JPH0524142Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a spacer for a connector that is inserted between a connector and a printer board to change the mounting height of the connector to the printed board.

[Conventional technology]

Conventionally, as this type of connector spacer 1 (hereinafter referred to as spacer), one shown in FIG. 6a is known. That is, the spacer 1 is formed of an insulating material into a plate shape, and a plurality of terminal insertion holes 11 through which the terminal parts 21 of the connector 2 are inserted are arranged in the plate surface. As shown in Figure b, the spacer 1 is placed between the connectors 3 and 3 in order to obtain the mounting height necessary for making the printed circuit boards 3 face each other and fitting the connector 2 to the mating connector 4 (indicated by the two-dot chain line). The terminal portion 21 is press-fitted into the terminal insertion hole 11 and installed, and is disposed between the connector 2 and the printed circuit board 3. Therefore, the installation height dimension H ₁ of connector 2 is the height dimension of connector 2 L,
If the height dimension of the spacer 1 is A, it becomes L+A, and the mounting height dimension is set to correspond to the spacing between the printed circuit boards 3, 3.

[The problem that the idea attempts to solve]

However, according to the conventional spacer 1, the mounting height of the connector to the printed circuit board 3 is uniquely determined by the height of the spacer 1, so the facing distance between the printed circuit boards 3 and 3 is adjusted as shown in FIG. 6c. If it is wider than b, connector 2
In order to fit the connector 4 into the mating connector 4, a spacer 5 with a different height B (B>A), which is different from the spacer 1, is prepared and placed between the connector 2 and the printed circuit board 3. Then, the mounting height dimension H ₂ of the connector 2 corresponding to the distance between the printed circuit boards 3, 3 (=
L+B) was set. In this way, it is necessary to prepare spacers with different height dimensions depending on the facing distance between the printed circuit boards 3, 3, which results in a large number of types of spacers, which is extremely uneconomical and complicates the work. Summer. Therefore, the present invention has been devised in view of this point, and it is an object of the present invention to provide an economical spacer that allows the mounting height of the connector to be changed without increasing the number of types.

[Means to solve problems]

According to this invention, in a plate-shaped connector spacer that is inserted between a connector and a printed circuit board to change the mounting height of the connector to the printed circuit board, the spacer is attached to both the front and back surfaces of the connector. It has an insertion hole through which the terminal part of the connector can be installed, and has legs for installing a printed circuit board on both sides of the connector mounting part on both the front and back sides, and the legs have a height on the front and back sides. This is what made the difference. Further, the leg portion may be provided on only one of the front and back surfaces of the spacer.

With the above configuration, when the spacer is inserted between the connector and the printed circuit board, the front or back surface of the spacer provided with the leg portions will come into direct contact with the surface of the printed circuit board. It is not in contact with the connector but is in contact with it through the leg portion, and it is in direct contact with the mounting surface of the connector. Therefore, by reversing the front and back sides of the spacer and placing it between the connector and the printed circuit board, different mounting heights of the connectors can be obtained, which reduces the number of types. An economical connector spacer is obtained in which the mounting height can be changed.

〔Example〕

Embodiments of the present invention will be described below with reference to FIGS. 1 to 3. The spacer 6 of this invention shown in FIG. 1 is made of an electrically insulating material such as synthetic resin and has a rectangular plate shape, and is formed so that a connector can be attached to both the front surface 61 and the back surface 62, and the connector attachment portion is formed on both of the front surface 61 and the back surface 62 of the spacer 6. On both sides of the spacer in the longitudinal direction, that is, on the front surface 61 and the back surface 62 of both longitudinal ends of the spacer,
Legs 63 and 64 having different heights are integrally erected. The legs 63 and 64 have recesses 63a and 64a on their inner surfaces into which both ends of a connector to be described later are fitted.
are formed, and as shown in FIG. 3b, engaging protrusions 63b and 64b facing each other are integrally formed at positions slightly apart from the front and back surfaces 61 and 62 on the inner surfaces of the side walls facing each other. It is installed protrudingly. Further, the spacer 6 has terminal insertion holes 65 arranged through the plate surface, and these terminal insertion holes 65
A contact, which will be described later, is inserted into the hole and the location of the contact is revealed. In addition, support pieces 6 are provided on both sides 61 and 62 of the spacer 6 in the longitudinal direction.
6 and 67 are provided in a protruding manner, and the heights of the support pieces 66 and 67 from the plate surface are set to be the same as the heights of the legs 63 and 64, respectively. Therefore, when the spacer 6 is placed on the printed circuit board 3, by abutting the tip end surface of the support piece 66 or 67 against the printed circuit board 3, the center portion of the spacer 6 in the longitudinal direction is supported, and the direction toward the printed circuit board 3 is supported. deflection is prevented. (See Figure 2) On the other hand, the connector 7 to which the spacer 6 is attached has an insulator 71 and a contact 72.
It consists of The insulator 71 has a substantially rectangular box shape with an upward opening, and has protrusions 71e integrally formed at both longitudinal ends thereof, and engagement protrusions 71f at the lower ends of both sides of the protrusions 71e. is installed protrudingly. Further, cutout grooves 71h are formed at the upper and lower edges of the side wall 71g of the insulator 71, respectively. The support piece 66 or the support piece 67 of the spacer 6 is inserted into the notch groove 71h on the lower edge side, and the support piece 66 or 67 of the spacer 6 attached to the mating connector is inserted into the notch groove 71h on the upper edge side when the mating connector is mated. (not shown) is inserted. contact 7
2 is made by punching and bending a conductive metal plate, and has a locking part 7 in an insulator 71.
2c is press-fitted and locked, and the insulator 71 is assembled with the terminal portion 72d extending downward from the bottom portion 71a.

A spacer 6 is attached to the connector 7 configured as described above.
When attaching the spacer 6, the spacer 6 is arranged so that one surface 61 of the spacer 6 faces the bottom surface 71d of the connector 7, as shown in FIG. Then, by bringing them close to each other, the terminal portion 72d of the contact 72 is inserted into the terminal insertion hole 65 of the spacer 6, and then the support piece 66 is inserted into the notch groove 71h of the insulator 71, and the recess of the leg portion 63 is inserted. The protrusion 71e of the insulator 71 is fitted into the insulator 63a.
Furthermore, when the protrusion 71e is fitted into the recess 63a,
After the engaging protrusion 71f of the protrusion 71e comes into contact with the engaging protrusion 63b on the recess 63a side, it climbs over the engaging protrusion 63b and is inserted between the engaging protrusion 63b of the spacer 6 and the surface 61 as shown in FIG. 3b. A recessed portion 63 formed in
c. Therefore, the spacer 6 is an insulator 7
It is attached with the surface 61 in contact with the bottom surface 71d of 1. (See Figure 2) The connector 7 with the spacer 6 attached in this manner is attached to the printed circuit board 3 with the legs 64 and support pieces 6 as shown in Figure 3a.
In this case, if the dimensions from the surface 61 of the spacer 6 to the end surfaces of the legs 64 and support pieces 67 are set to A in advance, the mounting height of the connector 7 can be adjusted. Dimension H ₁ is L+
Become A. (L is the height dimension of the connector 7) Next, by attaching the spacer 6 upside down, that is, with the legs 64 and the back surface 62 of the support piece 67 facing the bottom surface 71d of the connector 7, in the same manner as described above. , the spacer 6 is attached with its back surface 62 in contact with the bottom surface 71d of the connector 7. And connector 7 with spacer 6 attached
As shown in FIG. 3c, the leg portion 63 and the support piece 6
6 is attached to the printed circuit board 3 in contact with it. In that case, from the back surface 62 of the spacer 6 to the leg portion 63
Furthermore, if the dimension up to the tip end face of the support piece 66 is set to B, the mounting height dimension _H2 of the connector 7 can be changed to L+B.

By inverting the spacer 6 in this way and changing the front and back surfaces 61 and 62, which are the mounting surfaces, and attaching it to the connector 7, the mounting height of the connector 7 when mounted on the printed circuit board 3 can be changed to H ₁ or H ₂ . be able to. FIG. 4 shows another embodiment of this invention. The spacer 8 has legs 82 integrally erected on both sides in the width direction and is formed into a substantially U-shaped cross section, and the front surface 81 on which the legs 82 are provided has a terminal insertion hole 84 penetrating toward the back surface 83 side. are arranged. It is not necessary to provide the terminal insertion holes 84 for the number of cores in the connector, and when the spacers 8 are attached to both ends of the connector 9 as shown in FIG. Only the number of cores (four cores in the embodiment) are provided.

The spacer 8 is inserted by inserting the bottom of the connector 9 between the legs 82 as shown in FIG.
The connector 9 is attached by press-fitting the terminal portion 9a thereinto and bringing the bottom surface 9b of the connector 9 into contact with the surface 81.
Then, the connector 9 with the spacer 8 attached is mounted on the printed circuit board 3 with the back surface 83 of the spacer 8 in contact with it, but the dimension (plate thickness) from the front surface 81 to the back surface 83 of the spacer 8 is set to A in advance. As a result, the mounting height _H1 of the connector 9 becomes L+A. (L is the height dimension of the connector 9) Next, when the spacer 8 is turned upside down and attached to the connector 9 as shown in FIG. , the connector 9 connects the spacer 8 to the printed circuit board 3.
is mounted with the distal end surfaces of the legs 82 in contact with each other. Therefore, by setting the dimension from the back surface 83 of the spacer 8 to the tip end surface of the leg portion 82 to B, the mounting height dimension _H2 of the connector 9 can be changed to L+B. In this way, by attaching the spacer 8 to the connector 9 with the front and back surfaces 81 and 83 reversed,
The mounting height dimension of the connector 9 can be changed to H ₁ or H ₂ , and since it is attached to both ends of the bottom surface 9b of the connector 9 instead of the entire surface, the total length dimension can be changed depending on the number of cores of the connector. There is no need to prepare anything.

[Effect of idea]

This invention is constructed as described above, but by reversing the front and back surfaces of the spacer and attaching it to the connector, two mounting heights can be obtained with respect to the printed circuit board. In this way, since the mounting height of the connector can be changed using both the front and back sides, the spacer can be used more efficiently than conventional ones of this type, and an economical spacer can be provided.

[Brief explanation of drawings]

Fig. 1 is an exploded perspective view showing an embodiment of the present invention, Fig. 2 is a front view showing the connector with the spacer attached in Fig. 1, and Fig. 3 shows the state in which the connector and spacer are attached. c is a cross-sectional view taken along the line A-A in Figure 2, b is a cross-sectional view taken along the line B-B in Figure 2, and
The figures are a side view and a partially sectional front view of a spacer according to another embodiment, Figures 5a and b are explanatory diagrams showing how the spacer shown in Figure 4 is used, and Figures 6a and b are
and c are explanatory diagrams of a conventional example. 1, 5, 6, 8...Spacer, 11, 65, 8
4...Terminal insertion hole, 2, 7, 9...Connector,
21, 72d, 9a... terminal portion, 3... printed circuit board, 61, 81... front surface, 62, 83... back surface, 63, 64, 82... leg portion.

Claims (1)

[Scope of claims for utility model registration] 1. A device inserted between a connector and a printed circuit board,
In a plate-shaped connector spacer that changes the height at which the connector is attached to the printed circuit board, the spacer has an insertion hole on either the front or back surface of which the connector can be attached, and through which the terminal portion of the connector passes. 1. A spacer for a connector, comprising legs for installing a printed circuit board on both sides of the connector mounting portion on both the front and back surfaces, and the legs have different heights on the front and back surfaces. 2. The spacer for a connector according to claim 1 of the utility model registration, wherein the leg portion is provided on only one of the front and back surfaces of the spacer.