JP3796056B2 - Developer for developing instant film unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a developer developing device for cleaving a developer pod of an instant film unit and developing the developer on a photosensitive layer.
[0002]
[Prior art]
Various types of mono-sheet type instant film units and cameras and printers using the instant film units are on the market. The instant film unit includes a cover sheet whose front side is an exposure surface, a base sheet disposed facing the back side of the cover sheet, and a photosensitive layer and an image receiving layer provided between the cover sheet and the base sheet. And a developer pod, a trap portion and the like. The instant film unit is divided into a transmission type and a reflection type according to the method of forming a print image. In the transmission type, a latent image formed on the photosensitive layer is formed as a positive image on the inner surface of the base sheet, and an exposure surface and a positive image are formed. The formation surface is a different surface. In the reflection type, the latent image formed on the photosensitive layer is reflected by the built-in reflection layer, and the exposure surface and the positive image forming surface are the same surface.
[0003]
The instant film unit is sold as a film pack in a state where a plurality of instant film units are light-tightly housed in a box-shaped case, and the film pack is loaded into the camera or printer. In cameras and printers that use this instant film unit, the object layer is exposed to light on the photosensitive layer of the instant film unit, and then the exposed instant film unit is discharged out of the apparatus, and the developer in the developer pod is in the middle of the exposure. Is incorporated into a developing solution developing device for developing the toner on the photosensitive layer.
[0004]
In addition, in the instant film unit, spacers are sandwiched on both sides between the cover sheet and the base sheet in order to prevent the developer from leaking from between the cover sheet and the base sheet during development. There is something.
[0005]
[Problems to be solved by the invention]
The above instant film unit with a built-in spacer deteriorates the print image quality due to the presence of minute bubbles or other causes, and the developer does not reach every corner of the photosensitive layer, resulting in black spots or the like in the areas. There was a problem. In order to solve this problem, there is an instant film unit using an outer frame sheet that covers the outer periphery of the cover sheet and the base sheet instead of the spacer. This outer frame type instant film unit can spread the developing solution to every corner and can be manufactured at low cost.
[0006]
However, since the instant film unit commercialized by the present applicant is mainly a spacer built-in type instant film unit, and the developer developing device is also suitable for the spacer built-in type instant film unit, the outer frame It has been desired to supply an instant film unit using a sheet and a developing solution developing apparatus suitable for the film unit.
[0007]
SUMMARY An advantage of some aspects of the invention is to provide a developer developing device suitable for an instant film unit using an outer frame sheet.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, the developer developing device for an instant film unit of the present invention is: One spreading roller of the pair of developing rollers has a spread portion that presses the instant film unit, a first narrow diameter portion that is disposed at both ends of the spread portion and has a diameter smaller than the spread portion, A tapered portion that connects between the one small diameter portion and the extension portion, a second small diameter portion that is disposed outside the first small diameter portion and has a diameter larger than that of the first small diameter portion; The outer frame sheet portion of the instant film unit is sandwiched and conveyed by the narrow diameter portion and the other developing roller, and the developer is developed by sandwiching the instant film unit between the spreading portion and the other developing roller. A gap is formed between the diameter portion and the other developing roller into which the developer developed in the extending portion flows. It is what I did.
[0009]
Also, A plate-like member that is arranged along the width direction of the instant film unit between the developing roller pair and the film outlet of the storage case in which the instant film unit is stored, and has a width dimension that does not interfere with the outer frame sheet. The one end of the instant film unit being transported at its tip is pressed and bent from a direction perpendicular to the transport direction to control the distribution of the developer between the cover sheet and the base sheet. Control member provided Is.
[0010]
Furthermore, the width dimension of the spreading control member is prevented from interfering with the outer frame sheet, and the spreading control of the developer can be performed more effectively.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 2 is a perspective view showing the appearance of an instant camera using the developing solution developing apparatus of the present invention. The instant camera 2 has a substantially rectangular shape when viewed from the front, and is loaded with a film pack containing a plurality of instant film units (hereinafter abbreviated as film units) from the back side. A lens barrel 4 in which a photographing lens 3 is incorporated is provided at the center of the front surface of the instant camera 2. The lens barrel 4 is movable between a position protruding from the front side with respect to the camera body 5 and a position retracted in the camera body 5, and the portability of the instant camera 2 when not in use. Has been improved. The instant camera 2 uses an infrared light active autofocus mechanism. In addition to the photographing lens 3, a light projection window 7 and a light receiving window 8 constituting a distance measuring device are provided on the front surface of the lens barrel 4. And a photometric window 9 constituting the photometric device. A light projecting element and a light receiving element are incorporated in the back of these windows 7 to 9.
[0012]
A grip 11 is integrally formed on one side surface of the instant camera 2, and a shutter button 12 is provided above the grip 11. The shutter button 12 can be pressed to a depth of two stages, and distance measurement and photometry are performed when half-pressed, and shutter release is performed by pressing it deeply.
[0013]
When the photographing range is confirmed with the finder 14 provided above the side surface of the instant camera 2 and the shutter button 12 is pressed halfway, the distance measurement and the photometry are performed through the light projection window 7, the light reception window 8, and the photometry window 9 described above. . When the shutter button 12 is pressed deeply, the shutter device incorporated in the lens barrel 4 performs a release operation based on the distance measurement value and the photometry value. When the brightness of the subject is low, strobe light is automatically emitted from the strobe light emitting unit 15 disposed above the lens barrel 4 toward the subject. After shooting, the film unit 17 under development is discharged from a slit-shaped film discharge port 16 formed on the upper surface of the instant camera 2.
[0014]
As shown in FIG. 3, which is a cross-sectional view of the main part of the instant camera 2, the camera main body 5 has a main body base 21 in which a film pack chamber 20 in which a film pack 19 is loaded is formed on the back side, and various photographing function parts are attached. And a front cover 22 and a rear cover 23 that cover the front side and the back side of the main body base 21. A plate-shaped lid member 24 that opens and closes the film pack chamber 20 is attached to the rear cover 23 via a hinge 25.
[0015]
On the front side of the main body base portion 21, a dark box portion 27 that shields the photographing optical path from the photographing lens 3 to the film pack 19 is provided. A photographing opening 28 is formed between the dark box portion 27 and the film pack chamber 20.
[0016]
As shown in FIGS. 3 and 4, the film pack 4 includes a plastic case 30 formed in a box shape and a film unit 17 in which a plurality of sheets are stacked and stored in the case 30. ing. As shown in FIG. 5A showing the exposure surface side of the transmissive outer frame type film unit 17 and FIG. 5B showing the positive image forming surface side of the film unit 17, the film unit 17 is an instant camera. 2, an exposure surface 31 on which an image is exposed, a positive image forming surface 32 provided on a surface opposite to the exposure surface 31 to form a positive image, and the exposure surface 31 and the positive image forming surface 32. A developer pod 33 is disposed above and encloses a developer, and a trap 34 is disposed below the exposure surface 31 and the positive image forming surface 32 and absorbs excess developer.
[0017]
As shown in FIG. 6 which is an AA cross section of the film unit 17, a photosensitive layer 37 is formed on the exposure surface 31 side on the inner surface of the exposure side cover sheet 36 formed of a transparent plastic film. Therefore, by exposing from the exposure surface 31 side, a latent image is formed photochemically on the photosensitive layer 37 via the exposure side cover sheet 36. An image receiving layer 39 including a reflective layer is formed on the inner surface of the image receiving side cover sheet 38 which is a base sheet formed of a transparent plastic film on the positive image forming surface 32 side.
[0018]
The developer pod 33 includes a pod cover 41 formed in a substantially bag shape and a developer 42 contained in the pod cover 41. The developer pod 33 includes an exposure side cover sheet 36 and an image receiving side cover sheet 38. One side 41a that faces is softly bonded. As a result, when the developer pod 33 is pressed, the adhesive portion 41a of the pod cover 41 is peeled off, and the developer 42 flowing out from that portion flows between the exposure side cover sheet 36 and the image receiving side cover sheet 38, and development is performed. Do. The trap part 34 includes an absorption pad 44 formed of a material that easily absorbs the developer 42. The absorption pad 44 is disposed on the opposite side of the developer pod 33 at a position facing one side of the exposure side cover sheet 36 and the image receiving side cover sheet 38.
[0019]
The film unit 17 is formed by wrapping the exposure side cover sheet 36, the image receiving side cover sheet 38, the pod cover 41, and the absorption pad 44 with an outer frame sheet 46 formed of a thin plastic sheet having a light shielding property. Yes. The outer frame sheet 46 wraps and holds each member, and forms an exposure frame 47 and a positive image formation frame 48 that are openings that expose the exposure surface 31 and the positive image formation surface 32. The exposure frame 47 defines an exposure range on the exposure surface 31, and the positive image forming frame 48 defines a positive image observation range.
[0020]
In the conventional film unit, in order to prevent the developer from flowing out from the width direction of the film unit, spacers are incorporated in the width direction and the vertical direction side of the exposure surface. However, in the film unit 17 using the outer frame sheet 46, as shown in FIG. 7 which is a BB cross section of FIG. 5A, development is performed so that the edge in the width direction of the film unit 17 is wrapped from the outside. Since the liquid 42 is prevented from flowing out of the film unit 17, it is not necessary to incorporate a spacer, and the film unit 17 can be manufactured at a low cost.
[0021]
On the front surface of the case 30, an opening 30 a that exposes the exposure surface 31 of the stored film unit 17 is formed. A slit-shaped film outlet 50 is provided on the upper surface of the case 30 to discharge the film unit 17 that has been photographed out of the case 30. The film outlet 50 is closed by a flexible light-shielding seal 51 (see FIG. 1) when the film pack 19 is not used.
[0022]
The opening 30 a of the film pack 19 when not in use is shielded from the inside of the case 30 by a plate-shaped light shielding cover 53 that is housed in the case 30 together with the plurality of film units 17. The light shielding cover 53 is discharged from the film discharge port 16 on the upper surface of the instant camera 2 when the film pack 19 is loaded into the film pack chamber 20 of the instant camera 2 and shutter release is performed for the first time. In that case, the weak part of the light-shielding seal 51 that closes the film outlet 50 is peeled off, and the film outlet 50 is opened.
[0023]
Although not shown in detail in the lower part of the opening 30a of the case 30, a notch 56 into which a known claw member 55 enters is provided. The claw member 55 is driven by the claw mechanism 57 and moves from the lower side to the upper side while entering the notch 56, and comes into contact with the lower end of the film unit 17 in the foremost row in the case 30. Then, by moving upward as it is, the film unit 17 is pushed upward in the case 30, and the leading end of the film unit 17 is sent out from the film outlet 50 of the case 30. The claw mechanism 57 converts the rotational movement of the reduction gear 59 connected to the motor 58 into a vertical sliding movement, and slides the claw member 55 in the vertical direction. The motor 58 is used not only for driving the claw mechanism 57 but also for driving a developing roller pair 61 described later.
[0024]
On the back inner wall of the case 30, a protruding protrusion 63 having a ridge shape is formed at the center. The push-up projection 63 presses the film unit 17 forward through the light shielding sheets 64 and 65 disposed behind the film unit 17 to give the frontmost film unit 17 flatness. Further, two holes 66 and 67 are formed on the back surface of the case 30 so as to sandwich the push-up protrusion 63. When the film pack 19 is loaded in the film pack chamber 20 of the instant camera 2 and the lid member 24 is closed, the push-up members 68 and 69 provided on the inner wall surface of the lid member 24 are formed in these holes 66 and 67. For entering
[0025]
As described in JP-A-7-244336, the push-up members 68 and 69 press the pressing portions 68a and 69a, which are movable in the thickness direction of the film unit 17, against the film unit 17 by the biasing force of the spring. The flatness is imparted to the frontmost film unit 17 in the case 30. The holes 66 and 67 into which the push-up members 68 and 69 enter are light-tightly blocked by the light shielding sheets 64 and 65 when the film pack 19 is not used.
[0026]
As shown in FIGS. 1 and 8, on the upper surface of the film pack chamber 20, a slit-shaped film delivery port 71 for feeding the film unit 17 that has been photographed from the film pack chamber 20 is formed. The film delivery port 71 is arranged at a position shifted to the front side of the instant camera 2 from the film exit 50 of the film pack 17. One piece constituting the film delivery port 71 is in sliding contact with the positive image forming surface 32 of the film unit 17, and the developer 42 poured from the developer pod 33 between the exposure side cover sheet 36 and the image receiving side cover sheet 38. This is a spread control member 72 for controlling the spread.
[0027]
The leading end of the spread control member 72 has a smooth arc shape that does not damage the positive image forming surface 32 of the film unit 17. Further, in order to send the film unit 17 to the film delivery port 71 that is arranged to be shifted to the front side of the instant camera 2 from the film exit 50 of the case 30, the film unit 17 is provided at the distal end of the spread control member 72. Is inclined to guide the film toward the film delivery port 71.
[0028]
The width E of the spread control member 72 is set to be smaller than the width F of the positive image forming surface 32 of the film unit 17, and does not contact the outer frame sheet 46 of the film unit 17, and the developer is applied to the photosensitive layer 37. 42 can be extended.
[0029]
A developing roller pair 61 is disposed above the film delivery port 71. The developing roller pair 61 rotates in opposite directions to nip the film unit 17 fed from the film pack chamber 20 and conveys the film unit 17 toward the upper film discharge port 16. At that time, the developer pod 33 of the film unit 17 is cleaved to allow the developer 42 to flow between the exposure side cover sheet 36 and the image receiving side cover sheet 38 and to spread over the entire area.
[0030]
The developing roller pair 61 includes a first developing roller 74 that faces the positive image forming surface 32 of the film unit 17 and a second developing roller 75 that faces the exposure surface 31. A driving gear 76 is provided at one end of the second developing roller 75, and the second developing roller 75 is rotated clockwise by a motor 58 through a reduction gear train 59 meshed with the driving gear 76. The A transmission gear 77 is provided in the vicinity of the drive gear 76 of the second developing roller 75, and this transmission gear 77 meshes with a driven gear 78 provided at one end of the first developing roller 74. As a result, the first developing roller 74 is driven to rotate counterclockwise opposite to the second developing roller 75.
[0031]
The first developing roller 74 is movable in the thickness direction of the film unit 17, and is pressed against the second developing roller 75 by the bias of the spring 80. As a result, the developing roller pair 61 can properly press the film unit 17 and can spread the developer 42 uniformly.
[0032]
In the present embodiment, the second developing roller 75 is prevented from moving because the spreading control member 72 presses the film unit 17 against the second developing roller 75 side. This is because the sliding contact state with 72 (sliding contact position, pressure, etc.) and the bending shape formed between the film outlet 50 and the developing roller pair 61 by the film unit 17 are kept constant. The effect of 72 can be obtained stably.
[0033]
The first developing roller 74 includes a spread portion 82 that is formed at the center and presses the positive image forming surface 32 of the film unit 17, and a narrow diameter portion 83 that is formed at both ends of the spread portion 82. Become. The narrow diameter portion 83 has a diameter smaller than that of the extending portion 82. As shown in FIG. 9, the first small diameter portion 83a disposed near the center of the 12 developing roller 74 and the first small diameter portion. It consists of the 2nd small diameter part 83b arrange | positioned on the outer side of the part 83a. The relationship between the diameter D of the extended portion 82, the diameter D1 of the first small diameter portion 83a, and the diameter D2 of the second small diameter portion 83b is D>D2> D1, and the radius between D and D1 The minute difference G1 is equal to the thickness t of the outer frame sheet 46 of the film unit 17, and the difference G2 between D2 and D1 is the same as the appropriate spread thickness of the developer 42.
[0034]
Further, the length H of the first developing roller 74 and the second developing roller 75 is substantially equal to the width J of the film unit 17, and the width K of the spreading portion 82 of the first developing roller 75 is set to be the film unit 17. This is slightly smaller than the width F of the positive image forming surface 32. The length L, which is the sum of the length L1 of the first small diameter portion 83a and the length L2 of the second small diameter portion 53b, is equal to the width M of the outer frame sheet 46. A tapered portion 84 is formed in a portion where the extended portion 82 and the first small diameter portion 83a are continuous.
[0035]
As described above, by providing the first developing roller 74 with the small-diameter portion 83, as shown in FIG. 10, the edge in the width direction of the film unit 17 covered with the outer frame sheet 46 becomes the second small-diameter portion. 83b and the second developing roller pair 75. As a result, a gap suitable for the spreading of the developer 42 is formed between the spreading portion 82 of the first developing roller 74 and the second developing roller 75 with the film 17 sandwiched therebetween. In addition, since the spreading portion 82 contacts the positive image forming surface 32 without being obstructed by the outer frame sheet 46, the spreading effect of the developer 42 can be improved.
[0036]
Further, since the first narrow diameter portion 83a is made thinner than the second thin diameter portion 83b, the outer frame with the film unit 17 being sandwiched between the first small diameter portion 83a and the second developing roller 75. A gap corresponding to the thickness of the sheet 46 is formed. As a result, the developer 42 can flow into this gap, so that the developer 42 can be surely poured into the end of the positive image forming frame, and the print image quality can be properly maintained up to the end. it can.
[0037]
In addition, since the taper portion 84 is formed in the portion where the spread portion 82 and the first small diameter portion 83a are continuous, the image receiving side cover sheet 38 and the image receiving layer 39 of the film unit 17 are smoothly curved, and the stress concentration. Therefore, the image receiving side cover sheet 38 is not cracked, and the developer is spread to the outside of the peripheral edge between the exposure frame 47 and the positive image forming frame 48.
[0038]
Further, the distal end portion of the spreading control member 72 is disposed at a position almost directly below the contact position between the first developing roller 74 and the second developing roller 75 of the developing roller pair 61. As a result, the film unit 17 comes into contact with the developing roller pair 61, the spread control member 72, and the edge of the film outlet 50 of the case 30, so that the film unit 17 is bent into a gentle S-shape. Become. Further, in combination with stabilization of the sliding contact force between the film unit 17 and the spread control member 72, it is possible to obtain an effect of making the spread thickness of the developing solution 42 more uniform and maintained.
[0039]
The film path 85 that guides the film unit 17 that has passed through the developing roller pair 61 to the film discharge port 16 is inclined toward the front side of the instant camera 2. As a result, the contact area between the developing solution pod 33 of the film unit 17 and the second developing roller 75 increases, so that the effect of spreading the developing solution 42 by the second developing roller 75 is improved.
[0040]
The developing roller pair 61 is formed using a hard steel material in order to reduce dimensional errors. Further, the length K of the spreading portion 82 of the first developing roller 74, the width E of the spreading control member 72, the length N from the center of the first developing roller 74 to the tip of the spreading control member 72, etc. It can be arbitrarily set according to the size and properties of the film unit 17.
[0041]
Next, the operation of the above embodiment will be described. When shooting with the instant camera 2 shown in FIG. 2, first, the power of the instant camera 2 is turned on by operating the power switch. Thereafter, when the photographing range is confirmed with the finder 14 and the shutter button 12 is half-pressed, distance measurement and photometry are performed through the light projection window 7, the light reception window 8, and the photometry window 9 provided on the front surface of the lens barrel 4. . When the shutter button 12 is pressed deeply, the shutter device incorporated in the lens barrel 4 performs a release operation based on the distance measurement value and the photometry value. When the brightness of the subject is low, strobe light is automatically emitted from the strobe light emitting unit 15 disposed above the lens barrel 4 toward the subject.
[0042]
The subject light transmitted through the photographing lens 3 passes through the dark box 27, the photographing aperture 28, the aperture 30a, and the exposure frame 47 shown in FIG. 3, and is exposed on the exposure surface 31 of the film unit 17. The subject light exposed to the exposure surface 31 forms a latent image photochemically on the photosensitive layer 37 formed on the inner surface of the exposure side cover sheet 36 as shown in FIGS.
[0043]
When the release operation of the shutter device is completed, the claw member 56 shown in FIG. 4 is moved upward from below by the claw mechanism 57 driven by the rotation of the motor 58, and the inside of the notch 56 formed on the front surface of the case 30 Get in. At that time, the film unit 17 is pushed up in the case 30 by contacting the lower end of the film unit 17 in the front row and moving upward as it is.
[0044]
The film unit 17 sent out from the film outlet 50 in the case 30 is peeled off the light-shielding seal 51 and discharged from the case 30, and is guided by a slope formed on the lower surface of the front end of the spread control member 72 to be in the film pack chamber 20. Head to film delivery port 71. The film unit 17 delivered from the film delivery port 71 is sandwiched between a developing roller pair 61 rotated by a motor 58 and conveyed toward the upper film discharge port 16.
[0045]
During this conveyance, as shown in FIG. 8, the developer pod 33 of the film unit 17 is pressed by the developing roller pair 61, and the adhesive portion 41 a of the pod cover 41 constituting the developer pod 33 is peeled off. As a result, the developer 42 flows out from the pod cover 41.
[0046]
The developer 42 flowing out from the developer pod 33 is poured between the exposure side cover sheet 36 and the image receiving side cover sheet 38 by the pressing of the developing roller pair 61. Further, the film unit 17 that has passed through the developing roller pair 61 is fed into a film passage 85 that is inclined toward the front surface of the instant camera 2. As a result, the contact area between the developer pod 17 of the film unit 17 and the second developing roller 75 is increased, so that the effect of spreading the developer by the developing roller pair 61 is improved.
[0047]
The developing solution 42 poured between the exposure side cover sheet 36 and the image receiving side cover sheet 38 is slidably contacted with the positive image forming surface 32 of the film unit 17 before being spread by the developing roller pair 61. The member 72 is uniformly spread on the photosensitive layer 37. The spread control member 72 is formed integrally with the main body base 21 constituting the instant camera 2, and the second spread roller 75 that presses the film unit 17 against the spread control member 72 is fixed to the main body base 21. The sliding contact state between the film unit 17 and the spreading control member 72 is always constant, and a stable spreading effect of the developer 42 can be obtained. Further, since the spread control member 72 is provided integrally with the film pack chamber 20 and constitutes the film delivery port 71, the instant camera 2 is employed without increasing the size or increasing the cost. be able to.
[0048]
When the exposure surface 31 and the positive image forming surface 32 of the film unit 17 reach the developing roller pair 61, as shown in FIGS. 1 and 10, the extending portion 82 of the first developing roller 74 is moved to the positive image of the outer frame sheet 46. It enters the forming frame 48 and directly presses the positive image forming surface 32. Further, the second narrow diameter portion 83b of the first developing roller 74 and the second developing roller 75 sandwich and convey the end portion covered with the outer frame sheet 46 of the film unit 17. As a result, a gap necessary for the development of the developer 42 is formed between the spread portion 82 and the second development roller 75 with the film unit 17 being sandwiched. Further, a gap is formed between the first small diameter portion 83a and the second developing roller 75 so that the developing solution 42 flows, so that the developing solution 42 is evenly developed on the photosensitive layer 37.
[0049]
When the developing solution 42 is spread on the photosensitive layer 37, the latent image formed on the photosensitive layer 37 is transferred to the image receiving layer 39 through the reflective layer, and the image receiving layer 39 is developed and fixed. The film unit 17 that has passed through the film passage 85 is discharged out of the instant camera 2 through the film discharge port 16. An image appears after a predetermined time on the positive image forming surface 32 of the film unit 17. Since the developing solution 42 contained in the developing solution pod 33 of the film unit 17 is uniformly spread on the photosensitive layer 37 by the spreading control member 72 and the developing roller pair 61, the print image quality is improved.
[0050]
In the above embodiment, the spread control member is formed on one piece constituting the film delivery port of the film pack chamber. However, it may be provided separately on a part to which the developing roller pair is attached, such as the film pack chamber or the outside of the film pack chamber. Good.
[0051]
Further, although the transmission type instant film unit has been described as an example, the developing solution developing device of the present invention can also be used for a reflection type instant film unit using an outer frame sheet.
[0052]
【The invention's effect】
As described above, according to the developer developing device for an instant film unit of the present invention, between the film outlet and the developing roller pair, it is slidably brought into contact with the conveyed instant film unit and bent into a substantially S shape, A spreading control member for controlling the distribution of the developing solution in the photosensitive layer is provided, and a narrow diameter portion is provided at both ends of one of the developing rollers, and the developing solution is not hindered by the outer frame sheet. Therefore, it is possible to improve the print image quality by uniformly spreading the developer on the photosensitive layer.
[0053]
In addition, since the narrow diameter part is further divided into two thicknesses, the film unit is transported using the respective diameters, and a gap necessary for developing the developer is formed. The development performance of the developer can be further improved without increasing.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a principal part showing a state of a developing solution developing apparatus of the present invention when developing solution is developed.
FIG. 2 is a perspective view showing an external appearance of an instant camera using the developer developing device of the present invention.
FIG. 3 is a cross-sectional view of a main part showing a configuration of an instant camera.
FIG. 4 is an explanatory view schematically showing a configuration of a developing solution developing device.
FIG. 5 is a perspective view showing an external appearance of a film unit.
6 is a cross-sectional view taken along the line AA in FIG.
7 is a cross-sectional view taken along line BB in FIG.
FIG. 8 is a cross-sectional view of a main part showing a state of the developer developing device when the developer pod is cleaved.
FIG. 9 is a plan view showing the shape of a developing roller pair.
FIG. 10 is a cross-sectional view of the main part showing the state of the film unit when the developing solution is unfolded.
[Explanation of symbols]
2 Instant camera
17 Instant film unit
19 Film Pack
31 Exposed surface
32 Positive image forming surface
33 Developer Pod
34 Trap part
46 Outer frame sheet
50 Film exit
61 Roller pair
71 Film outlet
72 Spread control member
74 First developing roller
75 Second deployment roller
83 Small diameter part

Claims (1)

A cover sheet whose front side is the exposure surface, a base sheet disposed facing the back side of the cover sheet, a photosensitive layer provided between the cover sheet and the base sheet, and at least the front surface of the cover sheet A monosheet type instant film unit that is affixed so as to surround the outer peripheral edge of the exposure surface and includes an outer frame sheet that defines the exposure range is sandwiched and conveyed, and the developer pod containing the developer is cleaved. In the developing solution developing device for an instant film unit comprising a developing roller pair for developing the developing solution on the photosensitive layer,
A plate shape having a width dimension that is disposed along the width direction of the instant film unit between the developing roller pair and the film outlet of the storage case in which the instant film unit is stored and does not interfere with the outer frame sheet. provided members der Ru spreading control member,
One end of the instant film unit being transported is pressed from the direction perpendicular to the transport direction at the tip of the spread control member, and the instant film unit is bent in a substantially S shape in the transport direction so that the cover sheet and the base Control the distribution of developer between the sheet and
One spreading roller of the pair of developing rollers has a spread portion that presses the instant film unit, a first narrow diameter portion that is disposed at both ends of the spread portion and is thinner than the spread portion, and A tapered portion connecting between the first small diameter portion and the extended portion; and a second small diameter portion disposed outside the first small diameter portion and having a diameter larger than that of the first small diameter portion;
The second thin-diameter portion and the other developing roller sandwich and convey the outer frame sheet portion of the instant film unit, the developing portion and the other developing roller sandwich the instant film unit, and develop the developer. A developing solution developing device for an instant film unit , wherein a gap into which the developing solution developed at the spreading portion flows is formed between the first narrow diameter portion and the other developing roller .

Images