JPS6385626A - Apparatus for producing barrel sheet of film cartridge - Google Patents

Abstract

PURPOSE:To reduce the amt. of metallic sheets, which are material, to be used by cutting off the four corners of sheets then bending the sheets to a prescribed shape which is an approximately boat shape in section in a cutting station and bending station. CONSTITUTION:The corner cutting station 11 consists of a known press device which cuts the four corners of the rectangular sheet 20. The small-diameter bending station 12 consists of a press device, as well, which imparts a small- diameter bend R to the two corners among the notched parts of the sheet 20. The bend R is provided to the sheet 20 is order to permit easy fitting of the cap of a film cartridge to the sheet bend to a cylindrical shape. A folding station 13 folds one end 20a of the sheet 20. A both end bending station 14 in succession thereto bends one end 20a of the sheet 20 and the other end 20b thereof to a prescribed shape by press forming. The sheet 20 is formed to the approximately boat shape in section by the above-mentioned stages.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to a method of manufacturing a body plate of a cartridge for storing a photographic roll film.

(Prior art) For example, 35m for photography! R-roll film and the like are used while being stored in a cartridge. As is well known, this cartridge basically consists of a cylindrical copper plate, a spool housed within the body plate, and a cap that closes the top and bottom of the body. A light-shielding velvet ribbon commonly called terempu is attached to the inner surface of the film outlet of the shell.

Generally, in order to form the above-mentioned patrone copper plate, as shown in FIG.
The material was supplied to a press machine 51, and was subjected to punching and bending using the general-purpose press device 51. Generally, this bending is performed to the point where the book holder 50 is shaped into a substantially boat-shaped cross section as shown in FIG. It is pasted.

The invasion 5M board 50 is disclosed in, for example, Japanese Patent Application Laid-Open No. 59-143841.
As shown in the above publication, the velvet ribbons 52 are bent into a substantially cylindrical shape so as to overlap each other, a spool wound with a film is housed therein, and then a cap is formed.

<Problems to be Solved by the Invention> However, as described above, in the method of punching and forming the cartridge body plate using a general-purpose press device, a large residual portion remains on the thin metal plate that is the material of the copper plate after punching. Therefore, there was a problem that the efficiency of material utilization was not good.

In addition, when punching and bending are performed using a general-purpose press machine, both punching and bending are performed with the same stroke, so for example, the punching cutter may penetrate too deep but the bending will be shallow. It becomes difficult to set both strokes optimally. In this case, the accuracy of processing or molding will be impaired.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a method for manufacturing a cartridge body plate that can utilize thin metal plates as materials with almost no waste and can form the cartridge body plate with high precision.

(Means for Solving the Problems) The method for manufacturing a cartridge body plate of the present invention is such that the vertical and horizontal dimensions are the same as the unfolded vertical and horizontal dimensions of the cartridge body plate, without processing a large thin metal plate. The thin plate cut into the above-mentioned dimensions is sequentially and intermittently conveyed by a conveying means, and there are cutting stations and bending stations arranged along this conveying means. At the station, the four corners of the thin plate are cut off into a predetermined shape, and then bent into a predetermined shape having a substantially boat-shaped cross section as described above.

(Function) If a thin plate with the above-mentioned dimensions is used and the four corners of the thin plate are cut off to form a predetermined shape, the metal 7a of the material, if a large remaining portion is It will no longer occur.

Furthermore, if the cutting and bending of the thin plate are performed at separate stations, the processing strips in each process can be individually and optimally set, and the cartridge body plate can be formed with high precision.

Furthermore, because the process is divided, the molds are each made into a single piece, so it's often like a progressive mold. : It does not need to be an S-valent type.

Furthermore, the use of the feed bar allows for increased speed.

(Example) Hereinafter, the present invention will be described in detail based on an example shown in the drawings.

FIG. 1 shows an example of an apparatus for forming a cartridge body plate by the method of the present invention. The device basically consists of a sheet feeding station 10 and a corner cutting station 11.
, the small-diameter bending station 12, the happy bending station 13, the both-end bending station 14, the thin plate transport rail 15.15 extending below each of the above stations 10 to 14, and the space between these rails 15.15. , and a feed bar 16 that reciprocates intermittently in the direction of the arrow. The stations 10 to 14 are arranged so that the workpiece setting sections are arranged at equal pitches.

The feed bar 16 is provided with a claw 18 51Il11 which is biased by a spring 17 and protrudes onto the top surface 16a of the bar, as shown in a side cross-sectional shape in FIG. The claws 18 are arranged at the same pitch as the arrangement pitch of the workpiece setting sections of each of the stations 10 to 14. A large number of metal thin plates 20 for cartridge body plates are stored in the thin plate supply station controller 10, and these thin plates 20 are loaded one by one onto a rail by a known feeding means (not shown) such as an air suction cup. 15.15 and feed bar 16. When the iQ plate 20 is fed in this way, the feed bar 16 is stopped at the leftmost position in FIG. 1, and the thin plate 20 is fed in front of the leftmost claw 18 (on the right side in FIG. 1). . The thin plate 20 thus supplied onto the feed bar 16 is cut into a rectangular shape as shown in FIG. 3(a), and its longitudinal and lateral dimensions are made equal to the developed longitudinal and lateral dimensions of the cartridge body plate.

After feeding the thin plate 20, the feed bar 16 is moved forward by one pitch of the claw 18. As a result, the thin plate 20 that was being fed to the front side of the leftmost claw 18 is moved forward by one pitch of the claw 18. Move forward by pushing the corner cutting station 1.
It is stopped at a predetermined position within 1. In this way, feed bar 16
When the is moved, the thin sheets 20 that were in the corner cutting station 11 are moved to the small diameter bending station 12, and the thin wires 20 that were in the small diameter bending station 12 are moved to the edge bending station 13, one by one. Sent to the station ahead.

Corners I, I] The cutting station 11 is comprised of a known press device, and cuts out the four corners of the rectangular ill plate 20 to form the thin plate 20 into the shape shown in FIG. 3(b). When the corner cutting station 11 operates as described above, the small diameter bending station 12, the seam bending station 13, and the end bending station 14 also operate at the same time.

The small-diameter bending station 12 also includes a press device and applies small-diameter bends to two corners of the cutout portion of the sheet 20 (see FIG. 3<C>).

This bending is to facilitate fitting of the cap of the cartridge into the thin plate 20 which is later bent into a cylindrical shape as shown in FIG. The bending station 13 bends one end 20a of the thin plate 20 and bends the thin plate 20 into a third
Figure (d) Molding into the state shown. Next, the both end bending station 14 bends the above-mentioned end portion 20a and the other end portion 20b of the thin plate 20 into a predetermined shape by press forming.

Thereafter, by going through the process L, the thin plate 20 is made as shown in FIG.
), it has a roughly boat-shaped cross section. The booklets 20 formed in this way are discharged from the both-end bending station 14 by the feed bar 16, and are fed, for example, directly to a velvet ribbon pasting station, or, after being accumulated, are fed one by one to a velvet ribbon pasting station.
A velvet ribbon is attached to both ends 20a and 20b. Thereafter, the thin plate 20 is bent into a cylindrical shape so that the velvet ribbons 52 and 52 are overlapped with each other, as shown in FIG. . This bending process, storing the spool, and fixing the cap in one place can be performed by conventionally known methods.

As shown in FIG. 2, the winter melon 18 of the feed bar 16 biased by the spring 17 has a surface opposite to the surface that contacts the thin plate 20 that is obliquely formed. Therefore, when the feed bar 16 returns to its original position after sending the thin plate 20 to the next station, that is, when it returns to the left in FIG. Since the thin plate 20 set in each of these stations 11 to 14 is not returned to the thin plate supply station 10 side, the thin plate 20 is not returned to the thin plate supply station 10 side.

The angle of the seam bending at the seam bending station 13 is
In this method, the bending station 1 may be slightly modified depending on boat width and post-processing.
This bending angle can be changed by changing the link length of No. 3.

Note that the small diameter bending station 12, the edge bending station 13, and the both end bending station 14 may be replaced with one press molding device. Even if you do so,
If the shape of the notches at the four corners of the thin plate 20 is to be changed, it is sufficient to simply change the mold of the corner cutting station 11, and for other shape changes, it is sufficient to simply change the mold of the press forming apparatus. I can handle it.

As described above, by using the thin plate 20 cut to the same dimensions as the length and width M method for developing the patrone copper plate, for example, 135 mm
In the case of film, the cartridge body can be formed from 3360 m2 of sheet metal 20.

When forming a cartridge body plate using a general-purpose press device as in the past, 3486 mrR2 is required for each body plate using 135 films.

Calculating the above example, the method of the present invention can reduce the amount of metal sheet used by about 3.8%.

(Effects of the Invention) As described above in detail, according to the present invention, the amount of thin metal plates used for the cartridge body plate can be clearly reduced compared to the conventional method, and the cost of the film can be reduced.

Furthermore, in the method of the present invention, the four-way cutting process and the bending process of the thin plate are performed at separate work stations, so that when the molded shape of the patrone copper plate is changed, minimal expansion and bending is required. Furthermore, the machining conditions of each station can be optimally set independently of those of other stations, making it possible to finish the cartridge body plate with higher precision.

[Brief explanation of the drawing]

Fig. 1 is a plan view showing an example of an apparatus for carrying out the method of the present invention, Fig. 2 is a side sectional view clearly showing a part of the means for transporting thin sheets of reeds, and Fig. 3 is a method of the present invention. FIG. 4 is a perspective view showing a cartridge copper plate formed by the method of the present invention and then bent into a cylindrical shape. FIGS. 5 and 6 are a perspective view showing a conventional cartridge body J plate. It is an explanatory view explaining a board manufacturing method. 11... Corner cutting station 12... Small diameter bending station 13... Edge bending station 14... Both ends bending station 16... Feed bar 20... Thin plate 20 first
Figure 2 Figure 3 HK ;<t, ID DoshiO No. 4
Figure 5 Figure 6

Claims (1)

[Scope of Claims] A thin metal plate cut so that its longitudinal and lateral dimensions are the same as the expanded longitudinal and lateral dimensions of the cartridge body plate is sequentially and intermittently carried by a carrying means, and a cutting station arranged along this carrying means; A method for manufacturing a cartridge body plate, characterized in that, in a bending station, the four corners of the thin plate are cut off into a predetermined shape, and then the thin plate is bent into a predetermined shape having a substantially boat-shaped cross section.