JP3955775B2 - Reading apparatus and copier or multifunction machine using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reading apparatus provided with a light-shielding cover for blocking outside light other than light collected by a lens from entering a photoelectric conversion means, and a copying machine or a multifunction machine using the same.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is a reading apparatus having a lens unit configured to block outside light other than light collected by a lens from entering a photoelectric conversion means. This lens unit is provided with a light shielding cover between the lens and the photoelectric conversion means in order to block external light other than the output light from the lens that collects the reflected light from the original from entering the photoelectric conversion means. ing. The structure of the lens unit provided with this light shielding cover was as follows. FIG. 14 is a perspective view of a conventional lens unit having a light shielding cover and an adjuster for adjusting the position of the lens.
[0003]
As shown in FIG. 14, the lens unit 1400 is provided with a light shielding cover 1402 for the lens 1401. The lens 1401 side of the light shielding cover 1402 covers the entire upper surface and both ends of the lens 1401 on the photoelectric conversion means 1403 side.
[0004]
On the other hand, on the photoelectric conversion means 1403 side of the light shielding cover 1402, as shown in FIGS. 15 and 16, a sponge 1405 is provided to prevent outside light from entering between the photoelectric conversion means mounting plate 1404 to which the photoelectric conversion means 1403 is attached. It was what was pasted. FIG. 15 is a sectional view of a conventional lens unit, and FIG. 16 is a view of the conventional lens unit as viewed from above.
[0005]
By doing so, the light shielding cover 1402 completely covers the photoelectric conversion means 1403 side of the lens 1401 on the lens 1401 side, so that external light other than the output light from the lens 1401 enters the photoelectric conversion means 1403. Shut off. On the other hand, in the light shielding cover 1402, outside light other than the output light from the lens 1401 enters the photoelectric conversion means 1403 by the sponge 1405 between the light shielding cover 1402 and the photoelectric conversion means mounting plate 1404 on the photoelectric conversion means 1403 side. Is shut off.
[0006]
An assembly of a reading optical system including an irradiating unit that irradiates light on a document, a mirror that makes light from a reading point incident on the lens 1401, and a lens unit 1400 includes an irradiation unit, a lens 1401, and a reading point Since the positional relationship between the mirror that enters the light 1401 into the lens 1401 and the photoelectric conversion means 1403 is delicate, the following is performed.
[0007]
First, the lens 1401 is fixed to the lens holding base 1406 that holds the lens 1401, and then the positional relationship between the lens holding base 1406 and the photoelectric conversion means mounting plate 1404 is adjusted to change the distance between the lens 1401 and the photoelectric conversion means 1403. decide. Next, the light shielding cover 1402 is attached, and these are placed in the reading device as an integrated lens unit 1400. Next, in order to adjust the positional relationship between the reading point of the reading device and the lens unit 1400, the lens unit 1400 is moved back and forth. In this way, adjustment as the entire reading optical system is performed.
[0008]
[Problems to be solved by the invention]
However, such conventional techniques have the following problems.
[0009]
That is, it is not sufficient to adjust the positional relationship between the reading point of the reading device and the lens unit 1400 after the positional relationship between the lens 1401 and the photoelectric conversion unit 1403 is adjusted in advance and the lens unit 1400 is assembled. Strictly speaking, there was a limit to improving the reading accuracy. This is because the positional relationship between the lens 1401 and the photoelectric conversion unit 1403 cannot be corrected when the positional relationship with the reading point is adjusted. The magnification is improved by adjusting the positional relationship between the reading point and the lens unit 1400, but the focus is improved by adjusting the positional relationship between the lens 1401 and the photoelectric conversion unit 1403. . Normally, magnification blurring has a greater influence on reading than focus blurring, so adjusting the magnification blurring does not have a significant adverse effect on scanning accuracy. However, focus adjustment is indispensable to further improve the reading accuracy.
[0010]
The focus adjustment is performed by finally adjusting the holding position of the lens 1401 after the magnification adjustment is completed in a state where the lens unit 1400 is incorporated in the reading apparatus. However, the lens 1401 itself is covered with the light shielding cover 1402 on the photoelectric conversion means 1403 side. Therefore, as shown in FIG. 14, the cylindrical outer peripheral portion of the exposed lens 1401 that is not covered with the light shielding cover 1402 is held by the jig 1407, and the jig 1407 is moved by the adjuster 1408, whereby the lens 1401 is moved. Must be moved. In this case, since the jig 1407 holds the cylindrical outer peripheral front end portion of the lens 1401 in a state orthogonal to the moving direction of the lens 1401, the lens 1401 follows the guide of the lens holding base 1406 shown in FIG. Therefore, there is a problem that a complicated jig 1407 is required to realize this.
[0011]
On the other hand, once the light shielding cover 1402 is removed from the lens unit 1400, the lens 1401 can be held between the front end and the rear end and held parallel to the moving direction. Thereby, the lens 1401 can be smoothly moved along the guide 1409 of the lens holding base 1406. However, in this case, since the light shielding cover 1402 is removed, focus adjustment is performed in a state where stray light is present, and there is a problem that strict focus adjustment cannot be performed.
[0012]
The light shielding cover 1402 covers the entire lens 1401 on the photoelectric conversion means 1403 side. For this reason, the light-shielding cover 1402 needs to be higher than the height of the lens 1401, and there is a problem that the apparatus is enlarged correspondingly.
[0013]
Further, as can be seen from FIGS. 14 to 16, a claw portion 1410 is formed in the measuring portion of the light shielding cover 1402. The light shielding cover 1402 is fixed to the lens holding base 1406 by inserting the claw portion 1410 into a hole provided in the lens holding base 1406. However, the claw portion 1410 is formed integrally with the light shielding cover 1402 by forming notches 1411a and 1411b on the outer wall of the light shielding cover 1402. For this reason, as shown in FIG. 16, there is a problem that external light enters the light shielding cover 1402 from the notches 1411a and 1411b, and the light shielding performance is deteriorated.
[0014]
Accordingly, the present invention provides a reading apparatus capable of smoothly moving a lens and performing focus adjustment without using a complicated jig even when a light-shielding cover is attached, and a copying machine using the same The purpose is to provide a multifunction device.
[0015]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention provides:A lens for condensing the reflected light from the document, a photoelectric conversion means for converting the output light from the lens into an electrical signal, and a light other than the output light from the lens disposed between the lens and the photoelectric conversion means. A light shielding cover for blocking external light from entering the photoelectric conversion means, and the height of the light shielding cover is lower than the height of the lens and does not obstruct the optical path passing through the lens. The light-shielding cover does not cover the upper surface of the lens on the photoelectric conversion means side, and covers both sides of the lens on the photoelectric conversion means side. The covered portion has a double wall structure, and is a fixing pawl. Therefore, the inner wall shields the external light entering from the groove provided on the outer wall.
[0016]
  As a result, since the upper surface of the lens is not covered by the light shielding cover, the lens can be held between the front end and the rear end with the light shielding cover attached, and the lens is held parallel to the moving direction of the lens. Can be moved smoothly. As a result, it is possible to perform focus adjustment without using a complicated jig with the light shielding cover attached.Further, the upper surface of the lens on the photoelectric conversion means side is not covered by the light shielding cover, but the both sides of the lens are covered so that stray light entering from both ends of the lens is blocked, so that outside light other than the lens output light enters the photoelectric conversion means. And the reading accuracy can be prevented from deteriorating. In addition, by using a double wall structure for the parts covering both sides of the lens, external light entering from the grooves provided on the outer wall for fixing nails can be shielded by the inner wall. Therefore, stray light can be prevented from entering the photoelectric conversion element even from a slight gap, and reading accuracy can be prevented from deteriorating.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
  A reading apparatus according to a first aspect of the present invention includes a lens that collects reflected light from a document, a photoelectric conversion unit that converts output light from the lens into an electrical signal, the lens, and the photoelectric conversion unit. A light-shielding cover that is disposed between and shields outside light other than output light from the lens from entering the photoelectric conversion means, and the height of the light-shielding cover is lower than the height of the lens and A height that does not interfere with the optical path through the lens;The shading cover does not cover the upper surface of the lens on the photoelectric conversion means side, and covers both sides of the lens on the photoelectric conversion means side, and the covered portion has a double wall structure, For this reason, the inner wall shields the external light entering from the groove provided on the outer wall.
[0018]
Accordingly, by making the height of the light shielding cover lower than the height of the lens, the upper surface of the lens is not covered by the light shielding cover, so that the lens is mounted at the front end and the rear end with the light shielding cover attached. The lens can be held, and the lens can be moved smoothly while being held parallel to the moving direction of the lens. As a result, it is possible to perform focus adjustment without using a complicated jig with the light shielding cover attached, and the reading accuracy can be improved. In addition, since it is not necessary to design the height of the reading device based on a height higher than that of the lens, the size of the device can be reduced accordingly.
[0019]
Moreover, even if the height of the light shielding cover is lower than the height of the lens by setting the height of the light shielding cover to a height that does not obstruct the optical path passing through the lens, Therefore, the lens can be smoothly moved during the focus adjustment while functioning as a light shielding cover.
[0021]
  Also,In order to fix the light shielding cover to the lens holder, the light shielding cover is provided with a fixing claw. Since this fixing claw is formed integrally by cutting out the outer wall of the light shielding cover, external light enters the light shielding cover from the notched groove and lowers the light shielding performance.Therefore,The light shielding cover does not cover the upper surface of the lens on the photoelectric conversion means side but covers both sides to block stray light entering from both ends of the lens, thus preventing outside light other than the lens output light from entering the photoelectric conversion means. Thus, it is possible to prevent the reading accuracy from being lowered.
[0022]
  furtherBy using a double wall structure for the parts covering both sides of the lens, external light entering from the groove provided on the outer wall for fixing claws can be shielded by the inner wall. Since it is provided, stray light can be prevented from entering the photoelectric conversion element even from a slight gap, and reading accuracy can be prevented from being lowered.
[0023]
  Of the present inventionSecond aspectIsFirst aspectThe photoelectric conversion means mounting plate for mounting the photoelectric conversion means is provided, the photoelectric conversion means mounting plate has its upper side bent to the lens side, and the photoelectric conversion means side of the light shielding cover is attached to the photoelectric conversion means. The structure is inserted and fixed below the bent portion of the plate.
[0024]
Accordingly, the upper side of the photoelectric conversion means mounting plate to which the photoelectric conversion means is attached is bent to the lens side, and the photoelectric conversion means side of the light shielding cover is inserted below the bent portion, so that only the light shielding cover structure can block light. Since stray light entering between the cover and the photoelectric conversion means can be blocked, a sponge for blocking stray light can be omitted, and accordingly, the number of parts can be reduced and the cost can be reduced.
[0025]
  Of the present inventionThird aspectIsFirst aspectThe photoelectric conversion means mounting plate for attaching the photoelectric conversion means is provided, the photoelectric conversion means mounting plate is bent at its upper side to the lens side, and the photoelectric conversion means side of the light shielding cover is photoelectrically converted to its upper side. An eaves portion protruding on the means side is provided, and this eaves portion is inserted and fixed below the bent portion of the photoelectric conversion means mounting plate.
[0026]
As described above, the photoelectric conversion means side of the light shielding cover is provided with an eaves portion protruding toward the photoelectric conversion means side on the upper side thereof, and this eaves part is inserted below the bent portion of the photoelectric conversion means mounting plate. Even when the photoelectric conversion means mounting plate is moved back and forth and left and right during magnification adjustment or focus adjustment, there is an eaves portion of the light shielding cover between the light shielding cover and the photoelectric conversion means mounting plate. Therefore, it is possible to prevent a gap from being formed between the light shielding cover and the photoelectric conversion means mounting plate for magnification adjustment or focus adjustment, and reliably prevent stray light from entering between them and deteriorating the reading accuracy.
[0027]
  According to a fourth aspect of the present invention, there is provided a copying machine or a multifunction peripheral using the reading device according to any one of the first to third aspects.
[0028]
  As a result, the same effects as those of the first to third aspects can be obtained by the copying machine and the multifunction machine using the invention of the first to third aspects in the reading apparatus.
[0035]
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
[0036]
FIG. 1 is a schematic configuration diagram of a copying machine 100 in which a reading apparatus according to an embodiment of the present invention is mounted. As shown in FIG. 1, the copying machine 100 includes a reading device 101 that reads a document at the top, and a main body unit 102 that performs paper feeding, transfer, recording, and fixing processes below the reading device 101.
[0037]
A paper feed cassette 103 is installed around the bottom of the main unit 102. The paper feed cassette 103 can be extracted from the front of the copying machine 100 shown in FIG. The configuration of the paper feed cassette 103 will be described later.
[0038]
The uppermost sheet of the sheet bundle set in the sheet feeding cassette 103 is taken out by the pickup roller 104. As shown in FIG. 1, the copying machine 100 includes three stages of paper feed cassettes similar to the paper feed cassette 103.
[0039]
The paper taken out from the paper feed cassette 103 is fed by a paper feed roller 105 into a paper path 106 formed upward from the bottom of the main unit 102. In the paper path 106, a plurality of transport rollers 107, 108 and 109 are arranged.
[0040]
The sheet conveyed by the uppermost conveying roller 109 is transferred to the registration roller 111 by the conveying roller 110. A rotating photosensitive drum 112 is disposed at a sheet conveyance destination by the registration roller 111.
[0041]
Above the photosensitive drum 112, an LSU (Laser Scan Unit) 113 that forms a latent image on the surface of the photosensitive drum 112 is disposed. A developing device 114 for adhering toner to the latent image formed on the photosensitive drum 112 is disposed adjacent to the photosensitive drum 112. The developing device 114 includes a stirring roller that stirs and conveys the developer and a developing roller that adheres toner to the photosensitive drum 112.
[0042]
Below the photoconductive drum 112, a transfer device 115 is installed for transferring an image formed by the developer adhering to the photoconductive drum 112 onto the conveyed paper. The registration roller 111 controls the position adjustment between the image on the photosensitive drum 112 and the recording area of the paper.
[0043]
A cleaning unit 116 that cleans the surface of the photosensitive drum 112 that has finished transferring the image is disposed adjacent to the photosensitive drum 112. The sheet on which the image has been transferred is further transported by the transport belt 117. A fixing unit 118 is disposed at the conveyance destination of the conveyance belt 117.
[0044]
The fixing unit 118 includes a fixing roller 119 and a pressure roller 120 disposed to face the fixing roller 119. The fixing roller 119 applies heat to the recording surface of the paper, and the pressure roller 120 presses the paper against the fixing roller 119, whereby the image is fixed on the paper.
[0045]
The sheet discharged from the fixing unit 118 is discharged outside the main body unit 102 by the discharge roller 121. The paper discharged from the main unit 102 is received on the paper discharge tray 122.
[0046]
Between the fixing unit 118 and the discharge roller 121, a switching guide 124 for switching whether to discharge the sheet to the outside of the main unit 102 or to send the sheet to the duplex path 123 for performing duplex recording is disposed. The double-sided path 123 includes a portion (123A) formed downward from the vicinity of the switching guide 124 and a portion (123B) formed in the middle in the middle of the path.
[0047]
The sheet fed into the double-sided path 123 is temporarily drawn by the reverse roller 125 into the reverse path 126 formed on the extension of the portion 123 </ b> A formed in the downward direction of the double-sided path 123. When the paper is drawn into the reversing path 126, the reversing roller 125 is reversed and feeds the paper to the portion 123 </ b> B formed in the substantially horizontal direction in the double-sided path 123. At this point, the front and back of the paper are reversed.
[0048]
The sheet fed into the double-sided path 123B formed in the substantially horizontal direction is conveyed by the conveyance rollers 127, 128, and 129 formed on the double-sided path 123B. The double-sided path 123 </ b> B is connected to the paper path 106 below the conveyance roller 110. The paper that has been transported through the double-sided path 123B by the transport rollers 127, 128, and 129 and sent to the paper path 106 is sent again below the photosensitive drum 112, and an image is formed on the back surface this time.
[0049]
The copying machine 100 includes a large-capacity paper feed cassette 130 that can feed large-capacity paper in addition to the above-described paper feed cassette 103.
[0050]
Next, the configuration of the reading apparatus 101 will be described with reference to FIG. FIG. 2 is a top view of the reading apparatus according to the embodiment. FIG. 2 is a view showing a state where the cover of the reading apparatus 101 is removed.
[0051]
A glass surface 200 on which a document is placed is provided on the upper surface of the reading apparatus 101.
[0052]
A constant speed carriage 201 is provided below the glass surface 200 of the reading apparatus 101. The constant velocity carriage 201 is disposed on a pair of rails 202a and 202b provided in the longitudinal direction on the side wall of the reading apparatus 101, and moves on the rails 202a and 202b from the left side to the right side (reading direction) in the drawing. . The constant-speed carriage 201 irradiates light on the document placed on the upper side while moving on the rails 202a and 202b, and reflects the light reflected from the document to the half-speed carriage 203 provided rearward in the reading direction. send.
[0053]
The half speed carriage 203 moves on the rails 202 a and 202 b at a half speed of the constant speed carriage 201 in synchronization with the movement of the constant speed carriage 201. The half-speed carriage 203 reflects the light reflected by the constant-speed carriage 201 and sends it to the lens unit 204 provided further forward in the reading direction than the constant-speed carriage 201.
[0054]
The lens unit 204 is attached to a lens attachment plate 205 provided in the reading apparatus 101 in a direction crossing the reading direction. A lens 206 that collects light transmitted from the half-speed carriage 203 is provided on the half-speed carriage 203 side of the lens unit 204. The lens 206 is disposed so that the longitudinal direction is parallel to the traveling direction of light.
[0055]
Further, on the opposite side of the lens unit 204 from the half-speed carriage 203, a CCD 207 which is a photoelectric conversion means for converting the light collected by the lens 206 into an electric signal is provided. Then, the reading device 101 reads the information described in the document by analyzing the electrical signal photoelectrically converted by the CCD 207.
[0056]
A light shielding cover 208 is provided between the lens 206 of the lens unit 204 and the CCD 207 to block external light other than the output light from the lens 206 from entering the CCD 207.
[0057]
In addition, a rack 209 is formed in the measuring unit of the lens unit 204. On the other hand, a scale 210 is provided at a position of the lens mounting plate 205 facing the rack 209 along the light incident direction. Then, by sliding the rack 209 of the lens unit 204 along the scale 210 while engaging a pinion gear (not shown), the lens unit 204 can be moved along the reading direction, that is, the light traveling direction. ing.
[0058]
Next, the lens unit 204 will be described in detail. The configuration of the lens unit 204 will be described in detail with reference to FIGS. FIG. 3 is a perspective view of the lens unit according to the above embodiment, FIG. 4 is a top view of the lens unit according to the above embodiment, and FIG. 5 illustrates the lens and the light shielding cover from the lens unit according to the above embodiment. It is a perspective view of the state which removed.
[0059]
As can be seen from these drawings, a lens base 301 for attaching the lens unit 204 to the lens attachment plate 205 shown in FIG. 2 is provided at the bottom of the lens unit 204. At both ends of the lens base 301, mounting portions 302 and 303 for mounting the lens base 301 to the lens mounting plate 205 are provided. The attachment portions 302 and 303 are formed with long holes 304 and 305 a to 305 c that are long in the light incident direction, that is, along the longitudinal direction of the lens 206. The lens base 301 is attached to the lens mounting plate 205 by inserting screws (not shown) into the elongated holes 304, 305 a to 305 c and holes (not shown) formed in the lens mounting plate 205. Yes. Further, the long holes 304, 305a to 305c are long along the light incident direction, that is, the long direction along the rack 209 provided in the measuring portion of the mounting portion 303 is long. The lens base 301 can be moved along the rack 209 by loosening the screws to be inserted into the holes 305c and the holes formed in the lens mounting plate 205.
[0060]
A lens holding hole 306 for holding the lens 206 is formed in the middle of the lens base 301. The width of the lens holding hole 306 is smaller than the diameter of the lens 206 so that the lens 206 does not fall below the lens base 301. In addition, the length of the lens holding hole 306 is longer than the length of the lens 206, and the lens holding hole 306 can move in the length direction of the lens holding hole 306 in a state where the lens 206 is held in the lens holding hole 306. .
[0061]
As shown in FIGS. 3 and 4, the lens 206 is pressed by a lens pressing spring 307 while being fitted in the lens holding hole 306 of the lens base 301. As shown in FIG. 4, a hole 308 is formed at one end of the lens pressing spring 307. In addition, a rectangular square hole 310 is formed at the other end of the lens pressing spring 307.
[0062]
  On the other hand, as shown in FIGS. 3 to 5, a lens holding spring 307 is provided on the side of the lens holding hole 306 of the lens base 301.Square hole 310A protrusion 309 is formed to hook the. Also, as shown in FIG. 5, a hole 501 is formed on the side of the lens holding hole 306 of the lens base 301 where the protrusion 309 is not formed. Then, as shown in FIGS. 3 and 4, the screw 340 is inserted into the hole 308 of the lens holding spring 307 and the hole 501 of the lens base, and the protrusion 309 is inserted into the square hole 310 and hooked, so that the lens holding spring is obtained. The lens 206 is fixed by 307.
[0063]
As shown in FIGS. 3 to 5, a connecting member 311 extending in a direction perpendicular to the longitudinal direction of the lens 206 is attached to the CCD 207 side of the lens base 301. The connection member 311 includes a base portion 328 arranged on the lens base 301 in parallel with the lens base 301, a vertical portion 330 connected to the base portion 328 and extending upward from the base portion 328 at a right angle, and a vertical portion 330 connected to the vertical portion 330. Both end portions 312a and 312b extending in parallel with the base portion 328 from the both ends of the portion 330 to the lens 206 side are formed.
[0064]
Further, as shown in FIG. 5, the base portion 328 of the connection member 311 is formed with a pair of holes 329a and 329b (hidden in the washer in FIG. 5 but shown in FIG. 11). On the other hand, a pair of holes (not shown) are provided at positions of the lens base 301 facing the holes 329 a and 329 b of the connection member 311.
[0065]
The connection member 311 is attached to the lens base 301 by inserting screws 331a and 331b into the hole portions 329a and 329b of the connection member 311 and the hole portions (not shown) of the lens base 301.
[0066]
Further, hole portions (not shown) of the lens base 301 facing the hole portions 329 a and 329 b of the connection member 311 are elongated holes formed in a direction that intersects with the longitudinal direction of the lens 206. Accordingly, by loosening the screws 331a and 331b, the connection member 311 can be moved in the lateral direction with respect to the lens base 301 and the CCD 207, that is, in the direction intersecting the light incident direction.
[0067]
As shown in FIGS. 3 to 5, holes 327a and 327b (in FIG. 5, hidden by screws 317a and 317b but shown in FIG. 11) are formed at both ends of the base portion 328 of the connection member 311. Has been. Further, holes 313a and 313b (hidden by screws 317a and 317b in FIG. 5 but shown in FIG. 11) are formed at both ends 312a and 312b of the connection member 311.
[0068]
A CCD mounting plate 314 for mounting the CCD 207 is mounted on the CCD 207 side of the connecting member 311. The CCD mounting plate 314 has a mounting portion 326 that is perpendicular to the lens base 301 and to which the CCD 207 is mounted, an upper surface portion 318 that is connected to the upper portion of the mounting portion 326 and extends at a right angle to the lens 206 side with respect to the mounting portion 326. A bottom surface portion 324 is formed continuously to the lower portion of the portion 326 and extending perpendicularly to the lens 206 side with respect to the attachment portion 326. Further, at both ends of the upper surface portion 318 of the CCD mounting plate 314, both end portions 325a and 325b further projecting from the upper surface portion 318 to the lens 206 side are formed. Further, holes 316a and 316b (hidden by screws 317a and 317b in FIG. 5 but shown in FIG. 11) are formed in both ends 325a and 325b.
[0069]
Then, in a state where the connection member 311 is included inside the CCD attachment plate 314, the holes 316a and 316b of the CCD attachment plate 314 and the holes 313a and 313b and 327a and 327b of the connection member 311 respectively. The CCD attachment plate 314 is attached to the connection member 311 by inserting the screws 317a and 317b.
[0070]
Also, springs 315a and 315b which are contracted with screws 317a and 317b inside are attached between both ends 312a and 312b of the connecting member 311 and both ends 325a and 325b of the CCD mounting plate 314. Yes. By the springs 315a and 315b, the distance between the both end portions 312a and 312b of the connecting member 311 and the both end portions 325a and 325b of the CCD mounting plate 314 is kept constant without looseness. Further, by tightening or loosening the screws 317a and 317b, the distance between the both end portions 312a and 312b of the connection member 311 and the both end portions 325a and 325b of the CCD mounting plate 314 can be adjusted. That is, the CCD mounting plate 314 can be moved up and down (in the height direction) with respect to the lens base 301.
[0071]
As shown in FIG. 5, an opening 332 through which light passes is formed at the center of the mounting portion 326 of the CCD mounting plate 314.
[0072]
As shown in FIGS. 3 to 5, a CCD 207 is mounted in a CCD spacer 323 on the side opposite to the lens of the mounting portion 326 of the CCD mounting plate 314. A pair of holes (not shown) are formed in the CCD mounting plate 314, the CCD spacer 323, and the CCD 207. By inserting screws 334a and 334b into these holes, the CCD spacer 323 is mounted on the mounting portion 326 of the CCD mounting plate 314. The CCD 207 is attached with the image sandwiched therebetween. The CCD 207 is attached at a position facing the opening 332 of the CCD attachment plate 314.
[0073]
As shown in FIGS. 5 and 9, a protrusion 502 is formed below the lens base 301. A spring 503 is suspended from a part of the bottom portion 324 of the protrusion 502 and the CCD mounting plate 314. Thereby, the positional relationship between the lens base 301 and the CCD mounting plate 314 is kept constant.
[0074]
As shown in FIGS. 3 to 5, a light shielding cover 208 is provided between the lens 206 of the lens unit 204 and the lens mounting plate 314.
[0075]
Here, the configuration of the light shielding cover 208 will be described with reference to FIGS. FIG. 6 is a perspective view of the light shielding cover according to the above embodiment as viewed from above, FIG. 7 is a perspective view of the light shielding cover according to the above embodiment as viewed from below, and FIG. 8 is a light shielding according to the above embodiment. It is a side view of a cover.
[0076]
As can be seen from these drawings, the light shielding cover 208 includes a main body A in which an optical path 601 through which light passes is formed, and a pair of protrusions that extend from the main body A along the optical path 601. Parts B and C are integrally formed.
[0077]
The main body A of the light shielding cover 208 is provided with an upper surface portion 602 so as to cover the optical path 601. Further, side walls 603 a and 603 b are formed on both sides of the upper surface portion 602 so as to be perpendicular to the upper surface portion 602 and to cover the side portions of the optical path 601.
[0078]
Further, a rear wall 612 formed at a right angle to the upper surface portion 602 is connected to an end piece of the upper surface portion 602 of the light shielding cover 208 opposite to the protruding portions B and C. As shown in FIG. 7, an opening 613 is formed in the middle of the rear wall 612 so that light can pass only through the opening 613.
[0079]
Further, as shown in FIGS. 6 to 8, an eaves portion 614 protruding rearward, that is, on the opposite side to the protruding portions B and C is formed on the upper portion of the rear wall 612 of the light shielding cover 208.
[0080]
In addition, a pair of projecting surfaces 604 a and 604 b that extend along the optical path 601 and are connected to the upper surface 602 of the light shielding cover 208 are formed on the upper portions of the protrusions B and C of the light shielding cover 208. Further, inner walls 605a and 605b formed so as to be perpendicular to the projecting surfaces 604a and 604b and to cover both sides of the optical path 601 are connected to the inside of the projecting surfaces 604a and 604b. Further, leading end walls 606a and 606b formed perpendicular to the protruding surfaces 604a and 604b are connected to the leading ends of the protruding surfaces 604a and 604b. Outer walls of the projecting surfaces 604a and 604b are connected to outer walls 607a and 607b perpendicular to the projecting surfaces 604a and 604b.
[0081]
As can be seen from FIG. 3, the distance between the inner walls 605 a and 605 b of the protrusions B and C is larger than the diameter of the lens 206.
[0082]
As can be seen from FIGS. 3 and 10, the side walls 603a and 603b, the inner walls 605a and 605b, the tip walls 606a and 606b, the outer walls 607a and 607b have the same height and are lower than the height of the lens 206. It has become. That is, the height of the light shielding cover 208 is lower than that of the lens 206. The height of the light shielding cover 208 is a height that does not obstruct the optical path passing through the lens 206.
[0083]
As shown in FIGS. 6 to 8, the outer walls 607a and 607b of the light shielding cover 208 are formed with engagement pieces 608a and 608b protruding below the outer walls 607a and 607b. Further, pawls 609a and 609b projecting outward from the engagement pieces 608a and 608b are formed at the tips of the engagement pieces 608a and 608b. Further, notches 610a, 610b, 611a, and 611b are formed on both sides of the engaging pieces 608a and 608b of the outer walls 607a and 607b of the light shielding cover 208, and the engaging pieces 608a and 608b have elasticity. As described above, the light shielding cover 208 is integrally formed with the outer walls 607a and 607b with the engagement pieces 608a and 608b and the claws 609a and 609b which are means for attaching the light shielding cover 208 to the lens base 301.
[0084]
Next, attachment of the light shielding cover 208 to the lens unit 204 will be described.
[0085]
First, as shown in FIG. 9, the light shielding cover 208 is inserted from the rear wall 612 between the upper surface portion 318 of the CCD mounting plate 314 and the base portion 328 of the connection member 311. Next, the claws 609a and 609b of the light shielding cover 208 are inserted into the square holes 335a and 335b provided on both sides of the lens base 301 of the lens unit 204 on the rear side of the lens holding hole 306 shown in FIG. In this way, the light shielding cover 208 is attached to the lens unit 204. FIG. 9 is a cross-sectional view of the lens unit according to the above embodiment.
[0086]
When the light shielding cover 208 is attached to the lens unit 204, as shown in FIG. 4, the inner walls 605a and 605b, the tip walls 606a and 606b, and the outer wall 607a of the protruding portions B and C projecting from the light shielding cover 208 to the lens 206 side. 607b is located on both sides of the rear end of the lens 206, and the inner walls 605a and 605b and the outer walls 607a and 607b cover the side of the rear end of the lens 206.
[0087]
When the light shielding cover 208 is attached to the lens unit 204, a space is created between the main body A of the shielding cover 208 and the lens 206 as shown in FIG.
[0088]
Next, light shielding of the light shielding cover 208 will be described with reference to FIGS. 9 and 10. FIG. 10 is a top view of the lens unit for explaining light shielding of the light shielding cover according to the embodiment.
[0089]
The height of the light shielding cover 208 is lower than the height of the light beam diameter formed on the image forming side with respect to the lens 206, but is set so as not to disturb the light beam incident on the CCD 207. As a result, as shown in FIG. 9, the light incident on the lens 206 is collected by the lens 206, enters the optical path 601 below the upper surface portion 602 of the light shielding cover 208, and reaches the CCD 207.
[0090]
On the other hand, the stray light 901 from above the lens 206 is blocked by the upper surface 602 of the main body A of the light shielding cover 208 and does not directly enter the CCD 207 as light.
[0091]
Thus, even if the height of the light shielding cover 208 is lower than the height of the lens 206 by setting the height of the light shielding cover 208 to a height that does not interfere with the optical path passing through the lens 206, the light shielding cover 208. Therefore, the lens 206 can be smoothly moved during the focus adjustment while performing the function as the light shielding cover 208.
[0092]
Further, since the CCD 207 side of the upper surface portion 602 of the main body portion A of the light shielding cover 208 is inserted into the lower part of the upper surface portion 318 of the CCD mounting plate 314, the upper surface portion 602 of the shielding cover 208 is connected to the upper surface of the light shielding cover 208. The stray light that is about to leak into the CCD 207 from the CCD 207 side of the unit 602 is blocked.
[0093]
In this way, by inserting the CCD 207 side of the light shielding cover 208 below the upper surface portion 318 obtained by bending the upper side of the CCD mounting plate 314 to which the CCD 207 is attached to the lens 206 side, the light shielding cover 208 is formed only by the structure of the light shielding cover 208. And stray light entering between the CCD 207 and the CCD 207 can be blocked. As a result, the conventionally used sponge for blocking stray light can be omitted, and the number of parts can be reduced accordingly, and the cost can be reduced.
[0094]
Further, since the eaves portion 614 exists on the CCD 207 side of the upper surface portion 602 of the light shielding cover 208, the eaves portion 614 prevents stray light from reaching the CCD 207 from the CCD 207 side of the upper surface portion 602 of the light shielding cover 208. Make sure to block stray light.
[0095]
As described above, the eaves portion 614 protruding toward the CCD 207 side is provided on the upper side of the light shielding cover 208 on the CCD 207 side, and the elongate portion 614 is inserted below the bent upper surface portion 318 of the CCD mounting plate 314 to adjust the magnification. Alternatively, even when the CCD mounting plate 314 is moved back and forth and left and right during focus adjustment, the eaves portion 614 of the light shielding cover 208 exists between the light shielding cover 208 and the CCD mounting plate 314. It is possible to prevent a gap from being formed between the light shielding cover 208 and the CCD mounting plate 314 for focus adjustment. As a result, it is possible to reliably prevent stray light from entering between them and degrading the reading accuracy.
[0096]
As shown in FIG. 10, the light shielding cover 208 does not cover the CCD 207 side of the lens 206 on the upper surface portion 602 of the main body A, but the outer walls 607a and 607b and the inner walls 605a and 605b of the protruding portions B and C of the shielding cover 208. However, both sides of the lens 206 on the CCD 207 side are covered. Thereby, the stray light 1001 entering from both sides of the lens 206 enters the inside through the notches 610a and 610b of the outer wall 607a, but is blocked by the inner walls 605a and 605b. Therefore, the shielding cover 208 prevents the outside light other than the output light of the lens 206 from entering the CCD 207 and prevents the reading accuracy from deteriorating.
[0097]
As described above, the upper surface of the lens 206 on the CCD 207 side is not covered by the light shielding cover 208, but the stray light entering from both ends of the lens 206 is blocked by covering both sides, so external light other than the output light of the lens 206 enters the CCD 207. It is possible to prevent the reading accuracy from deteriorating. Further, by forming a portion of the light shielding cover 208 covering both sides of the lens 206 with a double wall structure, notches 610a, 610b, 611a provided on the outer walls 607a, 607b for the fixing claws 609a, 609b. , 611b can be blocked by the inner walls 605a and 605b. As a result, stray light can be prevented from entering the CCD 207 even from a slight gap generated by providing the fixing claws 609a and 609b, and reading accuracy can be prevented from deteriorating.
[0098]
Next, left and right position adjustments of the lens 206 and the CCD 207 will be described with reference to FIG. FIG. 11 is a diagram for explaining left and right and height position adjustment between the lens and the CCD according to the embodiment.
[0099]
In order to adjust the left and right positions of the lens 206 and the CCD 207, screws 331a and 331b attaching the connecting member 311 to the lens base 301 are loosened. Since the length in the left-right direction of the CCD 207 of the holes 329a and 329b into which the screws 331a and 331b are inserted is larger than the diameter of the screws 331a and 331b, the screws 331a and 331b move left and right in the holes 329a and 329b. I can move. That is, the left and right positions of the lens 206 and the CCD 207 can be adjusted. Then, the left and right positions of the lens 206 and the CCD 207 are adjusted appropriately, and the screws 331a and 331b are tightened again. In this way, the left and right positions of the lens 206 and the CCD 207 are adjusted.
[0100]
Further, to raise the position of the CCD 207 with respect to the lens 206, the screws 317a and 317b that attach the CCD attachment plate 314 to the connection member 311 are loosened. Thereby, the space | interval of the CCD attachment part 314 and the connection member 311 leaves | separates. As a result, the position of the CCD 207 is raised with respect to the lens 206. Even in this case, since the springs 315a and 315b urge the CCD mounting plate 314 upward and the connection member 311 downward, the distance between the CCD mounting portion 314 and the connection member 311 is kept constant. Be drunk.
[0101]
Further, in order to lower the position of the CCD 207 with respect to the lens 206, the screws 317a and 317b for attaching the CCD attachment plate 314 to the connection member 311 are tightened. Thereby, the space | interval of the CCD attachment part 314 and the connection member 311 becomes near. As a result, the position of the CCD 207 is lowered with respect to the lens 206. Even in this case, since the springs 315a and 315b urge the CCD mounting plate 314 upward and the connection member 311 downward, the distance between the CCD mounting portion 314 and the connection member 311 is kept constant. Be drunk.
[0102]
Next, adjustment of the distance between the lens 206 and the CCD 207 will be described with reference to FIG. FIG. 12 is a diagram for explaining the adjustment of the distance between the lens and the CCD according to the embodiment.
[0103]
When adjusting the distance between the lens 206 and the CCD 207, the screw 340 is first loosened so that the lens 206 can move in the lens holding hole 306 along the direction of the CCD 207. Next, the front end 1202 and the rear end 1203 of the exposed lens 206 are clamped by the jig 1201. Next, the jig 1201 is moved along the optical axis direction of the lens 206. When the distance between the lens 206 and the CCD 207 becomes an appropriate distance, the screw 340 is tightened for positioning.
[0104]
What should be noted here is that the upper surface of the lens 206 is not covered by the light shielding cover 208. Accordingly, the front end 1202 and the rear end 1203 of the lens 206 can be held by the jig 1201 while the light shielding cover 208 is attached, and the lens 206 is held parallel to the moving direction of the lens 206 and is smooth. Can be moved to.
[0105]
Next, focus adjustment and magnification adjustment of the reading apparatus 101 will be described with reference to FIG. FIG. 13 is a diagram for explaining focus adjustment and magnification adjustment of the reading apparatus according to the embodiment.
[0106]
When adjusting the magnification of the reading apparatus 101, the lens unit 204 is attached to the lens mounting plate 205 shown in FIG. 2, and then the positional relationship between the document surface of the document placed on the reading apparatus and the lens unit 204 is adjusted. . Specifically, the lens unit 204 is moved back and forth with respect to the document surface by moving the rack 209 of the lens unit 204 along the scale 210 of the lens mounting plate 205. In this way, the magnification of the reading apparatus 101 is adjusted.
[0107]
When adjusting the focus of the reading apparatus 101, after the magnification adjustment is completed with the lens unit 204 incorporated in the reading apparatus 101, the distance between the lens 206 and the CCD 207 is adjusted using the jig 1201 as described above. By adjusting, the distance between the lens 206 and the image plane of the CCD 207 is adjusted. In this way, focus adjustment of the reading apparatus 101 is performed.
[0108]
As described above, according to the above embodiment, the upper surface of the lens 206 can be prevented from being covered by the light shielding cover 208 by making the height of the light shielding cover 208 lower than the height of the lens 206. Accordingly, the lens 206 can be held between the front end and the rear end with the light shielding cover 208 attached, and the lens 206 can be held in parallel to the moving direction of the lens 206 and smoothly moved. . As a result, it is possible to perform focus adjustment without using a complicated jig with the light shielding cover 208 attached, and reading accuracy can be improved. In addition, since it is not necessary to design the height of the reading device 101 based on the height of the lens 206 or higher, the size of the device can be reduced accordingly.
[0109]
In the above embodiment, the reading apparatus 101 is mounted on the copying machine 100. However, the reading apparatus 101 is mounted on a multifunction machine having a facsimile function, a copying function, a printer function, and the like. Also good.
[0110]
【The invention's effect】
  As explained above, according to the present invention,Shading coverEven with attachedlensoffront endandTrailing edgeWithout exposing a complicated jig,lensCan be moved smoothly to adjust the focus.Moreover, even if the height of the light shielding cover is lower than the height of the lens by setting the height of the light shielding cover to a height that does not obstruct the optical path passing through the lens, Therefore, the lens can be smoothly moved during the focus adjustment while functioning as a light shielding cover. Further, the upper surface of the lens on the photoelectric conversion means side is not covered by the light shielding cover, but the both sides of the lens are covered so that stray light entering from both ends of the lens is blocked, so that outside light other than the lens output light enters the photoelectric conversion means. And the reading accuracy can be prevented from deteriorating. In addition, by using a double wall structure for the parts covering both sides of the lens, external light entering from the grooves provided on the outer wall for fixing nails can be shielded by the inner wall. Therefore, stray light can be prevented from entering the photoelectric conversion element even from a slight gap, and reading accuracy can be prevented from deteriorating.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a copying machine in which a reading apparatus according to an embodiment of the present invention is mounted.
FIG. 2 is a top view of the reading apparatus according to the embodiment.
FIG. 3 is a perspective view of a lens unit according to the embodiment.
FIG. 4 is a top view of the lens unit according to the embodiment.
FIG. 5 is a perspective view of the lens unit according to the embodiment with the lens and the light shielding cover removed.
FIG. 6 is a perspective view of the light shielding cover according to the embodiment as seen from above.
FIG. 7 is a perspective view of the light shielding cover according to the embodiment as viewed from below.
FIG. 8 is a side view of the light shielding cover according to the embodiment.
FIG. 9 is a sectional view of the lens unit according to the embodiment.
FIG. 10 is a top view of a lens unit for explaining light shielding of the light shielding cover according to the embodiment.
FIG. 11 is a diagram for explaining left and right and height position adjustment between the lens and the CCD according to the embodiment;
FIG. 12 is a diagram for explaining adjustment of the distance between the lens and the CCD according to the embodiment;
FIG. 13 is a diagram for explaining focus adjustment and magnification adjustment of the reading apparatus according to the embodiment;
FIG. 14 is a perspective view of a conventional lens unit having a light shielding cover and an adjuster for adjusting the position of the lens.
FIG. 15 is a sectional view of a conventional lens unit.
FIG. 16 is a top view of a conventional lens unit.
[Explanation of symbols]
100 copier
101 Reader
204 Lens unit
205 Lens mounting plate
206 Lens
207 CCD
208 Shading cover
209 racks
301 Lens base
306 Lens holding hole
307 Lens holding spring
311 Connection member
314 CCD mounting plate
318 Upper surface part
323 CCD spacer
326 Mounting part
328 Base part
332 opening
601 Optical path
602 Upper surface part
603a, 603b side wall
604a, 604b Protruding surface
605a, 605b inner wall
607a, 607b outer wall
608a, 608b engagement piece
609a, 609b claw
610a, 610b, 611a, 611b Notch
612 Rear wall
614 Eaves
1201 Jig

Claims (4)

A lens for condensing the reflected light from the original, a photoelectric conversion means for converting the output light from the lens into an electric signal, and a light other than the output light from the lens disposed between the lens and the photoelectric conversion means. A light shielding cover for blocking external light from entering the photoelectric conversion means, and the height of the light shielding cover is lower than the height of the lens and does not obstruct the optical path passing through the lens. The light-shielding cover does not cover the upper surface of the lens on the photoelectric conversion means side, and covers both sides of the lens on the photoelectric conversion means side. The covered portion has a double wall structure, and is a fixing pawl. A reading device characterized in that the inner wall shields external light entering from a groove provided in the outer wall for the purpose. A photoelectric conversion means mounting plate for attaching the photoelectric conversion means is provided. The photoelectric conversion means mounting plate is bent at the upper side to the lens side, and the photoelectric conversion means side of the light shielding cover is a bent portion of the photoelectric conversion means mounting plate. The reading apparatus according to claim 1, wherein the reading apparatus is fixed by being inserted downward. A photoelectric conversion means mounting plate for attaching the photoelectric conversion means is provided, and the photoelectric conversion means mounting plate has its upper side bent to the lens side, and the photoelectric conversion means side of the light shielding cover is an eaves projecting from the upper side to the photoelectric conversion means side. 2. A reading apparatus according to claim 1, wherein an elongate portion is provided and fixed below the bent portion of the photoelectric conversion means mounting plate. A copier or a multifunction machine using the reading device according to any one of claims 1 to 3.

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