KR20020034013A - Needle clamping apparatus parts of machine for plant optical fiber - Google Patents

Abstract

PURPOSE: A needle clamping apparatus of an optical fiber grafter is provided, which graft more optical fibers into a texture and makes it easy to insert individual optical fiber into a needle. CONSTITUTION: The clamping apparatus(20) comprises an installation board(21) installed on a frame of an optical fiber grafter, a supporting plate(23) fixed by being placed on an upper surface of the installation board, a holding plate(24) installed by being placed to be able to slide on the upper surface of the supporting plate, a closing plate(25) fixed on an upper surface of the holding plate, and a driving tool(26) moving the holding plate right and left. An installation board(21) where the supporting plate is installed is formed in the installation board, and a number of penetration holes are formed on the supporting plate. A penetration hole(24a) is formed on the holding plate in an arrangement corresponding to the supporting plate.

Description

Needle clamping apparatus parts of machine for plant optical fiber

The present invention relates to a needle clamping device of an optical fiber implanter, and in particular, to prevent the needle from deviating from the correct position with respect to the reflection pressure generated when a large number of optical fibers are implanted into the fabric, so as to easily penetrate the optical fiber through the needle. A clamping device having one structure.

In general, optical fibers are widely used in the fields of electricity, electronics, communication, medical, optics, etc., and the characteristics of the fiber are capable of conducting light from the end of one side to the end of the other side in the longitudinal direction, and their light is high. It is also used as a decorative tool because of its conductive characteristics.

In addition, the object of the decorative apparatus may include clothing, bags, hats, interior items, accessories, etc., and the optical fiber is implanted in a proper arrangement of these fabrics, and a light emitting element such as an LED is provided on the rear thereof so that the LED blinks. By allowing the end portion to blink, it can be used for decorative purposes such as accessories.

1 is a cross-sectional view showing a device for implanting an optical fiber in the fabric for applying the optical fiber as a decorative device as described above, which is the application No. 1999-0015883 filed on May 3, 1999 (hereinafter, the present invention) ) Device.

Referring to Figure 1 briefly described the process of implanting the optical fiber to the fabric by the device of the present invention, first, the array plate (2) and the optical fiber clamping device ( 3) and a needle 15 of the needle clamping device 4 are sequentially inserted, and the operator rotates the shaft 5 so that the lifting plate 8 is lifted by the rotation of the eccentric cam 6.

The lifting plate 8 which is raised as described above is brought into contact with the work plate 9 to raise the work plate 9 together, and the fabric supported on the bottom surface of the work plate 9 by the work plate 9 is raised ( The needle 15 having the optical fiber B inserted therein is inserted into P).

When the needle 15 is inserted as described above, the operator supports the plurality of strands of the optical fiber (B) at once by using the optical fiber clamping device (3) at the same time and lowered them to support the optical fiber (B) inserted into the needle (15) The lowering of the jig (7) side, and by rotating the shaft (5) to the opposite side to return the eccentric cam (6) to its original position, the elevating plate (8) and the working plate (9) return to the original position, the needle (15) In addition to being separated from the (P), the optical fiber (B) is in a state passing through the fabric (P).

In this state, the operator after sunrise to the desired length of the optical fiber (B) penetrated to the lower side of the fabric (P) after performing a bundle operation to separate them into one or more bundles, and then work with the needle (15) After cutting the optical fiber (B) between the plates (9) and applying the adhesive to the cut surface and then UV coating process to irradiate ultraviolet rays to complete the product.

The configuration of the needle clamping device for clamping the needle in the optical fiber implanter as described above is the same as in Figs.

2 and 3, the conventional needle clamping device (4) is a mounting table (11), each corner is penetrated through the guide rod (1a) installed in the frame (1) of the optical fiber implanter, and the mounting table (11) It is mounted on the upper surface of the support plate 13, the plurality of through holes (13a) formed in a desired arrangement through the upper and lower surfaces, and is mounted on the upper surface of the support plate 13 and mounted on the support plate (13) A holding plate 14 formed through the upper and lower surfaces of the through hole 14a corresponding to the through hole and a driving mechanism for flowing the holding plate 14 in a predetermined direction by being installed at one side of the mounting table 11. 16).

The drive mechanism 16 described above is of a cam type, but can be configured by the operator directly or by a power transmission means, and in fact, the holding plate 14 can be moved only as much as desired. Anything is possible.

The needle clamping device 4 as described above penetrates the needle 15 through the through holes 13a and 14a of the support plate 13 and the holding plate 14 and flows the holding plate 14 to one side (support plate). 3 in a reactive sense, the needle 15 is supported in place by causing the needle 15 to be engaged between the support plate 13 and the holding plate 14.

The needle clamping device of the above-described configuration has to be supported more strongly as the number of optical fibers to be implanted into the fabric increases, which causes the fabric to expand around the point where the needle is pressed when the needle presses on the face of the fabric. This is due to the increase in the number of needles as the number of needles increases, thereby increasing the reflection pressure.

Therefore, the above-described needle clamping device should provide a substantial support force to the needle, which is limited in the bearing force applied in the lateral direction of the needle because the needle has a straight shape mainly due to the strong metal material of stainless steel.

The occurrence of the limit refers to a phenomenon in which the needle is retracted upward by the reflective pressure of the fabric, and thus the occurrence of the limit is directly connected to the number of optical fibers implanted by one operation and is not satisfied by one operation. The unsuccessful number of optical fibers are performed through two or three optical fiber transplants.

Therefore, the above-mentioned several times of work generate | occur | produces the problem which becomes a serious factor which hinders the improvement of productivity.

In addition, the needle as described above has the same diameter of the inlet and outlet side into which the optical fiber is inserted, which causes a very inconvenient problem when the operator inserts the optical fiber into the needle.

The present invention has been devised to solve the above-described problems, and it is possible to implant a larger number of optical fibers into the fabric so that the needles do not retreat even at the high reflection pressure of the fabric described above, and insert the individual optical fibers into the needles. It is an object of the present invention to provide a clamping device for convenient operation.

1 is a cross-sectional view of a pre- filed optical fiber implanter.

Figure 2 is an exploded perspective view of a conventional needle clamping device.

3 is a cross-sectional view of the needle mounted on the conventional needle clamping device.

4 is an exploded perspective view of the clamping device according to the present invention.

5 is a cross-sectional view of the needle mounted on the clamping device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

20: clamping device 21: mounting table

23: first support plate 24: holding plate

25: second support plate 30: needle

32: extension

In order to achieve the above object, the present invention has the following features.

The present invention is mounted on the frame of the optical fiber implanter, the support plate and the holding plate is provided on the mounting plate, a plurality of penetrating the upper and lower surfaces by flowing the holding plate on the adjacent mounting plate of the holding plate A clamping device provided with a driving mechanism for temporarily holding a needle, wherein the upper end of the needle is extended outward to form an extension, and an inclined groove corresponding to the extension of the needle also on the upper side of the through hole of the holding plate into which the needle is inserted. And a closing plate having a through hole communicating with an insertion path into which the optical fiber of the needle is inserted into an upper surface of the holding plate, so that the extension of the needle is configured to not be separated from the inclined groove of the holding plate.

Hereinafter, embodiments of the present invention to which the above characteristics are applied will be described in detail with reference to the accompanying drawings.

Figure 4 is an exploded perspective view of the clamping device according to the present invention, Figure 5 is a cross-sectional view of the needle is mounted on the clamping device according to the present invention.

4 and 5, the clamping device 20 includes a mounting table 21 mounted on the frame 1 of the optical fiber implanter, a support plate 23 mounted on and fixed to an upper surface of the mounting table 21, and A holding plate 24 slidably mounted on an upper surface of the support plate 23, a closing plate 25 fixedly mounted on an upper surface of the holding plate 24, and a holding plate 24 left, It consists of a drive mechanism 26 which flows to the right.

The mounting table 21 is provided with a mounting groove 21 in which the support plate 23 is mounted on the inside, and the support plate 23 is formed with a plurality of through holes 23a penetrating through the upper and lower surfaces. It is formed in an array corresponding to the arrangement of the needle (15).

The holding plate 24 is also formed with a through hole 24a in an arrangement corresponding to the support plate 23, and the inclined groove 24b is formed on the upper side of the through hole 24 to have an inclination that widens outward. .

Here, each of the through holes 23a and 24a of the support plate 23 and the holding plate 24 has an inner diameter such that the needle 30 is loosely fitted, and the inclined groove 24b of the holding plate 24 is provided. Corresponding to the expansion portion 31 is formed in the upper side of the needle 30, that is, the diameter of the needle 30 is enlarged at the inlet side end into which the optical fiber (B) is inserted.

The finishing plate 25 is fixedly coupled to the holding plate 24 to conceal the upper surface on which the needle 30 is mounted, and corresponds to an arrangement in which the needle 30 is mounted on the upper and lower surfaces, so that the through hole 25a is formed. do.

In addition, an expansion groove 25b extending outward is formed at an upper side of each through hole 25 of the closing plate 25 to facilitate insertion of the optical fiber B.

As described above, the drive mechanism 26 may be any one of a cam method and a lever method, and the description thereof is omitted since it is a general technical matter.

The clamping device configured as described above matches the through holes 25a and 24a of the finishing plate 25 and the holding plate 24 as shown in FIG. 5, and the needle 30 is inserted into the through holes 25a and 24a. The outer surface of the extension part 31) is aligned with the inclined groove 24b of the holding plate 24, and then the closing plate 25 is mounted on the upper part to conceal the upper part thereof.

In addition, when the holding plate 24 flows to one side in the above state, the holding plate 24 and the support plate 23 provide the needle 30 with a bite action, and thus the needle 30 is It is fixed in place.

As described above, the needle 30 mounted on the support plate 23 and the holding plate 24 may be supported by the finishing plate 25 to correspond to a high reflection pressure of the fabric.

As described above, the present invention improves productivity by inserting a larger number of optical fibers in a single operation by preventing the needle from retreating backward even at a higher reflection pressure of the fabric, and inserting the optical fiber into the needle. The effect is to make the penetrating action convenient.

Claims (2)

A mounting stand is mounted on the frame of the optical fiber implanter, and a support plate and a holding plate are mounted on the mounting stand, and a plurality of needles penetrating the upper and lower surfaces by moving the holding plate on an adjacent mounting stand of the holding plate. In the clamping device provided with a drive mechanism for fixed support to the The upper end of the needle 30 is extended outward to form an extension part 31, and the extension part 31 of the needle 30 is also above the through hole 24a of the holding plate 24 into which the needle 30 is inserted. ) And an inclined groove 24b corresponding to the end plate 25 having a through hole 25a communicating with an insertion path into which the optical fiber B of the needle 30 is inserted, on an upper surface of the holding plate 24. The needle clamping device of the optical fiber implanter, characterized in that the extension portion 31 of the needle (30) is configured so as not to be separated from the inclined groove (24b) of the holding plate (24). According to claim 1, Needle clamping device of the optical fiber implanter, characterized in that formed by forming an expansion groove (25b) extending outward on the upper side of the through hole (25a) of the closing plate (25).