KR0154357B1 - Film leader transfer roller of processing rack for automatic developing device - Google Patents

Abstract

The present invention is a film of a processing rack of an automatic film developing apparatus, comprising a sprocket which is driven and rotated from the outside, means for conveying the film leader along a predetermined path by rotation of the sprocket, and means for guiding and supporting the film leader conveying means. A leader feed mechanism, which relates to a film reader feed mechanism of a processing rack of an automatic film developing apparatus, wherein the film leader 25 is a chain 24. The chain 24 is composed of a plurality of unit body 40 and a plurality of pins 48, the unit body 40 of the two pin-shaped inner portion 42 and the inner portion 42 of the opposite facing each other and extending in parallel A connecting portion 47 connecting the upper portion, two plate-shaped outer portions 41 which are spaced apart from each other and larger than the gap between the inner portions 42 and facing each other in parallel to the inner portion 42, connect the outer portions and the inner portions. It is composed of two intermediate portions 43, a projection 46 is formed in the center of the upper surface of the connecting portion 47, the inner portion 42 is formed with openings 44 that vertically penetrate both inner portions, and the outer portion ( 41 are formed with openings 44 penetrating both inner portions vertically, and outer portions 41 are formed with openings 45 penetrating both outer portions vertically, the openings 44 and 45 having the same outer diameter. Having a diameter, an inner portion 42 of one unit is inserted between the outer portions 41 of adjacent units The pins 48 are inserted into the openings 44 and 45.

Description

Transport mechanism of film leader of processing rack for film automatic developing apparatus

1 is a schematic diagram of a film automatic developing apparatus.

2 is a front view of a treatment rack.

FIG. 3 is a cross-sectional view taken along the line III-III of FIG.

4 is a sectional view taken along the line IV-IV of FIG.

5 is a front view of the film leader.

6 is a plan view of a unit according to the present invention.

7 is a side view of the unit according to the present invention.

8 is a bottom view of the unit according to the present invention.

9 is a connection state of the unit according to the present invention.

10 is a rotation state of the unit according to the present invention.

11 is a front view of the wheel.

* Explanation of symbols for main parts of the drawings

20: processing rack 21: shaft

22: sprocket 23: wheel

24: Chain 25: Film Reader

26, 27, 28: rollers 29, 44, 45: opening

31: outer flange 32: center flange

33: guide 40: unit

41: outer part 42: inner part

43: middle part 46: projection

47: connection part 48: pin

The present invention relates to a film automatic developing apparatus, and more particularly, to a conveying mechanism of a film leader in each processing rack of a film automatic developing apparatus.

The automatic film developing apparatus is a device that automatically and accurately performs a process of developing, visualizing, bleaching, washing, fixing, and drying a visualized latent image formed on a photographed film. The film automatic developing apparatus is used to immerse the film attached to the film reader, which is installed in each of the processing tanks, such as a development treatment tank, a bleaching treatment tank, a fixing treatment tank, a washing tank, a stabilization tank, and the like containing each treatment solution. And a processing rack for transferring, a drying chamber for drying the developed film, a film collecting unit for collecting the film leader and the film attached thereto, and a control unit for controlling the operation of the entire apparatus.

The treatment rack is a device installed in each treatment tank to pass the film leader and the film attached thereto through a predetermined path so that the film can be treated. The treatment rack has a predetermined length for each treatment tank, and the longer the film is immersed in the treatment solution, the longer the treatment rack length is. The treatment rack includes a frame, a roller, a film leader, a transfer mechanism, and the like. The film leader transport mechanism is driven from the outside of the processing rack and forms a transport path of the film leader together with the rollers to serve to accurately transport the film leader at a predetermined speed.

The film leader is a plastic sheet having a length and width and a perforated opening at regular intervals that engage the transport mechanism at the central portion in the longitudinal direction. The film is taped to the film leader and led by the film leader to pass through each treatment bath. One of the conventional film leader transfer mechanisms consists of two or more sprockets installed above and below the processing rack to rotate the sprockets so that the film readers whose openings in the center thereof are engaged with the teeth of the sprockets are transferred. Since the film reader is supported by the chuck only, the support of the film leader is limited to a small area, and in particular, the film leader is unstable because the film leader is not supported between the sprockets, and 3 to 5 sprockets are usually used depending on the length of the processing rack. This has to be installed, the number of parts increases, there was a disadvantage that a complex structure.

In order to solve this disadvantage, a transfer mechanism using a timing belt made of an elastomer having projections engaging with the opening in the center portion of the film leader has been used. That is, the driving force transmitted from the outside of the processing rack drives the timing belt through the timing wheel, and the timing belt moves the film leader by engaging the outside projection with the opening of the film leader, and the film reader is applied to the entire length and width of the timing belt. Since the contact with the timing belt over, the support and transport of the film leader is stabilized. However, in this method, since the timing belt is integrally molded, a large mold is required, and a plurality of molds are required to form a timing belt of a predetermined length required for each processing rack.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an improved film leader transfer mechanism, which is stable and easy to manufacture and support of a film leader.

For this purpose, in the present invention, the sprocket which is driven and rotated from the outside, the means for conveying the film reader having a plurality of openings in the center portion along a predetermined path by the rotation of the sprocket, and for guiding and supporting the film leader conveying means In the film leader conveyance mechanism of the processing rack of the film automatic developing apparatus constructed as a means, the film leader conveying means uses a chain composed of a plurality of units and a plurality of unit connecting pins, each unit engaging an opening of the film leader. Provided is a film leader transfer mechanism having protrusions. The unit forming the chain has a single shape consisting of an inner portion, an outer portion, an intermediate portion, and a connecting portion, and an inner portion of one unit is connected to a pin by overlapping with an outer portion of an adjacent unit, and an opening formed at the center of the film leader is connected to an upper portion of the connecting portion. It is preferred that it has an interlocking protrusion, and the outer side has a straight portion in which the upper surface is in contact with the film leader and right angled edges leading to both ends of the straight portion.

In the present invention, since the chain is used as a feed mechanism of the film reader, its length can be adjusted by increasing or decreasing the number of chain units, so that only one die can be produced, and the disassembly and assembly are simple, so that the transport of the film reader is stable. The straight portion of the outer portion of the unit has the effect of ensuring separation of the film leader at the exit of the processing rack.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing the structure of a film developing apparatus. The film developing apparatus shown in FIG. 1 includes a film conveying part 1, a developing treatment tank 2, a bleaching treatment tank 3, a fixing treatment tank 4, a washing tank 5, a stabilization treatment tank 6, It includes a drying chamber 7, a film collecting unit 8, a film collecting container 9 and a control unit 10. In the film conveying section, the film separated from the cartridge and whose tip is attached to the film leader is conveyed to the developing treatment tank 2. The film attached to the film leader is developed, bleached, fixed, washed with water, and stabilized as shown in FIG. 1, and then dried in the drying chamber 7 and collected in the film collecting unit 8.

2 to 4 show the structure of the processing rack 20. When the driving force is transmitted from the outside of the processing rack through the shaft 21, the sprocket 22 fixed to the shaft 21 and the chain 24 wound around the wheel 23 move the film leader 25 in the direction of the arrow. (26) is wrapped and moved to pass between the pressing rollers (27, 28). The film, led by the film leader, is immersed in the treatment solution at the bottom of the treatment rack and subjected to development, bleaching, and fixing. The treatment time varies depending on the treatment process and is proportional to the length of the film immersed in the solution, so the dimensions of the treatment rack also vary according to the treatment process. Accordingly, the length of the chain must be different for each processing rack, and this is achieved by increasing and decreasing the number of units (see FIG. 6 and FIG. 6) constituting the chain.

5 shows a film reader. The film leader 25 is a plastic sheet having openings 29 engaging the chain projections 46 (see also FIG. 6) in the longitudinal direction at the center, and the film is placed at two points at the lower end as indicated by the two-dot chain lines. Attached by tape.

6 to 8 show the unit 40 forming the chain 24. 9 is a view illustrating a part of the chain 24 formed by connecting the unit bodies 40. The unit 40 has two plate-shaped outer portions 41 and two plate-shaped inner portions 42 facing each other and extending in parallel, respectively, an intermediate portion 43 connecting the outer portion and the inner portion, the inner portion 42 and the outer portion ( 41 has openings 44 and 45 which vertically pass through 41, respectively, and connecting portions 47 which connect upper surfaces of the inner portions 42 and projections 46 formed thereon. The lower portion of the connecting portion 47 is formed with a space for the teeth of the sprocket 22 meshing with the unit connecting pin, the spacing between the inner portion 42 is similar to the thickness of the teeth of the sprocket 22 and the chain swings from side to side It is desirable to prevent. As shown in FIG. 9, the inner part 42 of one unit 40 and the outer part 41 of the unit adjacent thereto overlap and the pins 48 are connected to each other through the openings 44 and 45. The projection 46 is engaged with the opening 29 of the film leader 25 so that the film leader 25 also moves in accordance with the movement of the chain. The outer portion 41 of the unit has a straight line, that is, a portion in contact with the film leader, and has a right angle edge at both ends thereof. 10 is a diagram illustrating a moving state of the chain and the film leader near the sprocket. By the above-described configuration of the unit body 40, as shown in FIG. 10, the film leader 25 is in contact with the chain when the chain 24 is moved vertically, and the chain starts to rotate along the sprocket. In the portion, since the straight upper surface of the outer portion 41 of the unit supporting the film leader is inclined, the film leader is easily separated from the unit. That is, in the prior art, the film leader is not easily peeled off from the projection of the timing belt due to the friction between the projection and the opening, and thus, the film reader easily comes into the sprocket. The opening facilitates the peeling off of the projections, allowing the film leader to securely enter the guides (located at the top of FIG. 10, not shown) provided between the processing racks for movement to the next processing rack. The material of the unit must have chemical resistance, dimensional stability, abrasion resistance and strength necessary for the transport of the film reader, etc., so that it can be made of an elastomer such as engineering plastic or rubber.

11 shows a wheel 23 supporting the chain at the bottom of the treatment rack. The wheel 23 has an outer flange 31 and a center flange 32. The wheel is rotatably supported and rotates as the chain 24 moves. The outer flange 31 serves as a guide of the outer portion 41 of the unit 40 and the center flange 32 is surrounded by the inner portions 42 and the pins 48 of the unit 40 and their guides. Play a role. That is, the wheels 23 assure the correct rotation of the chain in the plane of movement of the chain 24, as shown in Figure 4 and prevents the left and right flow of the chain. Since the wheel 23 is not subjected to the force of the sprocket compared to the sprocket 22, the strength may be smaller or the shape is simple, so that the manufacture and assembly with the chain is easy. If the distance between the sprocket 22 and the wheel 23 is large, it is preferable to guide the chain 24 even in the middle of the moving path of the chain by providing the guide portion 33 as shown in FIG.

The advantages of the film leader transfer mechanism of the processing rack of the automatic film developing apparatus according to the present invention having the above-described configuration are summarized as follows.

First, by using a chain, it is possible to make a chain of a required length by increasing or decreasing the number of units, unlike a timing belt, without requiring a large number of molds. Second, because of the unique Y-shaped shape of the unit, the unit is overlapped with each other to form a chain, so assembly is simple and the transport of the film leader is stable. Third, the unit in contact with the film leader has a straight portion with right angled corners to ensure separation of the chain and film leader as the film leader exits the processing rack. Since the chain is guided to the wheel at the bottom of the processing rack and only between guides fixed between the sprocket and the wheel, the number of parts required is greater than that of a sprocket that requires a large number of sprockets or a timing belt that requires a timing wheel to move up and down. Significantly reduced.

The present specification discloses a film leader transfer mechanism of a processing rack of an automatic film developing apparatus, but the present invention is not limited thereto, and may be used in a field requiring a mechanism for accurately transferring a sheet between rulers.

It is to be understood that the present invention is not limited to the above-described embodiments and includes all modifications that can be easily implemented by those skilled in the art without departing from the scope of the appended claims.

Claims (4)

A sprocket which is driven and rotated from the outside, means for conveying a film reader having a plurality of openings in a central portion along a predetermined path by rotation of the sprocket, and means for guiding and supporting the film leader conveying means. In the film reader transfer mechanism of the processing rack, the film leader 25 transfer means is a chain 24 composed of a plurality of units 40 and a plurality of unit connecting pins 48, wherein each unit is the film reader ( And a projection (46) engaging the opening (29) of the film (24). According to claim 1, wherein the unit body 40 is formed between the two inner plate portion 42 of the plate facing each other and parallel to each other, the connecting portion 47 for connecting the upper portion of the inner portion 42, the inner portion 42 between the It consists of two plate-shaped outer portions 41 facing each other in parallel with the inner portion 42 and spaced apart from the interval of the two, and two intermediate portions 43 connecting the outer portion and the inner portion, The protrusion 46 is formed at the center of the upper surface, and openings 44 penetrating both inner portions vertically are formed in the inner portions 42, and openings 45 penetrating both outer portions vertically are formed in the outer portions 41. Are formed, the openings 44 and 45 have the same diameter as the outer diameter of the pin 48, and the inner portion 42 of one unit is inserted between the outer portions 41 of the adjacent unit and the openings 44 and 45 are formed. The pin 48 is inserted into the processing rack of the automatic film developing apparatus, characterized in that Reader feed mechanism name. The film leader transfer mechanism of the processing rack of the film automatic developing apparatus according to claim 2, wherein the upper portion of the outer portion (41) of the unit body (40) is a straight portion having right angles at both ends thereof. 3. The rotatable wheel (23) according to claim 1 or 2, wherein the guide and support means comprise a rotatable wheel (23) installed at a position opposite to the sprocket (22), the wheel (23) having a pair of outer flanges (31) at both ends. ) And a center flange 32 in the middle thereof, the center flange 32 is surrounded by the inner portions 42 and the fins 48 of the unit 40, and the outer flanges 31 are formed of the unit 40. The film leader transfer mechanism of the processing rack of the automatic film developing apparatus characterized by being located in close contact with the outer side (41).