KR100211628B1 - Support spring and its manufacturing method of video tape cassette - Google Patents

Abstract

It is an object of the present invention to simplify the manufacturing process of the support spring by forming the bend line formed in the elastic portion of the support spring only two-stage bending line and to change the form structure of the elastic force of the elastic portion effectively increase the elastic force of the elastic portion and support To make a support spring that does not decrease the elastic force of the elastic part even after a long time as the spring is assembled in the video tape cassette, and by making the support spring plural process, two support springs are produced at the same time in one die set Its characteristic is to improve production efficiency and productivity by doubling the production speed of support spring.

In order to achieve the object of the present invention, the elastic part of the support spring for a video tape cassette according to the present invention is to form only two bend lines, and the elastic part is raised inward between the first bend line and the second bend line. It is bent into a flat triangular or flat semi-cylindrical shape, and the bending elastic part is rounded slightly concave inward, so that the elastic force of the elastic part is increased so that the support spring is assembled to the video tape cassette to Provides a support spring that effectively compresses the reel when pressing both reels to be wound at a constant pressure and prevents the elastic force of the elastic portion from deteriorating even after a long time since the support spring is assembled, and manufactures the support spring according to the present invention as described above. Die, one support spring making device When the support spring is manufactured through the sequential machining process in the set, a plurality of sets of punches and dies are installed in the die set so that two support springs can be simultaneously produced each time the preprocessing process is completed.

Description

Support spring for video tape cassette and manufacturing method

1 is a perspective view of a support spring for a conventional video tape cassette.

2 is a schematic view of a support spring manufacturing apparatus for implementing the support spring manufacturing method according to the present invention.

Figure 3 is a flow chart of the process of the support spring is manufactured in accordance with the method for manufacturing a support spring according to the present invention.

4 (a) is a process diagram of another embodiment of the support spring according to the present invention.

4 (b) is a side view of the support spring according to the present invention.

* Explanation of symbols for main parts of the drawings

1: conventional support spring 3: die set

4: feed roller 5: support spring according to the present invention

51: support surface 52: elastic part

L ₁ : 1st bending line L ₂ : 2nd bending line

A: Material

S ₁ , S ₂ , S ₃ , S ₄ , S ₅ , S ₆ , S ₇ : the position where each process is performed in the die set

The present invention relates to a support spring for a video tape cassette and a method for manufacturing the same, wherein the support spring is installed inside the video tape cassette case and presses both reels to wind the video tape at a constant pressure, so that the video tape is wound or unwound. It has a function to stabilize the winding operation and loosening.

The conventional form of such a support spring has a form as shown in FIG. 1, but as shown in FIG. 1, the support spring has a plate body and a support surface 11 is formed at the center thereof. The two wing portions extending from the elastic portion 12 to form the elastic portion 12 is bent in three steps (121, 122, 123), the first bending line 121 and the second bending line 122 Is bent inward and the third bent line is bent outward, so that the elastic portion 12 is slightly bent around the support surface 11 as a whole, and the first bent line 121 and the elastic portion The long groove 13 is formed between the 2nd bending lines 122, respectively.

In addition, as an application for a method for manufacturing a conventional spring for a video tape, Patent Application No. 90-14292, which is a prior application of the present application, prepares a strip-shaped material having a predetermined width and thickness, and then fixes it using a piercing punch. Perforate the support and groove holes and notch processing at predetermined intervals to shape each resilient part except the support surface part, and then perform the bending process for the resilient part 1-3 times, and then the groove of the support surface As the pre-cutting process is repeated in sequence, the support springs of a certain shape are continuously processed one by one.

In addition, as a post-application of the prior application patent application No. 90-14292, the prior applicant is devised and filed, and the patent application 92-7168 is used in the process of manufacturing the support spring while using the manufacturing process sequence according to the patent 90-14292 as it is It is designed to continuously process a certain type of support spring without generating scraps between the elastic parts.

However, in the conventional support spring (1), the long groove 13 is formed to increase the elastic force of the elastic portion 12 in the state that the support spring is assembled to the video tape cassette and the elastic portion 12 is three steps It is bent to support spring (1) is assembled to the video tape cassette to the elastic portion 12 to elastically compress the reel, but actually the mandatory groove 13 of the elastic portion 12 is the elastic portion 12 Among the three-stage bend lines 121, 122, and 123, the elastic portion 12 could not be given an effect of increasing elastic force, and the second bend line 122 is an unnecessary bend line rather than the support spring 1. Not only adds the difficulty and complexity of the manufacturing, but also the support spring is lost to its original function as the second bend line 122 is extended when it is assembled in the video tape cassette of the support spring 1 and the long time flows. Were, a substantial degree conventional steel material thickness of the support spring, as the processing manor groove 13 of the elastic portion 12 that is, there is a problem to use a steel material having a material thickness of at least 0.28㎜.

In addition, the conventional support spring manufacturing method (Patent Application No. 90-14292 and Patent Application No. 92-7168) having the above problems is carried out sequentially by sequentially supplying a strip-like material in one die set, step 1 As one side surface of the resilient portion 12 is formed on both sides of the support surface while punching the fixed support hole and the recess hole or the square recess hole 111 on the support surface 11, and the support surface 11 as the second step. A bending process for performing a pre-cutting process from the square groove of the side to both ends of the elastic part 12, and forming a first bend in the elastic part as a third step, and a second bend in the elastic part as a fourth step Bending process to form a bending step, the fifth step to form the edge of the first bending line and the support surface in the elastic portion and the bending step of forming an embossing projection between the third bending line, the support surface 11 and the support surface as the sixth step One support soup by cutting the center of the recess between 11 It consisted of the process of manufacturing a ring.

Therefore, the material was put into the die set, and one support spring was processed sequentially so that the support springs were continuously manufactured one by one.

The conventional support spring manufacturing method as described above has a problem in that the production speed is very slow because the support springs are manufactured one by one in a die set.

Therefore, the present invention has been devised to solve the problems of the conventional support spring and its manufacturing method as described above. The object of the present invention is to manufacture a support spring by forming only a two-step bend line formed on the elastic part of the support spring. By simplifying the process and changing the shape structure of the part that the elastic force exerts, the elastic force of the elastic part can be effectively increased, and the support spring is manufactured to support the elastic force of the elastic part even after a long time since the support spring is assembled to the video tape cassette. The support spring according to the present invention can be used as a thin material of the steel sheet as a material by bending the elastic force of the elastic portion unlike the conventional one, and at the same time in one die set by pluralizing the manufacturing process of the support spring 2 support springs At the same time, the production speed of the support spring was doubled to improve production efficiency and productivity.

In order to achieve the object of the present invention, the elastic part of the support spring for a video tape cassette according to the present invention is to form only two bend lines, and the elastic part is raised inward between the first bend line and the second bend line. It is bent into a flat triangular or flat semi-cylindrical shape, and the bending elastic part is rounded slightly concave inward, so that the elastic force of the elastic part is increased so that the support spring is assembled to the video tape cassette to When pressing both the reels to be wound at a constant pressure, it provides a support spring that effectively squeezes the reels and prevents the elastic force of the elastic portion from deteriorating even after a long time since the support spring is assembled. By relying on the bent shape, When the support spring is manufactured through a sequential processing process in the die set, which is one support spring manufacturing device, in making the support spring according to the present invention as described above, a thin plate thickness can be used. A punch and a die were installed so that two support springs could be produced at the same time each time it was completed.

Hereinafter, a support spring for a video tape cassette and a method of manufacturing the same according to the present invention will be described in detail with the accompanying drawings.

2 is a view showing a support spring manufacturing apparatus according to the support spring manufacturing method for a video tape cassette according to the present invention. As shown in FIG. 2, the manufacturing method of the support spring according to the present invention is a servo motor (not shown). When the steel sheet is supplied to a die set (3), which is a kind of press, by a feed roller (4) driven intermittently and periodically by a guide post and a guider constituting the die set (3). By the interaction between the punching part 31 which elevates (not shown) by the die part 32 and the die part 32, the steel plate A is punched, cut and bent, and the support spring 5 of a certain form is continuously processed. In order to be manufactured sequentially, two punches and two dies are provided in the punch part 31 and the die part 32 of the die set 3, respectively.

3 shows a process in which the support spring according to the present invention is sequentially manufactured by the support spring manufacturing apparatus shown in FIG.

2 and 3 will be described the manufacturing process of the support spring for a video tape cassette according to the present invention.

In the first step, when the material A, which is a steel sheet, is transferred to the first step position S ₁ of the die set 3, two support springs described later by two punches having the same shape in the punch part 31 ( Four fixing pin insertion holes 511 and 511 'are formed in each of the support pieces 51 and 51' of 5 and 5 ', respectively (see also third (a)).

In the second process, after the first process is finished, the material A is transferred to the second stage position S ₂ of the die set 3 by the transfer roller 4, and then each supporting surface 51 formed in the first process is formed. Pilot pins formed in the die set are respectively inserted into the fixing pin insertion holes 511 and 511 'formed in the 51') to accurately set the position of the steel sheet material A in the die set 3 At the same time, the rounded contours of the two elastic parts 52 and 52 'on both sides of each support surface 51 are cut, and at the same time, the recess 521 of the elastic part 52 to be described later is Four long holes, 521h and 521h ', which are long and narrow holes, are punched out to make them (see also third (b)).

In the third process, after the second process is finished, the material A is transferred by the feed roller 4 to the three-stage position S ₃ of the die set 3, where the punch and the die c) As shown in the figure, the raw material A cuts the edges of the elastic portions 52 and 52 'around each of the support surfaces 51 and 51'.

That is, four lines are cut by being cut in a straight line from one side end of each of the two long bores 521h and 521h 'processed in the second step to the end of the material.

In the fourth process, when the third process is finished, the material A is transferred to the position 4 of the fourth stage S ₄ of the die set 3 by the transfer roller 4, in which the process shown in FIG. As shown in the drawing, circular groove holes 522h and 522h 'are punched in each of the support surfaces 51 and 51', respectively, to form two groove holes 522h and 522h '. It could be done in parallel.

In the fifth process, when the fourth process is finished, the work material A is transferred to the five-stage position S ₅ of the die set 3 by the transfer roller 4. Bending the portion having the outer shape of the elastic portion 52, 52 'of the shape of each elastic portion 52, 52'.

In other words, each elastic portion 52, 52 'is to take the form of a triangular column (shortened only the length of the roof line) lying down. Such an embodiment is shown in FIG. 3 (e).

However, the shape of the elastic portion 52 is not limited thereto, and may take the form of a semi-cylindrical cylinder lying as shown in FIG. 4 (a).

In addition, when forming the lying triangular prism or the lying semicircular column of the protruded shape in the bending process as described above, both ends are bent and the first bend line L ₁ and the second bend line L ₂ are processed simultaneously.

The first bent line L ₁ is concave inward, and the second bent line L ₂ is convex inwardly.

In the sixth process, after the fifth process is finished, the material A transferred by the transfer roller 4 is transferred to the six-stage position S ₆ of the die set 3, so that each elastic part 52 of each support spring is 52 ') is rounded (see also section 4 (b)).

The seventh step is the final step of the manufacturing process of the support spring (5, 5 ') according to the present invention, the material (A) is transferred to the seventh step position (S ₇ ) of the die set (3) in the material (A) A third (g) by cutting across the center of the long groove 522h between the two long holes 521h, which are the edges of the portion where the support surfaces 51, 51 'of each support spring will be formed; The support spring according to the present invention having a certain shape as shown in Figure 2 is to be produced at the same time.

The support spring 5 according to the present invention has a slightly longer plate-like body as shown in FIG. 3 (g), and is made of a steel plate, and has a support surface 51 at the center thereof. Two through-holes are formed in the center in the horizontal direction. The through-holes are fixed pin insertion holes 511 (not shown) into which the fixing pins already formed in the cassette are inserted when assembled on the video tape cassette. Each of the resilient portions 52 are formed in each of the grooves 511 in the form of semicircular grooves at the centers of both sides of the edges, and two resilient portions 52 forming two wings with the support surface 51 at the center thereof. Is bent in a lying triangular prism shape or lying in a semi-cylindrical shape, both elastic portions 52 are concavely curved (see also 4 (b)), and both ends of the lying triangular prism shape or the lying semi-cylindrical shape are The first bend and the second bend It can be seen that it is bent in a respective direction, each of the manor groove 521 taken long semicircular shape in the center side edge of the elastic part 52, it can be seen that there is formed, respectively.

In addition, each of the elastic part 52, a first folding line (L ₁₎ when the end to be referred to as fold line a first fold line (L ₁₎ of the side in is bent at a slight convex inwardly to adjacent the support surface when section of the bent fold line 2 curve (L ₂₎ of the second fold line when the called (L ₂₎ may been slightly concave inward to bend, the first folding line (L ₁₎ and the second folding line ( The elastic portion 52 between L ₂ is concave rounded inward.

The support spring 5 manufactured to have a predetermined shape as described above is bent into a triangular prism or a semi-cylindrical cylinder lying in the shape of the long groove 521 and the elastic portion 52 formed at both edges of the elastic portion 52. and, the two fold lines (L _1, L ₂₎ to have, and, and the first fold line elastic part 52 between (L ₁₎ and the second folding line (L ₂₎ is I rounding treated inside the As described above, the elastic part 52 is bent in a triangular prism shape or a semi-cylindrical shape lying in order to impart elastic force to the elastic part 52, and the long groove 521 is an elastic part. This is to facilitate the rounding process by avoiding any distortion of the plate-like material (A) when rounding (52), and the ends of both elastic parts 52 by the rounding process of the elastic part 52 is a video tape When the video tape is assembled to the cassette The support spring is assembled to the video tape cassette by forming only two bend lines (L ₁ , L ₂ ) on both ends of the raised lying triangular column or the lying semi-circular shape of the elastic part so as to be in close contact with the reel. Even if it flows, the elastic force of the elastic part, which is the inherent property of the support spring, is not easily deteriorated, and the thickness of the steel sheet, which is a raw material, is reduced to about 0.2 mm by the triangular column or the flat cylinder lying down. It is a feature of the support spring according to the invention that the original function of the support spring is not degraded.

The support spring manufacturing method according to the present invention, which is used in the support spring manufacturing apparatus for manufacturing the support spring as described above, is simultaneously excavated when performing a bending step of lying triangular prism or lying semicylindrical for the purpose of increasing the elastic force of the elastic part. Since two horizontal bending lines L ₁ and L ₂ are processed in the fifth process, the simpler operation can be called as compared to the processing of the elastic part. Therefore, the defect rate of the product is reduced and the material A is processed in the third process. Since the process of cutting the resilient part is performed after punching the grooves of the manor in the second process in advance, the defect rate in the product will be reduced by the short cutting length, and two support springs are simultaneously made by one die set. Since the production speed can be doubled, the overall productivity of the support spring will be improved.

Claims (2)

As the plate-shaped body, the support surfaces 51 and 51 'are formed in the center, and two penetrating pin insertion holes 511 and 511' are formed in the transverse direction of the support surfaces 51 and 51 '. Grooves 522h and 522h 'are formed in the centers of both sides of the surfaces 51 and 51', respectively, and elastic portions 52 and 52 'are formed on both sides of the support surfaces 51 and 51'. Inba, thus, both ends of the elastic portion (52, 52 ') is formed with a first bend line (L ₁ ), and a second bend line (L ₂ ), the first bend line (L ₁ ) and the second section The elastic portions 52, 52 'between the curves L ₂ are concave rounded inward, and the free ends of the elastic portions 52, 52' have a rounded shape, and both sides of the elastic portions 52, 52 '. Support spring for a video tape cassette, characterized in that the semi-circular long grooves (522h, 522h ') is formed in the center. A support spring manufacturing method in which a material is continuously supplied by a servo motor to a die set consisting of a plurality of punches and a plurality of dies each having a plurality of punches in accordance with a processing order, so that the processing is carried out in a predetermined form. A first step of forming four fixing pin insertion holes 511 and 511 'by a punch in the longitudinal center of (A), and a pilot pin formed in the die set 3 at the fixing pin insertion holes 511 and 511'. This insert is set to the position of the steel sheet material (A) while cutting the ends of the two resilient portions (52, 52 ') around the two support surfaces (51, 51'), respectively, in a rounded shape and the four long holes ( 521h, 521h '), the second process of punching from one end of each of the four long holes 521h, 521h' to the end of the steel plate material A, and each of the supporting surfaces 51, A fourth step of punching circular groove holes 522h and 522h 'into 51'), and four The elastic portion 52, 52 'is formed to have a triangular prism or a semi-cylindrical shape lying down so as to be raised inward, and the first and second bend lines L ₁ and L _{2 in} the horizontal direction are simultaneously folded. A fifth step of bending, a sixth step of concave rounding inwardly between the first bend line L ₁ and the second bend line L ₂ , and the support surface 51 The two support springs 5 and 5 'are simultaneously manufactured by cutting between the support surfaces 51' and crossing the centers of the recess holes 522h and 522h 'between the two mandatory holes 521h and 521h', respectively. A method for manufacturing a support spring for a video tape cassette in which the support spring is processed in the order of 7 steps.