JP2003005296A - Photographic processing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a photographic processing device which enables a user to easily take out a test print without touching a test picture with his or her hand when taking out the test print ejected from an ejection part onto a tray. SOLUTION: In the photographic processing device where the test picture is printed with a space part left in one end side of a photographic paper at the time of printing the test picture in a printing processing part which prints a picture on a photographic paper, the printing processing part prints the test picture on the photographic paper so that the space part may be placed in the front side end part in the ejecting direction at the time of ejection of the photographic paper from the ejection part.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photographic processing apparatus for printing an image on a photosensitive material such as photographic paper. 2. Description of the Related Art Generally, a photographic processing apparatus includes a printing processing section for printing an image on photographic paper, a developing processing section for developing a photographic paper on which an image has been printed by the printing processing section, and a developing processing section. A drying section for drying the photographic paper developed in the section, and a discharge section for discharging the photosensitive material dried in the drying section. The image is printed on the photographic paper in the printing section. After the processing, the photographic paper is developed in a developing section and dried in a drying section, and is discharged to an external, for example, a tray via a discharge section. Also, with the above photo processing equipment,
In order to adjust the exposure conditions of the exposure device installed in the printing processing unit, a test image is printed on photographic paper, and a so-called test print is created by developing the photographic paper, and the density of the test print is measured with a measuring instrument. The exposure conditions are adjusted based on information such as the measured density of the test print measured. When printing the test image on photographic paper, the test image is printed on the edge of the photographic paper so that the printed portion of the test image is not directly grasped by hand when setting the test print on the measuring instrument. Form unprinted margins,
This margin is held by hand. In the conventional photographic processing apparatus, when producing the test print, as shown schematically in FIG. 4, a printing process is carried out from the front end of the photographic paper P being conveyed in the conveying direction. While the test image K is sequentially printed by the apparatus and the rear end of the photographic paper P is not exposed, a margin S is formed at the rear end of the photographic paper P in the transport direction. In the method, when the photographic paper P of the test print that has been printed in the printing processing unit is developed by the developing processing unit and then discharged from the discharging unit to the external tray T through the drying processing unit, The margin S provided on the photographic paper P of the test print is
It is located on the rear side in the transport direction, that is, on the back side of the tray T. Therefore, when taking out the photographic paper P of the test print created by the above-described photo processing apparatus from the tray T, it is difficult to hold the above-mentioned margin S, and the photographic paper P
Hand touches the test image K printed on
There is a problem that the test image K is stained and a measurement error occurs when the test image K is measured. The present invention has been developed in view of the above circumstances, and an object thereof is a photograph in which a test print discharged from a discharge unit onto a tray can be easily taken out without touching a test image. It is to provide a processing device. In order to achieve the above object, the invention according to claim 1 comprises a printing processing section for printing an image on a photosensitive material, and a developing processing section for developing the photosensitive material on which the image has been printed. And a discharge section for discharging the developed photosensitive material, and the printing processing section leaves a margin at one end of the photosensitive material when printing a test image on the photosensitive material. In a photographic processing apparatus in which a test image is printed by printing, when printing the test image on a photosensitive material, the blank portion is formed such that when the photosensitive material is discharged from the discharge portion, the margin is formed at the front end in the discharge direction. The test image is printed on the photosensitive material so as to be located in the portion. Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 schematically shows a photographic processing apparatus to which the present invention is applied. In the photographic processing apparatus, basically, an image of a developed film is printed on a printing paper P A developing unit 1b for developing the photographic paper P processed by the baking processing unit 1a, and a developing unit 1b for developing the photographic paper P processed by the developing unit 1b. Drying section 1
c, a print discharge section 1d for discharging the dried photographic paper P, and a tray 1e for storing the photographic paper P discharged from the print discharge section 1d.
In the photographic processing apparatus, the image of the film is printed on the photographic paper P in the printing processing section 1a, and the photographic paper P on which the image is printed is developed in the developing processing section 1b and then dried in the drying processing section 1c. Then, the print is discharged from the print discharge unit 1d onto the tray 1e. A plurality of processing liquid tanks 11 are disposed in the developing processing section 1b. Each processing liquid tank 11 accommodates a transport rack 12 provided with a transport roller 12a for the photographic paper P. On the upper side, the transport roller 13a of the photographic paper P
The upper turn guide rack 13 provided with is mounted detachably. Further, the development processing section 1b and the drying processing section 1
A squeeze unit 14 provided with a removing roller 14a for removing the processing liquid adhering to the surface of the photographic paper P is detachably attached to the boundary with the squeeze paper c. Further, the apparatus main body 1 includes a paper magazine 15 for storing a roll of photographic paper P, an exposure table 16, a lamp housing 17 for storing a light source 17a, a film mask unit 18 for setting a developed film, and a paper magazine 15. A cutter 19 for cutting the sent photographic paper P into a predetermined length, a stretching lens unit 110, and a shutter 111 for controlling an exposure time are provided.
Further, on the lens unit 20 side of the exposure table 16, a light-shielding mask 112 for covering a non-exposed portion of the photographic paper when performing test exposure, and a driving mechanism therefor are provided. Further, a measuring device 2 for measuring the density of the test print subjected to the development processing is mounted in the apparatus main body 1. Further, as shown in FIG. 2, the above-mentioned photographic processing device is equipped with a control device 3 composed of a microcomputer for mainly controlling the driving of each of the above-mentioned constituent members 1a to 1d and the measuring device 2, The input / output unit of the control device 3 includes:
A monitor 31 for interactively displaying the operating states, setting states, and the like of the components 1a to 1d and the measuring device 2 described above.
And a keyboard 32 capable of key input, so as to control the driving of each of the constituent members 1 a to 1 d and the measuring device 2 via the control device 2 in accordance with an input operation by the keyboard 32. In the photographic processing apparatus described above, under the control of the control device 3, the test image B is printed by the printing processing unit 1a while leaving a margin A on one end side of the photographic paper P, and then the printing paper P is printed by the developing processing unit 1b. Is developed so that a test print can be created, and at the time of printing the test image B in the printing processing section 1a, the photographic paper P has been subjected to the development processing and the drying processing, and the print discharge section 1 has been completed.
d, the test image B is printed on the photographic paper P so that the margin A is located at the front end in the discharge direction. That is, in the embodiment shown in FIG. A setup filter (not shown) is turned on by the light source 17 in accordance with a test print instruction by an operation.
After being set on the optical path from the lens unit 110 to the lens unit 110, the test exposure is performed three times at a predetermined position on the photographic paper P. Specifically, the paper magazine 15 is controlled by the control device 3. The photographic paper P is pulled out by a predetermined length and cut by the cutter 111 to a predetermined length, and the cut photographic paper P is moved onto the exposure table 16. Then, by driving the drive mechanism, the light-shielding mask 112 is moved to a predetermined position on the photographic paper P set on the exposure table 16, that is, the unexposed margin A having a predetermined length in the transport direction front end side. After being moved to such a position, the light source 17a and the shutter 111 are controlled so that the portion behind the unexposed portion of the photographic paper P, which is the margin A,
Test exposure is performed under a first exposure condition set in advance, and a first test image B1 is printed on the photographic paper P.
When the test exposure under the exposure condition is completed, the driving mechanism is driven via the control device 3 to move the light-shielding mask 112 by the test exposure width, and then the photographic paper P is moved under the second exposure condition. Test exposure is performed on another area, and a second test image B2 is printed behind the first test image B1. When the test exposure under the second exposure condition is completed, the control device 3
After the light-shielding mask 112 is moved by the test exposure width through the control unit 3, the control unit 3 controls the photographic paper P under the third exposure condition.
The third test image B3 is printed behind the second test image B2 by performing test exposure on another area. As described above, along with the creation of a test print by the photo processing apparatus having the above-described configuration, a margin A is secured at the front end side in the transport direction of the photographic paper P, as shown in FIG.
Behind the margin, three test images B1 and B
Since 2.B3 is continuously printed, the photographic paper P is developed by the developing unit 1b, then dried by the drying unit 1c, and discharged from the print discharging unit 1d onto the tray 1e. At this point, the margin A is located on the front side in the transport direction, that is, on the front side of the tray T. Therefore, the operator places the test print photographic paper P in the tray T
At the time of taking out, the margin A can be easily held by hand without touching the test image B, and as a result, the measurement of the test image K can be accurately performed at the time of measurement with the measuring device 2. still,
The test print prepared as described above is set in the measuring device 2 by the operator, the density and color tone of the test print are measured, and the exposure of the photographic processing apparatus is performed based on the measured information such as the density of the test print. The conditions are adjusted. In the above-described embodiment, the test image B of three patterns is printed on the photographic paper P.
It is not limited to this, but two patterns or four
The test image of the pattern may be printed. In the above embodiment, the present invention is applied to a photographic processing apparatus for printing an image on photographic paper by an analog exposure method. However, the present invention is not limited to this. The present invention may be applied to a photographic processing apparatus. As described above, according to the first aspect of the present invention, a printing processing section for printing an image on a photosensitive material, and a developing process for developing the photosensitive material on which the image has been printed. And a discharge unit for discharging the developed photosensitive material. The printing unit prints the test image while leaving a blank space at one end of the photosensitive material when printing the test image on the photosensitive material. In the photographic processing apparatus, the printing processing unit is configured such that, when printing the test image on the photosensitive material, the blank portion is located at the front end in the discharging direction when the photosensitive material is discharged from the discharging unit. In addition, since the test image is printed on the photosensitive material, the margin formed on the test print discharged from the discharge section is positioned forward in the discharge direction from the discharge section. To so easily grip the margin when taking this test print in hand, therefore, it is possible to take out the paper tested printed without touching the test image easily.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram of a developing apparatus according to the present invention. FIG. 2 is a configuration diagram schematically showing a control system of the developing apparatus according to the present invention. FIG. 3 is an explanatory diagram showing an example of creating a test print by the developing apparatus of the present invention. FIG. 4 is an explanatory diagram showing an example of creating a test print by a conventional developing apparatus. [Description of Signs] 1a Printing processing unit 1b Development processing unit 1d Print discharge unit (discharge unit) 3 Control device P Printing paper (photosensitive material) A Margin B Test image

[Procedure amendment] [Date of submission] June 19, 2001 (2001.6.1
9) [Procedure amendment 1] [Document name to be amended] Description [Item name to be amended] Full text [Amendment method] Change [Content of amendment] [Document name] Description [Title of invention] Photo processing device [Claims] A printing section for printing an image on the photosensitive material; a developing section for developing the photosensitive material on which the image has been printed; and a discharging section for discharging the developed photosensitive material. A discharge processing unit, wherein the printing processing unit is configured to print the test image while leaving a blank space at one end side of the photosensitive material when printing the test image on the photosensitive material. When printing the test image on the photosensitive material, the test image is printed on the photosensitive material such that the margin is located at the front end in the discharge direction when the photosensitive material is discharged from the discharge unit. Photographic processing apparatus characterized by being so. Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photographic processing apparatus for printing an image on a photosensitive material such as photographic paper. 2. Description of the Related Art Generally, a photographic processing apparatus includes a printing processing section for printing an image on photographic paper, and a developing processing section for developing a photographic paper on which an image has been printed by the printing processing section. And a discharging section for drying the photographic paper developed by the developing section, and a discharging section for discharging the photosensitive material dried by the drying section. After printing on the paper, the photographic paper is developed in a developing section and dried in a drying section, and is discharged to an external tray, for example, through a discharge section. In the above photographic processing apparatus, in order to adjust exposure conditions of an exposure apparatus mounted on a printing processing unit,
A test image is printed on photographic paper, a so-called test print is created by developing the photographic paper, and the density of the test print is measured with a measuring device. Based on the information such as the measured density of the test print, And the exposure conditions are adjusted. When printing a test image on a photographic paper, an end portion of the photographic paper is printed so that the printed portion of the test image is not directly grasped by hand when setting the test print on a measuring instrument. A blank portion where the test image is not printed is formed, and the blank portion is held by hand. [0005] In the conventional photographic processing apparatus, when the above-described test print is created, as shown schematically in FIG. 4, the front end of the photographic paper P conveyed in the conveyance direction. The printing device P prints the test image K sequentially, and makes the rear end of the photographic paper P unexposed so that a margin S is formed at the rear end of the photographic paper P in the transport direction. In the above-described processing method, when the photographic printing paper P of the test print subjected to the printing processing in the printing processing unit is developed by the developing processing unit and then discharged from the discharging unit to the external tray T through the drying processing unit. The margin S provided on the photographic paper P of the test print is
It is located on the rear side in the transport direction, that is, on the back side of the tray T. Therefore, when taking out the photographic paper P of the test print created by the above-described photographic processing apparatus from the tray T, it is difficult to hold the above-mentioned margin S, and the test image K printed on the photographic paper P There is a problem that the test image K is stained by touching the hand and a measurement error occurs when the test image K is measured. The present invention has been developed in view of the above circumstances. It is an object of the present invention to easily remove a test print discharged from a discharge unit onto a tray without touching a test image. An object of the present invention is to provide a photographic processing apparatus that can perform the processing. [0008] In order to achieve the above object, the invention according to claim 1 provides a printing processing section for printing an image on a photosensitive material, and a photosensitive material on which an image is printed. And a discharge section for discharging the developed photosensitive material. The printing section has a margin at one end of the photosensitive material when printing a test image on the photosensitive material. In a photographic processing apparatus in which a test image is printed while leaving a portion, when printing the test image onto a photosensitive material, the blank portion is directed in the discharge direction when the photosensitive material is discharged from the discharge portion. The test image was printed on the photosensitive material so as to be located at the front end. Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 schematically shows a photographic processing apparatus to which the present invention is applied. In the photographic processing apparatus, basically, an image of a developed film is provided on a main body 1 of the apparatus. Printing processing unit 1a for printing on photographic paper P
A developing unit 1b for developing the photographic paper P processed by the baking unit 1a; and a drying unit 1c for drying the photographic paper P developed by the developing unit 1b.
And a print discharge unit 1d for discharging the dried photographic paper P, and a tray 1e for storing the photographic paper P discharged from the print discharge unit 1d. This photographic processing apparatus has a printing processing section 1a.
While printing the image of the film on the photographic paper P,
The photographic paper P on which the image has been printed is developed in the developing section 1b, then dried in the drying section 1c, and discharged from the print discharge section 1d onto the tray 1e. A plurality of processing solution tanks 11 are provided in the developing section 1b.
Is disposed, and a transport rack 12 having a transport roller 12a for the photographic paper P is stored in each processing liquid tank 11,
An upper turn guide rack 13 having a transport roller 13a for the photographic paper P is detachably mounted on the transport rack 12. At the boundary between the developing section 1b and the drying section 1c, a squeeze unit 14 having a removing roller 14a for removing the processing liquid adhering to the surface of the photographic paper P is detachably assembled. ing. The apparatus main body 1 further includes a paper magazine 15 for storing photographic paper P wound in a roll, an exposure table 16,
A lamp housing 17 accommodating the light source 17a, a film mask unit 18 for setting a developed film, a cutter 19 for cutting the photographic paper P sent from the paper magazine 15 into a predetermined length, an enlargement lens unit 110, and A shutter 111 for controlling the exposure time is provided. On the lens unit 20 side of the exposure table 16, a light-shielding mask 112 for covering a non-exposed portion of the photographic paper when performing test exposure, and a driving mechanism therefor are provided. Further, a measuring device 2 for measuring the density of the developed test print is mounted in the apparatus main body 1. As shown in FIG. 2, the above-mentioned photographic processing apparatus includes a control device 3 composed of a microcomputer for mainly controlling the driving of each of the above-mentioned components 1a to 1d and the measuring instrument 2. Mounted, this control device 3
The input / output unit is connected to a monitor 31 for interactively displaying the operating status and setting status of the components 1a to 1d and the measuring device 2, and a keyboard 32 capable of key input. With the input operation by the keyboard 32, the driving of each of the constituent members 1 a to 1 d and the measuring device 2 is controlled via the control device 2. In the photographic processing apparatus described above, under the control of the control unit 3, the test image B is printed by the printing processing unit 1a while leaving the margin A on one end side of the photographic paper P, and then the image is printed by the developing processing unit 1b. The photographic paper P is developed to make a test print, and the photographic paper P is discharged from the print discharge unit 1d after completion of the development and drying processes when the test image B is printed in the printing processing unit 1a. At this time, the test image B is printed on the photographic paper P such that the margin A is located at the front end in the discharge direction. That is, in the embodiment shown in FIG. According to the instruction, after setting a setup filter (not shown) on the optical path from the light source 17a to the lens unit 110, the photographic paper P
The test exposure is performed three times at a predetermined position of the photographic paper P. Specifically, the photographic paper P is pulled out from the paper magazine 15 by a predetermined length under the control of the After the cutting, the cut photographic paper P is moved onto the exposure table 16. Then, by driving the driving mechanism, the light shielding mask 1 is
12 is moved to a predetermined position on the photographic paper P set on the exposure table 16, that is, a position where the front end side of the photographic paper P in the transport direction becomes a margin A which is not exposed for a predetermined length. , The light source 17a and the shutter 111 are controlled to perform test exposure on the photographic paper P behind the unexposed portion serving as the margin A under the first exposure condition set in advance. When the test exposure under the first exposure condition is completed by printing the test image B1, the control device 3
, The light-shielding mask 112 is moved by the test exposure width, and then test-exposed to the other area of the printing paper P under the second exposure condition, and the test exposure is performed behind the first test image B1. The second test image B2 is printed. When the test exposure under the second exposure condition is completed, the light-shielding mask 112 is further moved by the test exposure width via the control device 3, and then the photographic paper P is moved under the third exposure condition via the control device 3. The third test image B3 is printed behind the second test image B2 by performing test exposure on another area. As shown in FIG. 3, a margin A is secured at the front end of the photographic paper P in the transport direction when a test print is created by the photo processing apparatus having the above-described configuration. Behind three test images B1
Since B2 and B3 are continuously printed, the photographic paper P is developed by the developing unit 1b, then dried by the drying unit 1c, and discharged from the print discharge unit 1d onto the tray 1e. At this point, the margin A is located on the front side in the transport direction, that is, on the front side of the tray T. Therefore, when the operator removes the photographic paper P of the test print from the tray T, the operator can easily hold the margin A without touching the test image B. As a result, when the measurement with the measuring device 2 is performed, The test image K can be accurately measured. The test print prepared as described above is set in the measuring device 2 by an operator, and the density and color tone of the test print are measured. Based on the measured information such as the density of the test print, The exposure conditions of the photographic processor are adjusted. In the above embodiment, the test image B of three patterns is printed on the printing paper P. However, the present invention is not limited to this, and the test image of two or four patterns is printed. It may be. In the above embodiment, the present invention is applied to a photographic processing apparatus for printing an image on photographic paper by an analog exposure method. However, the present invention is not limited to this. The present invention may be applied to a photographic processing apparatus that performs a baking process. As described above, according to the first aspect of the present invention, a printing unit for printing an image on a photosensitive material and a developing unit for developing a photosensitive material on which an image has been printed are provided. And a discharge section for discharging the developed photosensitive material. The printing processing section performs a test while printing a test image on the photosensitive material while leaving a blank space at one end of the photosensitive material. In a photographic processing apparatus that prints an image, a printing processing unit is configured such that, when printing a test image on a photosensitive material, when the photosensitive material is discharged from a discharging unit, the margin is formed at a front end in a discharging direction. By printing the test image on the photosensitive material so that it is located, the margin formed in the test print discharged from the discharge unit is Since the test print is located on the front side, it is easy to grasp the margin when the user takes this test print, so that the photographic paper on which the test print is performed can be easily taken out without touching the test image. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram of a developing apparatus according to the present invention. FIG. 2 is a configuration diagram schematically showing a control system of the developing apparatus according to the present invention. FIG. 3 is an explanatory diagram showing an example of creating a test print by the developing apparatus of the present invention. FIG. 4 is an explanatory diagram showing an example of creating a test print by a conventional developing apparatus. [Description of Signs] 1a Printing processing unit 1b Development processing unit 1d Print discharge unit (discharge unit) 3 Control device P Printing paper (photosensitive material) A Margin B Test image

Claims (1)

Claims: 1. A printing section for printing an image on a photosensitive material, a developing section for developing a photosensitive material on which an image is printed, and a developed photosensitive material. A discharge processing unit for discharging the test image, the printing processing unit, when printing a test image on the photosensitive material, in a photographic processing apparatus that prints the test image leaving a margin on one end side of the photosensitive material, The printing processing unit prints the test image on the photosensitive material such that the margin is located at the front end in the discharge direction when the test image is printed on the photosensitive material when the photosensitive material is discharged from the discharge unit. A photographic processing apparatus characterized in that: