may be smaller than the width of the first male terminal 110A in the direction in which the width of the first male terminal 110A is increasing. Therefore, the configuration of the female terminal 210 does not have to be a tubular body, and may be a pair of plate-shaped members. That is, the maximum width of the tip portion 112 of the first male terminal 110A may be larger than the distance (opening width) of the pair of plate-shaped members constituting the first female terminal 210A.

Further, in the above embodiment, the cavities 121 of the first connector 100 are formed by the number of male terminals 110, but the number of cavities 121 is not limited to this, and the cavity 121 is one common to all male terminals 110. May be only. In this case, the cavity 121 has only one opening 121a. Further, in this case, the number of the protruding portions 221 of the second connector 200 may remain three, but may be one.

Further, in the above embodiment, the first connector 100 having the male terminal 110 is fixed and the second connector 200 having the female terminal 210 is moved, but the present invention is not limited to this. For example, the second connector 200 having the female terminal 210 may be fixed, and the first connector 100 having the male terminal 110 may be moved.

Further, in the above embodiment, the male terminal 110 and the female terminal 210 are set to three each, but the present invention is not limited to this. For example, the male terminal 110 and the female terminal 210 may be two each or four or more. When two male terminals 110 and two female terminals 210 are used, for example, one of the two sets of the male terminal 110 and the female terminal 210 is used for high voltage, and the other male terminal 110 and the female terminal 210 of the two sets are used. Can be used for low pressure.

Further, in the above embodiment, the second male terminal 110B and the third male terminal 110C, which are power supply terminals, are used for high voltage and low voltage, and are used as DC terminals, but the present invention is not limited to this. For example, the second male terminal 110B and the third male terminal 110C may be used as AC terminals.

Further, in the above embodiment, the first connector 100 and the second connector 200 connect the power supply unit 10 and the lamp unit 20 and are provided on the secondary side of the power supply unit 10, but the present invention is limited to this. No. For example, the first connector 100 and the second connector 200 may be configured to connect the power supply unit 10 and a member on the commercial power supply side. That is, the first connector 100 and the second connector 200 may be provided on the primary side of the power supply unit 10.

Further, in the above embodiment, the LED light source is used as the light source of the lamp unit 20 in the lighting fixture 1, but the present invention is not limited to this. For example, the light source of the lamp unit 20 is an existing lamp such as a HID (High Intensity Discharge Lamp) lamp, a fluorescent lamp or a filament lamp, or a light source using a solid-state light emitting element other than an LED such as an organic EL (Electro Luminescence). There may be. In this case, the lighting power supply circuit of the power supply unit 10 may be designed according to the type of the light source.

Alternatively, the first connector 100 and the second connector 200 can be applied not only when the power supply unit 10 and the lamp unit 20 are connected, but also when various electronic units are connected to each other.

In addition, various modifications that can be conceived by those skilled in the art are applied to the above-described embodiments and modifications, and the components and functions of the embodiments and modifications are arbitrarily combined without departing from the spirit of the present invention. The embodiment realized by the above is also included in the present invention.

100 1st connector 110A 1st male terminal 110B 2nd male terminal 111 Straight part 112 Tip part 112a Slit 120 Main body 121 Hollow part 121a Opening 200 2nd connector 210 Female terminal

Claims (7)

A connector having a first female terminal , a second female terminal, and a third female terminal and a detachable connector.
With the long first male terminal,
With a long second male terminal,
With a long third male terminal,
Said first male terminal, the second comprises a cavity having an opening facing the front end portion of the male terminal and the third male terminal, main body for holding said first male terminal, said second male terminals, and a third male terminal With and
The plate width of the tip of the first male terminal is larger than the plate width of the tip of the second male terminal and the tip of the third male terminal.
Both ends of the plate width of the tip of the first male terminal come into contact with the first female terminal.
Both ends of the plate width of the tip of the second male terminal come into contact with the second female terminal.
Both ends of the plate width of the tip of the third male terminal come into contact with the third female terminal.
The first male terminal is a ground terminal and
The second male terminal and the third male terminal are power supply terminals for power supply, and the energized voltage is different.
connector. The first male terminal has a straight line portion and the tip portion located at the tip of the straight line portion.
The width of the tip portion of the first male terminal is larger than the width of the straight portion of the first male terminal.
The connector according to claim 1. A connector with a female terminal and a detachable connector,
With the long first male terminal,
With a long second male terminal,
It includes a cavity having an opening facing the tip of the first male terminal and the second male terminal, and includes a main body that holds the first male terminal and the second male terminal.
The second male terminal is a power supply terminal for power supply, and is
The width of the tip of the first male terminal is larger than the width of the tip of the second male terminal.
The first male terminal and the second male terminal have a straight line portion and a tip portion located at the tip of the straight line portion.
The width of the straight portion of the first male terminal and the width of the straight portion of the second male terminal are the same.
The width of the tip portion of the first male terminal is larger than the width of the straight portion of the first male terminal.
The width of the tip of the second male terminal is not greater than the width of the straight portion of the second male terminal.
connector. The first male terminal is a ground terminal.
The connector according to claim 3. The tip of the first male terminal projects along the longitudinal direction of the first male terminal from the tip of the second male terminal.
The connector according to any one of claims 1 to 4. A notch-shaped slit extending along the longitudinal direction of the first male terminal is formed at the tip of the first male terminal.
The connector according to any one of claims 1 to 5. The maximum width of the tip of the first male terminal is larger than the opening width of the female terminal into which the first male terminal is inserted.
The connector according to any one of claims 1 to 6.

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