JPH0745075Y2 - Photosensitive material pressing device for flatbed scanning image recording device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a photosensitive material pressing roller device for a planar scanning type image recording apparatus, and more particularly to a pressing roller pressing structure.

[Prior Art] FIG. 3 schematically shows a general plane scanning type image recording apparatus. The light beam L ₀ emitted from the laser light source 40 is modulated by the light modulation element 41 according to the image signal I, and projected onto the rotary polygon mirror 43 via the beam expander 42.
The rotary polygon mirror 43 has a plurality of reflecting surfaces 43M arranged in a regular polygonal shape, and the reflecting surface 43M portion is rotated at a high speed by a driving device 43D. Then, the light beam L ₀ reflected by the rotating reflecting surface 43M scans along the recording scan line 30S between the optical paths L ₁ and L ₂ through the fθ lens 45.

On the other hand, the transport roller 2 is rotated by a roller driving device 32, and a photosensitive material such as a photosensitive film 30 is mounted on the peripheral surface thereof. That is, the photosensitive film 30 is moved in the direction perpendicular to the recording scan line 30S, and sequentially along the recording scan line 30S.
Scan and expose. The pressing roller 46 is positioned in parallel with the conveying roller 2, and is pressed by a predetermined pressing force following the conveying roller 2 to clamp the photosensitive film 30.

To properly expose the photosensitive film 30, the recording scan line 30S formed on the photosensitive film 30 should be
It is necessary to move so that it is almost perpendicular to the end line of. Therefore, the pressing force of the pressing roller 46 against the transport roller 2 must be averaged over the entire length. That is, if the pressing force of the pressing roller 46 is not averaged and a pressure difference occurs, an error occurs in the transfer of the photosensitive film 30, and the recording scanning line 30S deviates from the predetermined line.

Further, the pressing force of the pressing roller 46 needs to be adjusted to an appropriate value. This is because when the pressing force is too strong, the roller driving device 32 is overloaded, and when it is too weak, the photosensitive film 30 cannot be sufficiently held.

FIG. 4 shows a conventional photosensitive material pressing device. First, the fourth
In the structure shown in FIG. A, a pressing roller 46 is rotatably supported by two supporting bodies 47. The support body 47 is rotatable about the central shaft 48 in the arrow 110 direction. One end of the spring 50 is fixed to the tip of the support 47, and the other end of the spring 50 is a pressing force adjusting tool.
It is fixed at 55. That is, the pressing roller 46 is pressed against the conveying roller 2 by the tensile force of the spring 50. The pressing force adjuster 55 can change the tensile force of the spring 50 to adjust the pressing force of the pressing roller 46 against the transport roller 2.

What is shown in FIG. 4B is another conventional example. This photosensitive material pressing device includes a torsion spring 51 at each end of the central shaft 48.
Is fitted. One end of the torsion spring 51 is a support
It is fixed to 47 and gives the support 47 rotational force. The other end of the torsion spring 51 is fixed to a pressing force adjusting tool 56. The pressing roller 46 is pressed against the conveying roller 2 by the turning force of the torsion spring 51. The pressing force adjusting tool 56 can change the turning force of the torsion spring 51 to adjust the pressing force of the pressing roller 46 against the conveying roller 2.

[Problems to be Solved by the Invention] However, the above-mentioned conventional photosensitive material pressing device in the planar scanning type image recording device has the following problems.

The photosensitive material pressing device shown in FIG. 4A is provided with two independent springs 50. And each spring 50
The pulling force is adjusted by the two pressing force adjusting tools 55 corresponding to. That is, the pressing roller for the transport roller 2
In order to adjust the pressing force of 46 or to average the pressing force over the entire length, it is necessary to adjust two pressing force adjusting tools 55 that are separately provided. Fine precision is required for this adjustment. Therefore, there is a problem that the adjustment work is complicated and difficult, and the work efficiency is reduced.

The photosensitive material pressing device shown in FIG. 4B is also provided with a torsion spring 51 and two pressing force adjusting tools 56 corresponding thereto. Therefore, a problem similar to that of the photosensitive material pressing device shown in FIG. 4A occurs.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a photosensitive material pressing device for a flat-scanning image recording device that can perform adjustment work easily and accurately and that improves work efficiency.

[Means for Solving the Problem] The photosensitive material pressing device in the flat-scanning image recording apparatus according to claim 1 is rotatably supported so that its central axis is parallel to the traveling position of the recording-scanning light beam. And a rotation roller that is driven to rotate, on which the photosensitive material is mounted, and a pressing roller that is positioned parallel to the transportation roller and presses the photosensitive material by pressing with a predetermined pressing force. In a photosensitive material pressing device in a flat-scanning image recording apparatus including two supporting members that support a pressing roller and are located opposite to each other, a tubular portion is fixed to each of the two supporting members so as to face each other. The outer circumferences of the two cylinders are connected by a tension elastic member, and the adjustment shaft penetrates through the support and the cylinder to rotatably hold the support and the cylinder. It can be moved to the A fulcrum protrusion that is in contact with the elastic member is provided, and the pressing force of the pressing roller against the conveying roller is changed by moving the adjusting shaft in the rotation direction.

According to a second aspect of the present invention, there is provided a photosensitive-material pressing device for a flat-scanning image recording apparatus, wherein the photosensitive-material pressing device for a flat-scanning image recording apparatus according to claim 1 detects a positional deviation of a photosensitive material mounted on a conveying roller and causes an error. A detector that outputs a signal is provided, and an adjuster that adjusts the position of the fulcrum protrusion by moving the adjustment shaft in the axial direction according to the error signal is provided.

[Operation] In the photosensitive material pressing device in the planar scanning type image recording apparatus according to the first aspect, the outer peripheries of the two cylindrical portions are connected by the tension elastic member. Further, an adjustment shaft penetrates through the support body and the tubular portion, and a fulcrum projection provided on the adjustment shaft is in contact with the tension elastic member. Then, the adjusting shaft can move in the axial direction.

Therefore, by moving the adjustment shaft in the axial direction, the pressing force of the pressing roller against the conveying roller can be averaged over the entire length.

Furthermore, in the photosensitive material pressing device in the flat-scanning image recording apparatus according to the first aspect, the pressing force of the pressing roller against the conveying roller can be changed by moving the adjusting shaft in the rotation direction.

Therefore, by moving the adjusting shaft in the rotating direction, the pressing force of the pressing roller applied to the conveying roller can be adjusted.

In the planar scanning image recording apparatus according to the second aspect, the photosensitive material pressing device detects the positional deviation of the photosensitive material mounted on the conveying roller by the detector and outputs an error signal. Then, according to the error signal, the adjuster moves the adjustment shaft in the axial direction to adjust the position of the fulcrum protrusion.

Therefore, the averaging adjustment of the pressing force of the pressing roller can be performed based on the error signal output from the detector.

[Embodiment] FIG. 1 shows a photosensitive material pressing device in a planar scanning type image recording device according to the present invention. A photosensitive material is mounted on the peripheral surface of the transport roller 2. In this embodiment, the photosensitive film 30 is used as the photosensitive material. The photosensitive film 30 is irradiated with a light beam of laser light which is scanned along the recording scan line 30S (see FIG. 3). That is, the laser light source
The light beam L ₀ emitted from 40 is reflected by the rotary polygon mirror 43 via the light modulation element 41 and the beam expander 42.
Then, through the fθ lens 45, scanning is performed between the optical paths L ₁ and L ₂ along the recording scanning line 30S.

The carrying roller 2 is supported by a carrying roller central shaft 2J, and the carrying roller central shaft 2J is positioned parallel to the recording scanning line 30S. The transport roller 2 is a roller driving device.
It is rotationally driven by 32. That is, the photosensitive film 30
Are transferred in the direction perpendicular to the recording scan line 30S and are sequentially exposed along the recording scan line 30S.

In order to prevent the photosensitive film 30 mounted on the carrying roller 2 from sagging, the carrying roller 2 is provided with a pressing roller 4
Is pressed with a predetermined pressing force. That is, the photosensitive film 30 is held between the transport roller 2 and the pressing roller 4. The pressing roller 4 is located parallel to the transport roller 2.

The press roller 4 is pivotally supported by two support bodies 6 as shown in the figure. Two tubular portions 6T, which are respectively opposed to each other, are fixed to these support bodies 6. The adjustment shaft 8 penetrates through both the support 6 and the tubular portion 6T.
That is, the support body 6 and the pressing roller 4 axially supported by the support body 6 can rotate about the adjustment shaft 8. The adjustment shaft 8 penetrating the support 6 and the tubular portion 6T is provided so as to be movable in the axial direction (arrow 100 direction) and the rotation direction (arrow 102 direction).

FIG. 2 shows details of each part such as the pressing roller 4, the support 6, the adjusting shaft 8 and the like. Tube part 6T fixed to both supports 6
Each of them is provided with a connection protrusion 61. Then, a leaf spring as a stretchable elastic member is attached to the connecting protrusion 61.
10 is fixed. That is, the outer circumferences of the two tubular portions 6T are connected by the leaf spring 10.

On the other hand, a fulcrum protrusion 8P is provided on the adjustment shaft 8 penetrating the support 6 and the tubular portion 6T. The fulcrum protrusion 8P is positioned so as to contact the leaf spring 10 as shown in FIG. That is, the leaf spring 10 is pressed by moving the adjustment shaft 8 in the rotation direction (direction indicated by the arrow 102), and the support 6 is moved.
Can be rotated around the adjusting shaft 8. Due to the rotation of the support body 6, the pressing force of the pressing roller 4 axially supported by the support body 6 with respect to the transport roller 2 changes. That is, by moving the adjusting shaft 8 in the rotating direction, the pressing force of the pressing roller 4 can be adjusted, and the strength with which the photosensitive film 30 is sandwiched can be controlled.

Further, by sliding the adjustment shaft 8 in the axial direction (direction of arrow 100), it is possible to perform averaging adjustment over the entire length of the pressing roller 4. For example, it is assumed that the adjustment shaft 8 is slid to move the position of the fulcrum protrusion 8P and press one end of the leaf spring 10. Here, the two supports 6 can move independently of each other, and the leaf spring 10 connecting them is
Is a member having elasticity.

Therefore, in this case, the support 6 located on the pressed one end side
Will be pushed more in the direction of rotation than the other support 6. This makes it possible to adjust the balance of the pressing force over the entire length of the pressing roller 4. In this way, the pressing force of the pressing roller 4 against the transport roller 2 is averaged.

Also, a detector 20 for detecting the positional deviation of the photosensitive film 30 can be provided. The detector 20 outputs an error signal ES toward the adjuster 22 when the mounting of the photosensitive film 30 deviates from the proper position. Upon receiving the error signal ES, the adjuster 22 moves the adjustment shaft 8 in the axial direction (direction of arrow 100) to correct the positional deviation of the photosensitive film 30. That is, the error signal ES
And calculate the direction to move,
The adjustment shaft 8 is moved until the error value reaches “0”.

Two pressing rollers can be provided (not shown). That is, two pressing rollers are provided so that the recording scanning line 30S formed on the photosensitive film 30 is located between them. As a result, the photosensitive film 30 is held more securely, and highly accurate exposure work becomes possible.

[Advantages of the Invention] In the photosensitive material pressing device in the planar scanning image recording apparatus according to the first aspect, the pressing force of the pressing roller with respect to the conveying roller can be averaged over the entire length by moving the adjustment shaft in the axial direction. it can. Further, by moving the adjusting shaft in the rotating direction, the pressing force of the pressing roller applied to the conveying roller can be adjusted.

Therefore, the pressing force of the pressing roller can be adjusted easily and accurately, and the work efficiency of the adjusting work can be improved.

The photosensitive material pressing device in the flatbed scanning image recording device according to claim 2 is based on an error signal output from the detector,
The pressing force of the presser roller can be averaged and adjusted.

Therefore, the averaging adjustment of the pressing force of the pressing roller can be performed more easily and accurately, and the working efficiency can be further improved.

[Brief description of drawings]

FIG. 1 is a perspective view showing a photosensitive material pressing device in a planar scanning type image recording apparatus according to an embodiment of the present invention, and FIG. 2 is a photosensitive material pressing device in the planar scanning type image recording apparatus of FIG. FIG. 3 is a perspective view showing details of each part such as a pressing roller, a support and an adjusting shaft, FIG. 3 is a perspective view showing a general plane scanning type image recording apparatus, and FIGS. 4A and 4B are conventional plane scanning type. It is a perspective view showing a photosensitive material pressing device in the image recording apparatus. 2 …… Conveyor roller 4 …… Presser roller 6 …… Supporting body 6T …… Cylinder 8 …… Adjustment axis 8P …… Support point protrusion 10 …… Flat spring 20 …… Detector 22 …… Adjuster

Claims (2)

[Scope of utility model registration request] 1. A conveyance roller which is rotatably supported and rotated such that its central axis is parallel to the traveling position of a recording scanning light beam, and a photosensitive material is mounted on its peripheral surface. Planar scanning provided with a roller, a pressing roller that is parallel to the conveying roller and presses the photosensitive material by pressing with a predetermined pressing force, and two supporting members that support the pressing roller and that face each other. In the photosensitive material pressing device of the image recording apparatus of the type, the cylindrical portions are fixed to the two supports, respectively, and the outer peripheries of the two cylindrical parts are connected by a tension elastic member. The adjustment shaft penetrates through the portion to rotatably hold the support and the cylindrical portion, the adjustment shaft is movable in the axial direction, and the adjustment shaft is provided with a fulcrum protrusion that contacts the tension elastic member. , The adjustment shaft moves in the rotation direction Photosensitive material holding device in the planar scanning image recording apparatus characterized by, changing the pressing force of the pressing roller against. 2. The photosensitive material pressing device in the flatbed scanning type image recording apparatus according to claim 1, further comprising a detector for detecting a positional deviation of the photosensitive material mounted on the conveying roller and outputting an error signal, A photosensitive material pressing device in a flat scanning image recording device, characterized in that an adjusting device for adjusting the position of the fulcrum protrusion is provided by moving the adjusting shaft in the axial direction.