JPH0362772A - Contact image sensor - Google Patents

Abstract

PURPOSE:To make the device small in size inexpensive by devising the sensor such that the position of a rod lens array is adjusted by a position adjustment screw mounted to a screw part provided to a claw of a lens holder and the elastic force of the claw of the lens holder. CONSTITUTION:A light radiating from a rod lens array 4 reaches a sensor 3 through a long slot 1a provided to a frame 1. Then the focal point of the rod lens array 4 is adjusted by fitting a position adjustment screw 11 to a female screw 8a of a 4-claw lens holder 8, turning the screw 11 while utilizing the elastic force of the claw 8c provided to the 4-claw lens holder 8. The 4-claw lens holder 8 is made of a thin metallic plate and the claws 8a-8c has elasticity. Then the claws 8a, 8b nip the rod lens array 4 and a frame 1 for pressing to allow the rod lens array 4 to be supported. When the rod lens array 4 is inched upward with the turning of the adjustment screw 11, the claw 8c is deformed elastically.

Description

DETAILED DESCRIPTION OF THE INVENTION INDUSTRIAL APPLICATION J Field of the Invention The present invention relates to a frame shape of a contact image sensor and a method for supporting and positioning a rod 1/lens ray.

[Conventional technology]

Traditionally, CCD type,
There are CaS Se types and close-contact image sensor tights, but up until now the CCD type has been the mainstream. However, because of the reading method of the CCD type, there is a limit to miniaturization of the entire device. On the other hand, a contact image sensor has the advantage of being able to read documents with a width of 1, which is the same size as the one used by the sensor, so the size of the device can be reduced by . Accordingly, the demand for a contact image sensor type reading method is rapidly increasing, and at the same time, the demand for miniaturization of the contact image sensor is becoming more severe.

7 and 8 are a plan view and a side view of a conventional contact image sensor, and (14) is 7' in the figure.
- (2) a sensor board mounted on the 1t machine frame (14), (3) a sensor on the gun mounting board (2), (
4) is Flem tt4) 7. Kolensuho A. Da (15)
The rod array, array (5) is mounted on the upper slope of the room (14), and the array (6) is the connector, ( 7) is a glass plate, (9) is a rubber plate, (10) is a manuscript, (11)
) moves the rod lens array (4) upward using a position adjustment screw that adjusts the focal position of the rod lens array (4). (12) is a side plate.

As shown in the figure, the original (10) between the glass plate (7) and 1 Latin (9) is illuminated by a single light source, the LED playback (5), and the light reflected from the original (10) is reflected by the rod lens array. (4), an erect, same-size image is formed on the sensor (3) through the elongated hole r14a), and the document is read.

Here, a plan view and a side view of the frame (14) and a perspective view of the lens holder (15) having three claws are shown in FIG. 9, FIG. 1O, and FIG. 11. In the figure (14a) is an elongated hole provided in the frame (14), which serves as a light path. (14
b) is a female thread.

The claws (15) of the three-claw lens holder (15) shown in FIG.
Since a) to (15c) have spring properties, the rod lens array (4) is attached to the claw (15a) of the holder (15).
(15b) shows the rod lens array (4) and the frame (
14) By sandwiching the frame (14)
The claw (15c) of the lens holder (15) is elastically deformed when the rod lens array (4) slightly moves upward due to the rotation of the adjustment screw (1) shown in FIG. ) is rotated in the opposite direction, the rod lens array (4) is slightly moved downward by the elastic force of the spring to adjust the focal position.

Here, the length L of the frame (14) shown in FIG. 9 is L =
It is expressed as L++2L2.

LI: The length of the elongated hole, which is the original reading width plus the spread width of light. 14) includes the female thread and its machining allowance in the net document reading width shown in the above formula, so the entire surface LM of the contact image sensor becomes larger and the elongated hole (14)
Processing b) is required, and processing using a small-diameter tri-N, end mill, etc. takes a long time and is expensive.

c Problem to be solved by the invention J As described above, in the conventional contact image sensor, it is necessary to provide an elongated hole in the frame in the optical path between the rod lens array and the sensor, and the rod lens array position adjustment must be made on both sides of the elongated hole. Since a female thread is provided for this purpose, there is a problem in that the device becomes larger and the processing cost becomes high.

This invention was made in order to solve the above-mentioned problems. It improves the flexibility by providing a long groove in the frame, and also provides a position adjustment mechanism for the rod array lens in the lens holder to improve the close contact image. A contact image sensor according to the present invention includes a frame, a light source, a document, a rod lens array, a lens holder having a plurality of C claws, and a sensor. 2) Reflected light from the original illuminated by the light source passes through the memorandum rod lens array and the long groove provided in the frame to form an image on the J7 sensor, and the rod lens array 1/7. - E) V Ta's nails -? l' The clamped lever is provided in the pawl of the holder, and the part e is
The position of the rod lens array is adjusted by the position adjusting screw which is set by 4 screws each time it is installed, and the elasticity (tl) of the claw of the lens holder i.

[Function 1] In the close-contact image sensor according to the present invention, the optical path of the frame becomes a long groove, and the position of the rod lens array is adjusted by the female thread of the lens holder, so the close-contact image sensor is miniaturized. Moreover, groove machining is easy and inexpensive.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to the drawings. 1st
Rounds and Figure 2 are plan and side views! 1. In the figure, (1) is a frame, (8) is a lens holder with four claws, and (13) is an adhesive member.

Items whose description is omitted are the same as those in the conventional example.

A perspective view of the four-claw lens holder (8) is shown in Figure 3 (A).
) (B) Figure 4 shows the plan view and side view of the frame (1) in Figure 5 and Figure 6. In the figure, (la) indicates the long groove provided in the frame (1), and (8a) indicates the female part 1 of the id four-claw lens holder. It is composed of two parts, and as shown in an enlarged view in FIG.

Next, the operation will be explained.

In the figure, as in the conventional example, the original (10) sandwiched between the glass plate (7) and the deraden (9) is lit by a single light source.
The light illuminated by the ED array (5) and reflected by the original (10) passes through the rod lens array (4), and an erected life-size image of the original is displayed on the sensor (2) placed on the sensor substrate (2).
3), and the original is read.

Here, the light emitted from the rod lens array (4) passes through the long groove (18) provided in the frame (1) and passes through the sensor (
3). The focal position of the rod lens array (4) can be adjusted using the female screw part (8) of the four-claw lens holder (8).
Attach the position adjustment screw (11) to B) and tighten this screw (1
1) and the elastic force of the later-described claws (8) provided on the four-claw lens holder (8).

After installation, the four-claw lens holder (8) is fixed to the side plate (12) with an adhesive member (13) to prevent positional displacement due to changes over time.

FIGS. 3A and 3B show details of the four-claw lens holder (8).

The four-claw lens holder (8) is made of a thin metal plate, and the claws (8a) to (8c) have spring properties. and nails (8
B) (Bb>'; bx Rod lens array (4) and frame (1) Support the rod lens array (4) by fully holding it and pressing it. The claw (8d) has screws arranged intermittently in the circumferential direction. A female threaded portion (88) formed in a spiral slope corresponding to the pitch of is provided, and an adjustment screw (11) is attached to this female threaded portion (8 molars).
When the rod lens array (4) slightly moves upward due to the rotation, the claw (8c) is elastically deformed. Next, the screw (11)
When rotating in the opposite direction, 5. The rod lens array (4) is slightly moved downward by the spring elastic force of the claw (8C), and the focal position is adjusted.

As shown in FIGS. 5 and 6 in detail, the frame (1) is provided with a long groove (1a). This long groove (la j
simply has parallel grooves in the frame (]).
This can be done with simpler processing than the conventional one shown in FIG. - Also, the length LN of frame I, - frame (1) is the original ti
! ? The rod lens array (8c) of the lens holder (8) is the addition of a light spreading ring with a reading width of 1.
4) is sufficient, and the female part is not required, so the total length LMN in FIG. 1 may be shorter than the total length LL71o of the conventional device shown in FIG. 7.

In the above embodiment, the four-claw lens holder (8) was provided with only a female threaded portion (88), but as shown in FIG. In order to support without sticking, the claws (81a) (81b) of the four-jaw lens holder (81) may be provided with g-holes to give elasticity to the claws (81a) (81b).

The other functions in FIG. 4 are the same as in FIG. 3.

Further, in the above embodiment, the four-claw lens holder (8) (81
) is shown using an adhesive member (13) for fixing, but adhesive may also be used.

Effects of the Invention As described above, according to the present invention, reflected light from a document illuminated by a light source passes through the rod lens array and the long groove provided in the frame and forms an image on the sensor. At the same time, the rod lens array is held in the frame by the claws of the lens holder, and the elastic force of the position adjustment screw attached to the threaded part of the claw of the lens holder and the claw of the lens holder allows Since the position of the rod lens array/nl is configured to be adjusted, the device can be made smaller and less expensive.

[Brief explanation of drawings]

1 to 6 show a contact image sensor according to an embodiment of the present invention. , FIG. 4 is a perspective view of a four-claw lens holder according to another embodiment, FIG. 5 is a plan view of the frame, and FIG. 6 is a side view of the same. 7 to 11 are diagrams showing a conventional contact image sensor, in which FIG. 7 is a plan view, FIG. 8 is a side view, and FIG. 9 is a full-front view.
10 is a side view of the same, and FIG. 11 is a perspective view of the three-claw lens holder. In the figure, (1) is the frame, (18) is the long groove, (3
) is the sensor, (4) is the rod lens array, (8)
(8a) is a threaded portion, and (11) is a position adjustment screw. Note that the same reference numerals in the figures indicate the same or equivalent parts.

Claims (1)

[Claims] The frame includes a frame, a light source, a document, a rod lens array, a lens holder having a plurality of claws, and a sensor, and the reflected light from the document illuminated by the light source is transmitted to the rod lens array and the long groove provided in the frame. The rod lens array is held on the frame by the claws of the lens holder, and a position adjustment screw is attached to a threaded portion provided in the claw of the lens holder. and a close-contact image sensor, wherein the position of the rod lens array is adjusted by the elastic force of the claw of the lens holder.