JPH0259744A - Self-processing film unit - Google Patents

Abstract

PURPOSE:To lower the cost of a trapping means by constituting the trapping means of a sandwich body which sandwiches a layer contg. a crosslinking type acidic high-polymer electrolyte having high water absorbing power with layers having liquid diffusivity. CONSTITUTION:The sandwich body 30 which sandwiches the crosslinking type acidic high-polymer electrolyte (powder) 25 with stocks 24 of filter paper, water soluble paper, news paper, non-woven fabrics, etc., having the good liquid diffusivity via polyethylene lamination layers 23 is bonded to the water absorptive layer 22 consisting of filter paper, water soluble paper, news paper, non- woven fabrics, etc., of the trapping member 21. Alkali neutralizing power and alkali and water absorbing power are provided to the sandwich body 30 by using the crosslinking type acidic high-polymer electrolyte 25. The need for a net-like nylon woven fabric for neutralizing the alkaline and absorbing the alkali and water is eliminated in this way and the cost reduction is enabled.

Description

Detailed Description of the Invention (Industrial Field of Application) The present invention relates to a self-processing photographic film unit used in an instant camera, etc., and more specifically, to a self-processing photographic film unit that captures surplus processing solution generated during processing. A self-processing photographic film unit with improved trapping means.

(Prior Art) A self-processing photographic film unit, which is generally referred to as an instant film, usually includes a film unit sheet 1 having a photosensitive layer, a cover sheet 2, and these sheets 1.2 as shown in FIG. a connecting member 3 that connects the film sheets 1 and 3 in an overlapping state; a processing liquid container 4 that stores a developing processing liquid (hereinafter simply referred to as "processing liquid") and is disposed at one end of the film sheet 1; The trap means 5 is disposed at the end and traps excess processing liquid (Japanese Patent Application Laid-Open No. 62-91940).

The coupling member 3 is made of an intermediate sheet, tape, or the like, and has an opening 3a that defines an image forming area. Therefore, in this opening 3a, both sheets 1. A space for developing the processing liquid is formed between the two. When the exposed film unit IO of the film sheet 1 is passed between the pair of processing liquid spreading rollers from the end on the processing liquid container 4 side, the processing liquid container 4 is torn open and the processing liquid stored therein is released. The liquid is spread in the space with a uniform thickness.

The photographic latent image formed on the film sheet 1 is developed by the processing liquid thus developed. The excess processing liquid that is pushed out toward the rear end of the unit (that is, toward the trap means 5) even after being spread in the space is captured by the trap means 5.

(Problems to be Solved by the Invention) The trap means 5 described above needs to have a space for instantaneously trapping surplus processing liquid, and also needs to have a function of neutralizing the alkaline surplus processing liquid.

Therefore, as the trap means 5, a net-like nylon fabric that forms a space for capturing excess processing liquid is fixed to a water absorption layer made of filter paper or the like and absorbing processing liquid via a polyethylene laminate layer. A trap member made of a woven fabric impregnated with a neutralizing resin is often used, which is enclosed by the end of the connecting member 3.

However, since the above-mentioned trap means uses a net-like nylon fabric as the material for forming the space for capturing excess processing liquid, the manufacturing method requires expensive materials, resulting in high costs and the need for self-processing photographic film units. This was a factor that hindered cost reduction.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a self-processing photographic film unit in which trap means for trapping surplus processing liquid can be formed at low cost.

(Means for solving the problem) A self-processing photographic film unit as a means for solving the above problem includes a film sheet as described above,
In a self-processing photographic film unit comprising a cover sheet, a binding member, a processing liquid container, and a trap means, the trap means includes a layer containing a cross-linked acidic polymer electrolyte having high water absorption capacity through a layer having liquid diffusivity. It is characterized by being composed of a sandwich body formed by sandwiching it.

In this trapping means, the crosslinked acidic polymer electrolyte is generally polyacrylic acid.

Examples include crosslinked polystyrene sulfonic acid, maleic anhydride, CMC, etc., but preferred is crosslinked polyacrylic acid that has been neutralized to form an alkali salt, with its C00II group (carboxyl group) ) A crosslinked polyacrylate having a residual rate of 701no1% or more, and even more preferably a crosslinked polyacrylic acid.

Further, a sandwich body comprising a water absorbing layer and a layer containing a crosslinked acidic polymer electrolyte having high water absorption capacity sandwiched between the trapping means and the layer having liquid diffusivity bonded to the water absorbing layer; It can also consist of a plastic net connected to the body.

(Function) According to the above structure, the trap means for trapping surplus processing liquid is formed by a sandwich body in which a layer containing a crosslinked acidic polymer electrolyte having high water absorption capacity is sandwiched between layers having liquid diffusivity. , this sandwich body is given alkali neutralization ability and alkali and water absorption ability, so conventionally,
The net-like nylon woven fabric that was required for alkali neutralization, alkali, and water absorption is no longer required.

Further, the trap means may be formed into a sandwich body as described above.
A configuration in which an inexpensive plastic net is combined is particularly effective when a large amount of surplus processing liquid is present, and in this case as well, a net-like nylon woven fabric is not necessary.

This makes it possible to effectively capture and neutralize excess processing liquid without using a net-like nylon fabric, which is an expensive material, and thus it is possible to reduce the manufacturing cost of the trap means.

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

FIG. 1 shows a self-processing photographic film unit 10 according to one embodiment of the invention, and FIG. 2 shows in detail the trapping means 5 of this film unit IO. This film unit 10 is different from the conventional one in the trap means 5. Everything else is formed similarly to the conventional product, and includes the film sheet 1, cover sheet 2, coupling member 3, and processing liquid container 4 as described above.

As shown in FIG. 2, the trap means 5 forms a space 20 by folding back the end 3b (trap cover) of the coupling member 3, which is longer than the film sheet 1 and the cover sheet 2, toward the center of the unit. A band-shaped trap member 21 is fixed and accommodated in this space 20 with an adhesive 28. Note that the space 20 is the trap member 2
The trap cover 3b is joined to the cover sheet 2 on the outside of both side ends (left and right ends in FIG. 1) of the trap cover 1, and the tip of the trap cover 3b is joined to the cover sheet 2 at the same time. . In addition, the trap cover 3b has a space 2 formed as described above.
A plurality of small exhaust holes 6 are provided to communicate the 0 with the outside. The trap member 21 is disposed over a large number of small openings 2a formed side by side at the end of the cover sheet 2,
Moreover, the cover sheet 2 and the coupling member 3 are not directly joined at this end.

Therefore, when the processing liquid is spread between the film sheet 1 and the cover sheet 2 as described above, the excess processing liquid is distributed through the gap between the cover sheet 2 and the connecting member 3.
Then, it enters the space through the booth opening 2a.

Next, the trap member 21 will be explained in detail with reference to FIG. For example, the water absorbing layer 22 made of P paper, water-soluble paper, newsprint, nonwoven fabric, etc. may include a polyethylene laminate layer 2.
A sandwich body 30 in which a cross-linked acidic polymer electrolyte (powder) 25 is sandwiched between materials 24 having good liquid diffusivity such as filter paper, water-soluble paper, newsprint, and nonwoven fabric is bonded via 3. The above-mentioned crosslinked acidic polymer electrolyte is sandwiched in order to give this sandwich body 30 an alkali neutralization ability and an alkali and water absorption ability. In other words, this cross-linked acidic polymer electrolyte is used because ordinary non-crosslinked acidic polymer electrolytes have alkali neutralization ability but do not have alkali and water absorption ability, so excess processing liquid is absorbed into this trap member 21. When the trap member 21 is pressurized with a weight of 500 g or more from above the trap cover 3b and left for about half a day or more, the salts and salts generated by neutralizing the acidic polymer electrolyte in the sandwich body 30 are trapped. This is because there is an inconvenience that alkali, water, etc. may be transmitted through the water absorption layer 22 and leaked out from the exhaust hole 6. In addition, as a method to eliminate such inconvenience, a partially unsealed portion is created at the joint portion 29 where the tip of the trap cover 3b that is far away from the trap member 21 is joined to the cover sheet 2, and There is also a method of using an exhaust hole that communicates with the outside.

Further, by using a crosslinked acidic polymer electrolyte instead of the non-crosslinked acidic polymer electrolyte, the above liquid leakage can be prevented even at the conventional exhaust hole position.

Cross-linked acidic polymer electrolytes have a three-dimensional network structure and also contain acidic groups such as COO11, so by neutralizing alkalis such as NaOH,
The ionic group C00θNa■ is obtained, and this electrostatic affinity allows water and alkali to be drawn into and retained in the network structure, so even if the trap member 21 is pressurized as described above, leakage from the exhaust hole will not occur. Does not occur.

In addition, crosslinked acidic polymers 7 with large alkali neutralization ability and alkaline water absorption ability are used as solutes, such as crosslinked polyacrylic acid, and also their alkali salts. However, when the crosslinked polyacrylic acid is neutralized and its C00II group residual rate is smaller than 70111o1%, the alkali in the excess processing liquid is not sufficiently neutralized, causing the screen frame on the trap member 21 side to turn black. This may occur, or the joint 29 where the tip of the trap cover 3b and the cover sheet 2 are joined may peel off. Therefore, the alkali salt of crosslinked polyacrylic acid needs to have a C0011 group residual rate of 70o+o1% or more. A plastic net 27 is bonded to such a sandwich body 30 via, for example, a polyethylene striped laminate layer 2G as in the embodiment. This plastic net 27 can also be bonded to the sandwich body 30 via a dotted laminate layer.

As the upper plastic net 27, a polyethylene net (for example, Netron (trade name) manufactured by Dainippon Plastics Co., Ltd.) or a polypropylene net (
For example, KDN-11 (made by Dainippon Plastics Co., Ltd.)
(trade name)), or a net-like material knitted from polyethylene or polypropylene threads. As mentioned above, such a plastic net 27 is cheaper than the net-like nylon woven fabric used as the trap means of conventional self-processing photographic film units, but on the other hand, the net-like nylon woven fabric Since it is impossible to directly impregnate the neutralizing resin as described above, in this film unit 10, the sandwich body 30 containing the crosslinked acidic polymer electrolyte is
This part has the ability to neutralize alkali and absorb alkali and water.

In the film unit IO equipped with the trap means 5 including the trap member 21 of the above embodiment, when surplus processing liquid enters into the space 20 as described above, this processing liquid flows into the space between the plastic nets 27. will be instantly captured. Further, this alkaline treatment liquid is neutralized by the crosslinked acidic polymer electrolyte contained in the sandwich body 30, and the alkali and water are also absorbed. Furthermore, the polyethylene laminate layer 23 prevents the processing liquid from penetrating inside the trap member 21 and proceeding toward the exhaust hole 6 side. Further, the adhesive 28 prevents the processing liquid from going around the sides of the polyethylene laminate layer 23 and proceeding toward the exhaust hole 6 side. The water absorption layer 22 absorbs the processing liquid that has flowed around the sides of the polyethylene laminate layer 23 upward in FIG. In addition, in this film unit 10, as described above, the plastic net 27
Since the striped laminate layer 26 for connecting the net 27 to the sandwich body 30 has a stripe width and width that does not impair the processing liquid trapping space, It is necessary to form at intervals.

Note that if the surplus processing liquid can be controlled to a small amount, this plastic net for forming the processing liquid trapping space can be omitted. By doing so, it is possible to further increase the cost reduction effect. That is, the third
As shown in the figure, the trap member 21 may be constituted by a sandwich body 30 consisting of a layer having liquid diffusivity and a layer containing a crosslinked acidic polymer electrolyte having high water absorption capacity.

In FIG. 3, the same reference numerals as in FIG. 2 indicate that the same reference numerals as in FIG. 2 have the same functions as those in the embodiment shown in FIG.

Next, set the amount of excess processing liquid to 200, 240.260.280.
Table 1 shows the incidence of liquid leakage from the exhaust hole 6 when the trap member was left pressurized with a weight of 10009 from above the trap cover 3b for one day.

From this table, sample-3 (configured as shown in Figure 2, using a crosslinked acidic polymer electrolyte) and sample-4 (using a cross-linked acidic polymer electrolyte) are examples of the present invention.
It is clear that the configuration shown in FIG. 3 (using a crosslinked acidic polymer electrolyte) is superior.

Table 1 Sample-1: Conventional product.

Sample-2: A sample having the configuration shown in Figure 2 and using a non-crosslinked acidic polymer electrolyte.

Sample-3: A sample having the configuration shown in Figure 2 and using a cross-linked acidic polymer electrolyte.

Sample-4: A sample having the configuration shown in Figure 3 and using a cross-linked acidic polymer electrolyte.

(Effective Embodiments) In addition to the recited claims, the following embodiments of the present invention can be considered.

(1) The crosslinked acidic polymer electrolyte is a crosslinked polyacrylic acid or a crosslinked polyacrylic acid that has been neutralized to become an alkali salt, and the C0OH group residual rate is 70 m
A self-processing photographic film unit according to claim 1, characterized in that the self-processing photographic film unit is a cross-linked polyacrylate with a content of 1% or more.

(2) The crosslinked acidic polymer electrolyte is a crosslinked polyacrylic acid or a crosslinked polyacrylic acid that has been neutralized to become an alkali salt, and the C0OH group residual rate is 70 m
3. A self-processing photographic film unit according to claim 2, characterized in that it is a crosslinked polyacrylate with a content of 1% or more.

(Effects of the Invention) As explained above in detail, the self-processing photographic film unit of the present invention uses a commercially available inexpensive plastic net that can be mass-produced in place of the conventionally used net-like nylon fabric. Since a trap member is formed, the cost can be certainly reduced compared to conventional products.

Furthermore, depending on the amount of surplus processing liquid, the above-mentioned plastic net can also be omitted, resulting in a significant cost reduction.

[Brief explanation of the drawing]

FIG. 1 is a plan view showing a self-processing photographic film unit according to an embodiment of the present invention, and FIGS. 2 and 3 are cross-sectional perspective views showing the vicinity of the trap means of the film unit in detail. 1...Film sheet 2...Cover sheet 3.
...Connecting member 3b...Trap cover 4...
Processing liquid container 5...Trap means IO...Film unit 20...Space 2I...Trap member 22...Water absorption layer 23...Polyethylene laminate layer 25...Crosslinked acidic polymer electrolyte 26 ... Striped laminate layer 27 ... Plastic net

Claims (2)

[Claims] (1) A film sheet having a photosensitive layer, a cover sheet, a coupling member for coupling the cover sheet and the film sheet in an overlapping state, and a developing solution stored and disposed at one end of the film sheet. A self-processing photographic film unit comprising a processing liquid container and a trap means disposed at the other end of the film sheet to capture excess developing processing liquid, wherein the trap means is cross-linked by a layer having liquid diffusibility. A self-processing photographic film unit comprising a sandwich body sandwiching layers containing an acidic polymer electrolyte. (2) A film sheet having a photosensitive layer, a cover sheet, a coupling member for coupling the cover sheet and the film sheet in an overlapping state, and a developing solution stored and disposed at one end of the film sheet. A self-processing photographic film unit comprising a processing liquid container and a trap means disposed at the other end of the film sheet to capture excess developing processing liquid, the trap means comprising a water absorbing layer and a trap means disposed at the other end of the film sheet, 1. A self-processing photographic film unit comprising a sandwich body comprising a layer containing a cross-linked acidic polyelectrolyte sandwiched between bonded liquid-diffusing layers, and a plastic net bonded to the sandwich body.