JPS62272206A - Connecting tool for signal line - Google Patents

Abstract

PURPOSE:To surely hold a signal line by pressing force by externally sheathing a U-shaped resin plate forming a signal line storing groove corresponding to a signal line on its inside and an outer U-shaped resin plate for holding the inside of the former U-shaped resin plate at a contact state by an elastic member. CONSTITUTION:The head parts, i.e. an upper head part 10a and a lower head part 10b, of a signal connecting tool 10 are normally stuck fast to each other. At the time of connecting signal lines 20, the upper and lower head parts 10a, 10b are opened by using an opening member 15. The signal lines 20 are inserted into the signal line storing groove 14 from both the ends as shown by arrows by using a space formed by said opening and the end faces of signal line cores 21 are abutted on each other to store the signal lines 20. Then, the opening member 15 is restored to the shown state, so that the inside of the connecting tool 10 is stuck fast and the signal lines 20 are pressed and held.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention (Field of Industrial Application) This invention relates to a signal line connector for connecting signal lines such as optical fibers.

(Prior Art) Various connectors and tools have conventionally been used to connect various signal lines such as optical fibers. In particular, as technology develops rapidly in recent years, connection points such as in communication equipment become finer and more complex, and precise connections are required.

Therefore, there has been a demand for a connector that meets these requirements. In particular, when using a connector for connecting optical fibers, if the optical fibers are connected with their axes not aligned, signal light will leak, making it impossible to transmit signals through the optical fibers.

Conventionally, there are connectors shown in Japanese Utility Model Publication No. 54-31002 and Japanese Unexamined Patent Publication No. 54-32342, etc., which have been proposed for the purpose of connecting such optical fibers, and these are shown in Fig. 10. show.

The conventional connector (30) shown in FIG.
) and a fixing plate (
32), and a support plate (33) arranged and fixed between these fixed plates (32). As shown in FIGS. 11 and 12, the substrate (31) has an optical fiber (20
) corresponding to the core wire (21) and sheath (22) of the V-groove (3
1a), and each fixing plate (32) also has a groove (:12a) as shown in FIGS. 11 and 12.
is formed.

As shown in FIG. 11, in this connector (ko0), a pair of optical fibers (20) are
1) Fit into the V-groove (31a) with the ends butted together, and after placing each fixing plate (2) and support plate (33) thereon, fix these with screws, etc. Therefore, when manufacturing this connector (30), which connects a pair of optical fibers (20), considerable precision is required for each V-groove (31a) and groove (12a).

If the accuracy of each groove (31a) and groove (12a) corresponds to the optical fiber (20), each fiber (2o) will be in a predetermined position, as shown in Figures 13 and 14. connection loss is small, but each
If the precision of the grooves and grooves is not good, the position of the core m (21) of the optical fiber (20) will deviate from the normal position of the imaginary line, resulting in connection loss, as shown in FIG. To avoid this, each V groove (:11a) and groove (32a)
) must be finished with considerable precision.

For this reason, it takes time and effort to manufacture the connecting tool (30) itself, which increases its price. Furthermore, connection tools (30)
Not only is there a problem with the manufacturing itself, but the connection work is also quite difficult because care must be taken in accordance with the required accuracy.

This problem can be solved by the inventor's previous application, which is shown in FIG. 41) (42.) is heated to thermally expand, and the difference in thermal expansion is used to shape the inside so that it is tightly attached, and the wire is press-fitted into a resin plate to store the signal wire @
(44) is molded at the same time to make a signal mvikl tool (4
0) (Special No. 11 Sho 60-94738) It was resolved as a brotherly matter.

(Problem to be solved by the invention) While the signal line connector of the invention of the previous application maintained the pressing force to clamp the signal line by utilizing the difference in thermal expansion coefficient, this invention The object of the present invention is to provide a signal line connector that maintains a pressing force that can more reliably clamp the signal line.

(Means for Solving the Problems) That is, the present invention provides a U-shaped resin plate in which a signal line storage groove corresponding to the signal line is formed, and a U-shaped resin plate in which the inner side of this U-shaped resin plate is tightly sandwiched. The signal line connector is characterized in that it includes an elastic member covered by a U-shaped resin plate.

Note that the wire here refers to the signal wire itself, such as glass fiber, or a hard wire of a size corresponding to the signal wire (
metal, etc.).

(Function) Therefore, in the signal line connector of the present invention, the signal line is fitted into the signal line storage groove corresponding to the signal line inside the U-shaped resin plate, and the inside of the U-shaped resin plate is made elastic. Since the members tightly sandwich the signal wire, the signal wire such as an optical fiber fits into this groove without any gaps, and the signal wire is firmly held by being tightly attached to the inside of the U-shaped resin plate.

(Example) Next, the present invention will be explained with reference to the drawings.

FIG. 1 shows a perspective view of a signal line connector according to the present invention. This signal line connector (10) uses a plate spring (12) as an elastic member, and is made of a U-shaped resin plate (
11) are sandwiched in close contact.

Although the elastic member in this example is a plate spring (12), it is not limited as long as it can press the U-shaped resin plate (11) from the outside.

In addition, as shown in FIG. 2, the signal line connector (lO) in this embodiment includes a plate spring (12) and a U-shaped resin plate (11) compressed by the plate spring (12). The plate spring (12) on the upper tip part (10a) and the U-shaped resin plate (1
1), an insertion hole (16a) and a six-hole (16b) are formed with their axis axes aligned with each other. and,
Expansion member (15) inserted through this insertion hole (16a)
) is screwed into the 6-hole (16b). Of course,
The head of the expansion member (15) can move up and down freely in the insertion hole (16a).

Further, there are signal line storage grooves (14) in which signal lines such as optical fibers are arranged inside the tip portions of the signal line vi fitting (lO), that is, the upper tip portion (10a) and the lower tip portion (10b), respectively. is formed.

As shown in FIGS. 4 and 5, this signal line storage groove (14) is located between the outer sheath (22) of the signal line (20) and the core II (21).
It is formed in a state corresponding to

The signal line connector (lO) constructed as described above is used in the following manner. The tip of the signal line connector (10),
That is, the E side light end portion (10a) and the lower end portion (10b)
) are usually in close contact with each other as shown in FIGS. 1 and 2, or the E-side light end portion (LOA) and the lower tip portion are separated using the expanding member (15). (10b)
If expanded, it will be in the state shown in Figure 3, and the space thus formed will be used to insert the signal line (20) into the signal line storage groove (as shown by the arrow in Figure 4). 14) Insert the signal wire from both ends into the cable, and store the signal wire end faces against each other.

After that, when the expansion member (15) is returned to its original state, the signal line (20) comes into close contact with the inner surface of the signal line connection J4 (10), and is thus held suppressed.

Next, a method for manufacturing a signal line connector according to the present invention will be described using FIG. 1 and FIGS. 6 to 9.

First, as shown in Figures 6 and 7, a U-shaped resin plate (
In 11), a resin plate is formed into a U-shape, and a signal line storage groove (14) is formed inside the resin plate by sandwiching a signal line or a wire material corresponding to the signal line and press-fitting it into the resin plate.

The U-shaped resin plate (11) is made of thermoplastic resin and is molded into a U-shape by injection molding.

Note that the material of the U-shaped resin plate (11) may be thermosetting resin.

The U-shaped resin plate (11) has a hinge (17) provided at the center of one side of the resin plate as shown in Fig. 6, and the resin plate can be bent into a U-shape via this hinge (17). It may be something that

Next, a signal wire such as glass fiber or a hard wire of a size corresponding to the signal wire is sandwiched and heated and pressed inside the U-shaped resin plate (11) to form the signal wire storage groove (14). form.

Note that heating during formation of the signal line storage groove (14) is performed in the same manner in the case of the U-shaped resin plate (11) provided with the hinge (17) described above.

Note that in forming the signal line storage groove (14), it is not necessarily necessary to heat the signal line storage groove (14), but heating is performed depending on the method of forming the storage groove.

Next, as shown in FIGS. 8 and 9, the signal line storage groove (
14) is removed, and a plate spring (12), which is an elastic member, is fitted into this U-shaped resin plate (11).

The plate blade (12) is preferably a U-shaped iron blade as shown in FIG. 7, and may be made of reinforced plastic or ceramic.

This elastic member, the plate spring (12), is connected to the U-shaped resin plate (11).
) from the eight directions indicated by the arrows in FIG.

(Effects of the Invention) As described in detail below, the present invention has a U-shaped resin plate in which a signal line storage groove corresponding to a signal line is formed, and a structure in which the inside of this U-shaped resin plate is tightly sandwiched. The signal line connector is characterized in that it includes an elastic member covered by a U-shaped resin plate.

Therefore, in the signal line connector of the present invention, the signal lines to be connected can be reliably connected with high precision by the wide configuration consisting of a U-shaped resin plate and an elastic member that clamps the U-shaped resin plate. be able to.

In addition, in this signal line connector, U is connected by one elastic member.
Since the resin plates can be brought into close contact with each other and maintained in that state, the connection state of the signal wire fitted into the signal line storage groove inside the U-shaped resin plate can also be maintained.

Furthermore, since this signal line connector has a small number of parts and the manufacturing and assembly of each part is simple, the manufacturing cost can be significantly reduced compared to conventional ones.

[Brief explanation of the drawing]

Fig. 1 is a perspective view of a signal line connector according to the present invention, and Fig. 2 is a perspective view of the signal line connector according to the present invention. 3 is an enlarged vertical sectional view taken along the line II-II of JSl 1-21; FIG. 3 is a sectional view showing the signal line connector shown in FIG. 2 expanded by its expansion member; The figure is an enlarged longitudinal cross-sectional view taken along the IT-IT line in Figure 1.
Figure 5 is also cut along the rV-IT line in Figure 1,
Furthermore, an enlarged vertical sectional view showing a state in which a signal line is fitted into this, No. 6r54 is a side view showing a U-shaped resin plate, FIG. 7 is a side view showing a plate spring as one elastic member, and FIG. 8 is U
A cross-sectional view showing the state before the plate springs are fitted into the letter-shaped resin plate,
Fig. 9 is a sectional view showing a state in which a leaf spring is fitted into a U-shaped resin plate and brought into close contact, Figs. 10 to 15 are views showing conventional connectors, and Fig. 10 is an exploded perspective view thereof. Figure, 11th
The figure is a plan view of the support plate, and Figure 12 is an enlarged bottom view of the fixed plate.
Figure 13 is a side view of the optical fiber fixed.
Figure 4 is an enlarged vertical sectional view of the main part taken along line I-I in Figure 11, Figure 15 is an enlarged sectional view showing another state of Figure 14, and Figure 16 is the signal of the previous application. It is a perspective view showing a line connector. Explanation of symbols 10...-Signal line connector 10a... Upper tip portion 1
0 b--Lower tip portion 11-U-shaped resin plate I2
・−・Plate spring 14−・・Signal line storage groove +5−
・・Expansion member 16a・Through hole +6b・6
Hole 20... Signal line patent applicant, No. 1611 Fig. 1 Fig. 2 Fig. 3 Fig. vJ4 Fig. 5 Fig. 6 Fig. 7 Fig. 8 Fig. 9 Fig. 1O Fig. 1I Fig. 12 jla
1. J21 2 (J 31a No. 138

Claims (3)

[Claims] (1) Equipped with a U-shaped resin plate that has a signal line storage groove formed inside that corresponds to the signal line, and an elastic member that is wrapped around the U-shaped resin plate to tightly sandwich the inside of the U-shaped resin plate. A signal line connector featuring the following features. (2) The signal line connector according to claim 1, wherein the signal line connector has an expanding member at its distal end portion for expanding the signal line connectors to each other. (3) The signal line connector according to claim 1, wherein the U-shaped resin plate is made of thermoplastic resin.