CN2490597Y

CN2490597Y - Reflecting lens supporting structure

Info

Publication number: CN2490597Y
Application number: CN 01232917
Authority: CN
Inventors: 陈聪颖
Original assignee: Transpacific IP Ltd
Current assignee: Transpacific IP Pte Ltd.
Priority date: 2001-08-07
Filing date: 2001-08-07
Publication date: 2002-05-08
Anticipated expiration: 2011-08-07

Abstract

A reflecting lens supporting structure is applied to a reflecting lens of an optical scanner. The structure adopts the principles that three points combine a plane or a single point and a line combine a plane; the reflect lens is supported by forming a salient rib or a salient point on a supporting seat, thereby improving the shortcomings that in the ordinary supporting structure, bending and distorted deformation of the reflecting lens bends which are produced in an unparallel angle of a supporting surface cause image distortion.

Description

The reflecting optics supporting structure

Technical field

The utility model relates to a kind of reflecting optics supporting structure, particularly relevant for a kind of reflecting optics supporting structure that is applied to the optical scanner reflecting optics.

Background technology

In common optical scanner (Fig. 1), comprise a light source 100, a reflector group 400, a camera lens 500, a shell 900, and an optical sensor is such as being Charged Coupled Device (CCD) 600.When scanning, light source 100 irradiation manuscripts 200 obtain an image light through reflection or transmission.Reflector group 400 is made up by a plurality of reflecting optics (401,402,403), and be configured on the light path of image light, it can place manuscript 200 images on the light-passing board 300 to import reflector group 400, and the reflection of process reflector group 400 is resent to camera lens 500.Camera lens 500 by can receive reflector group 400 transmission manuscript 200 image light and image in Charged Coupled Device 600.

Wherein, the fixed form of normal mirror sheet as shown in Figure 2, is on the shell 900 of optical scanner inside two vertical planes parallel to each other, forms one parallel to each other and be positioned at conplane bearing seat 700 respectively.The breasting face 705 that on aforementioned two bearing seats 700, is used to carry reflecting optics 401, has a salient rib 701 parallel to each other respectively, the bottom surface at reflecting optics 401 two ends is line with these two salient ribs 701 respectively simultaneously and contacts, and is subjected to aforementioned two bearing seats, 700 carryings.Behind the position of adjusting reflecting optics 401, for example be the clip sheet with clamping components at last, reflecting optics 401 two ends are clamped to respectively on two bearing seats 700.

Yet, because being shells with optical scanner, aforementioned two bearing seats 700 are formed in one, formed in the mode of ejection formation, and it is not good because of the ejection formation condition easily, and causes two bearing seats 700 not parallel to each other.In this case, when reflecting optics 401 is fixed on two bearing seats 700, can cause reflecting optics 401 torsional deformations, the state of angle presentation shakiness, also easily move or transportation in, the problem that angle changes takes place, image space changes when causing scanning, influences image quality.

Summary of the invention

The purpose of this utility model is to propose a kind of supporting structure of reflecting optics, be applied to the reflecting optics of optical scanner, utilize 3 principles that become a plane or single-point to become a plane with line, come the breasting reflecting optics, improving common breasting face angle reflecting optics bending, torsional deformation of being produced when not parallel, and cause the shortcoming of image fault.

According to above-mentioned purpose of the present utility model, the utility model proposes a kind of reflecting optics supporting structure, be configured in the scan module main body cover of an optical scanner, in order to carry at least one reflecting optics, this reflecting optics supporting structure comprises: one first bearing seat, be formed on the aforementioned scan module main body cover, have a breasting face, have a salient rib on this breasting face; One second bearing seat, be formed on the aforementioned scan module main body cover, has a breasting face, has a salient rib on this breasting face, wherein, the breasting face of second bearing seat is positioned at same plane with the breasting face of first bearing seat, and the salient rib of second bearing seat is identical with the salient rib height of first bearing seat, and it is orthogonal to form direction; And at least one clamping components, the two ends of reflecting optics are clamped to respectively on first bearing seat and second bearing seat, when reflecting optics is fixed on first bearing seat and second bearing seat, the bottom surface at reflecting optics two ends is contacted with the salient rib of second bearing seat and the salient rib of first bearing seat simultaneously respectively, and is a little with the salient rib of the salient rib of first bearing seat and second bearing seat and line contacts.

The utility model proposes a kind of reflecting optics supporting structure in addition, be configured in the scan module main body cover of optical scanner, in order to carry at least one reflecting optics, this reflecting optics supporting structure comprises: one first bearing seat, be formed on the aforementioned scan module main body cover, have a breasting face, have a salient rib on this breasting face; One second bearing seat, be formed on the aforementioned scan module main body cover, has a breasting face, have two salient points on this breasting face, wherein, the breasting face of second bearing seat is positioned at same plane with the breasting face of first bearing seat, and the salient point of second bearing seat is identical with the salient rib height of first bearing seat, and the salient rib of the online direction of the salient point of second bearing seat and first bearing seat formation direction is orthogonal; And at least one clamping components, the two ends of reflecting optics are clamped to respectively on first bearing seat and second bearing seat, when reflecting optics is fixed on first bearing seat and second bearing seat, the bottom surface at reflecting optics two ends is contacted with the salient point of second bearing seat and the salient rib of first bearing seat simultaneously respectively, contact and be at 2, be with the salient rib of first bearing seat and contact with the salient point of second bearing seat.

In addition, the utility model also proposes a kind of reflecting optics supporting structure, be configured in the scan module main body cover of optical scanner, in order to carry at least one reflecting optics, this reflecting optics supporting structure comprises: one first bearing seat, be formed on the aforementioned scan module main body cover, have a breasting face, have a salient point on this breasting face; One second bearing seat, be formed on the aforementioned scan module main body cover, has a breasting face, have two salient points on this breasting face, wherein, the breasting face of second bearing seat is positioned at same plane with the breasting face of first bearing seat, and the salient point of second bearing seat is identical with the bump height of first bearing seat, and the salient point of first bearing seat is positioned at the online external position of the salient point of second bearing seat; And at least one clamping components, the two ends of reflecting optics are clamped to respectively on first bearing seat and second bearing seat, when reflecting optics is fixed on first bearing seat and second bearing seat, the bottom surface at reflecting optics two ends is contacted with the salient point of second bearing seat and the salient point of first bearing seat simultaneously respectively, contact and be at 2, be with the salient point of first bearing seat and contact with the salient point of second bearing seat.

According to feature of the present utility model, on two bearing seats, form a mutually perpendicular salient rib respectively, form the principle on plane according to any and line, when making reflecting optics be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other.

Perhaps, on two bearing seats, form a salient rib and two salient points respectively, according to 3 principles that form the plane, when making reflecting optics be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other.

Perhaps, on two bearing seats, form a salient point and two salient points respectively, according to 3 principles that form the plane, when making reflecting optics be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other.

Description of drawings

Fig. 1 is the diagrammatic cross-section of ordinary optical scanner;

Fig. 2 is the reflecting optics supporting structure synoptic diagram of ordinary optical scanner;

Fig. 3 is the reflecting optics supporting structure synoptic diagram of the utility model the 1st embodiment optical scanner;

Fig. 4 is the reflecting optics supporting structure synoptic diagram of the utility model the 2nd embodiment optical scanner;

Fig. 5 is the reflecting optics supporting structure synoptic diagram of the utility model the 3rd embodiment optical scanner;

Fig. 6 is the reflecting optics supporting structure synoptic diagram of the utility model the 4th embodiment optical scanner;

Fig. 7 is the reflecting optics supporting structure synoptic diagram of the utility model the 5th embodiment optical scanner;

Fig. 8 is the reflecting optics supporting structure synoptic diagram of the utility model the 6th embodiment optical scanner.

100: light source

200: manuscript

300: light-passing board

400: reflector group

401,402,403,411: reflecting optics

500: optical lens

600: optical sensor

700,710,720,730: bearing seat

701,711,721,731,801: salient rib

705,715,725,735: breasting face

712,722: salient point

800: the elasticity suspended wall

900: shell

Embodiment

The 1st embodiment

With reference to Fig. 3, the shell in optical scanner inside on two vertical planes parallel to each other therein, forms a parallel to each other and breasting face respectively and is positioned at

conplane bearing seat

710 and 720 substantially.The

breasting face

715 and 725 that on aforementioned two bearing

seats

710 and 720, is used to carry reflecting optics 411, have a mutually perpendicular

salient rib

711 and 721 respectively, the bottom surface at reflecting optics 411 two ends is a little with these two

salient ribs

711 and 721 respectively simultaneously and line contacts, and is subjected to aforementioned two bearing

seats

710 and 720 carryings.Behind the position of adjusting reflecting optics 411, with clamping components clip sheet for example, reflecting optics 411 two ends are clamped to respectively on two bearing

seats

710 and 720 at last.

Wherein, on two bearing

seats

710 and 720, form a mutually perpendicular

salient rib

711 and 721 respectively, form the principle on plane according to any and line, when making reflecting optics 411 be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other, cause image fault, influence scanning resolution.

The 2nd embodiment

With reference to Fig. 4, the shell in optical scanner inside on two vertical planes parallel to each other therein, forms a parallel to each other and breasting face respectively and is positioned at

conplane bearing seat

710 and 720 substantially.The breasting

face

715 and 725 that is used to carry reflecting optics 411 on aforementioned two bearing

seats

710 and 720 have a salient rib 711 and two salient points 722 respectively, and the formation direction of the online direction of two salient points and salient rib is orthogonal.The bottom surface at reflecting optics 411 two ends is line with salient rib 711 respectively simultaneously and contacts and be at 2 with two salient points 722 and contact, and carried by aforementioned two bearing seats 710 and 720.Behind the position of adjusting reflecting optics 411, with clamping components clip sheet for example, reflecting optics 411 two ends are clamped to respectively on two bearing

seats

710 and 720 at last.

Wherein, on two bearing

seats

710 and 720, form a salient rib 711 and two salient points 722 respectively, according to 3 principles that form the plane, when making reflecting optics 411 be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other, cause image fault, influence scanning resolution.

The 3rd embodiment

With reference to Fig. 5, the shell in optical scanner inside on two vertical planes parallel to each other therein, forms a parallel to each other and breasting face respectively and is positioned at conplane bearing

seat

730 and 720 substantially.The breasting

face

735 and 725 that is used to carry reflecting optics 411 on aforementioned two bearing

seats

730 and 720 has a mutually perpendicular

salient rib

731 and 721 respectively.In addition, on bearing seat 730, form an elasticity suspended wall 800 in integrated mode, it is one parallel and with respect to the clamping face 805 of the breasting face 735 of bearing seat 730 that this elasticity suspended wall 800 has, has a salient rib 801 on this clamping face 805, the distance that the salient rib 801 of this elasticity suspended wall 800 and the salient rib of bearing seat 730 are 731 is less than the thickness of reflecting optics 411, one end of reflecting optics 411 is configured between the clamping face 805 of the breasting face 735 of bearing seat 730 and elasticity suspended wall, be with the salient rib 801 of the salient rib 731 of bearing seat 730 and elasticity suspended wall 800 and contact, and gripped by elasticity suspended wall 800 by the elasticity of elasticity suspended wall 800.The bottom surface of reflecting optics 411 other ends is line with the salient rib 721 of bearing seat 720 and contacts, and with clamping components clip sheet for example, reflecting optics 411 these ends is clamped on the bearing seat 720.

Wherein, on two bearing

seats

730 and 720, form a mutually perpendicular

salient rib

731 and 721 respectively, form the principle on plane according to any and line, when making reflecting optics 411 be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other, cause image fault, the resolution of influence scanning.

The 4th embodiment

With reference to Fig. 6, the shell in optical scanner inside on two vertical planes parallel to each other therein, forms a parallel to each other and breasting face respectively and is positioned at conplane bearing

seat

730 and 720 substantially.The breasting

face

seats

730 and 720 have a salient rib 731 and two salient points 722 respectively, and the formation direction of the online direction of two salient points and salient rib is orthogonal.In addition, on bearing seat 730, form an elasticity suspended wall 800 in integrated mode, it is one parallel and with respect to the clamping face 805 of the breasting face 735 of bearing seat 730 that this elasticity suspended wall 800 has, has a salient rib 801 on this clamping face 805, the distance that the salient rib 801 of this elasticity suspended wall 800 and the salient rib of bearing seat 730 are 731 is less than the thickness of reflecting optics 411, one end of reflecting optics 411 is configured between the clamping face 805 of the breasting face 735 of bearing seat 730 and elasticity suspended wall, be with the salient rib 801 of the salient rib 731 of bearing seat 730 and elasticity suspended wall 800 and contact, and gripped by elasticity suspended wall 800 by the elasticity of elasticity suspended wall 800.The bottom surface of the other end of reflecting optics 411 is at 2 with two salient points 722 of bearing seat 720 and contacts, and with clamping components clip sheet for example, reflecting optics 411 these ends is clamped on the bearing seat 720.

Wherein, on two bearing

seats

730 and 720, form a salient rib 731 and two salient points 722 respectively, according to 3 principles that form the plane, when making reflecting optics 411 be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other, cause image fault, the resolution of influence scanning.

The 5th embodiment

With reference to Fig. 7, the shell in optical scanner inside on two vertical planes parallel to each other therein, forms a parallel to each other and breasting face respectively and is positioned at

conplane bearing seat

710 and 720 substantially.The breasting

face

seats

710 and 720 has a salient point 712 and a salient rib 721 respectively, and this salient point 712 is not positioned on the formation direction of salient rib 721.The bottom surface at reflecting optics 411 two ends is to contact and be line with salient rib 721 with salient point 712 respectively simultaneously and contacts, and carried by aforementioned two bearing seats 710 and 720.Behind the position of adjusting reflecting optics 411, with clamping components clip sheet for example, reflecting optics 411 two ends are clamped to respectively on two bearing

seats

710 and 720 at last.

Wherein, on two bearing

seats

710 and 720, form a salient point 712 and a salient rib 721 respectively, form the principle on plane according to any and line, when making reflecting optics 411 be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other, cause image fault, the resolution of influence scanning.

In addition, bearing seat 710 can integrated mode, forms an elasticity suspended wall 800 as the bearing seat 730 of the 3rd preferred embodiment, to replace for example clamping components of clip sheet and so on, grips reflecting optics 411.

The 6th embodiment

With reference to Fig. 8, the shell in optical scanner inside on two vertical planes parallel to each other therein, forms a parallel to each other and breasting face respectively and is positioned at

conplane bearing seat

710 and 720 substantially.The breasting

face

seats

710 and 720 has a salient point 712 and two salient points 722 respectively, and this salient point 712 is not positioned on the online direction of two salient points 722.The bottom surface at reflecting optics 411 two ends is with three salient points 722 respectively simultaneously and contacts, and is subjected to aforementioned two bearing

seats

710 and 720 at last.

Wherein, on two bearing

seats

710 and 720, form a salient point 712 and two salient points 722 respectively, according to 3 principles that form the plane, when making reflecting optics 411 be fixed on two bearing seats, can be because of two bearing seat torsional deformations that produce not parallel to each other, cause image fault, the resolution of influence scanning.

According to above-mentioned embodiment of the present utility model as can be known, the utility model has following advantage at least:

(1) on two bearing seats, forms a mutually perpendicular salient rib respectively, form the principle on plane according to any and line, when making reflecting optics be fixed on two bearing seats, improve the common image fault that torsional deformation causes that produces because of two breasting faces are not parallel to each other.

(2) form a salient rib and two salient points respectively on two bearing seats, according to 3 principles that form planes, when making reflecting optics be fixed on two bearing seats, it is parallel to each other and produce the image fault that torsional deformation causes to improve common two bearing seats.

(3) form a salient point and two salient points respectively on two bearing seats, according to 3 principles that form planes, when making reflecting optics be fixed on two bearing seats, it is parallel to each other and produce the image fault that torsional deformation causes to improve common two bearing seats.

(4) on bearing seat, form an elasticity suspended wall, be used for the clamping reflecting optics, can reduce the number of clamping components, reduce cost in integrated mode.

Six preferred embodiments of the present invention openly as above, but it is not in order to limiting the present invention, any change in the present invention conceives scope all drops in protection scope of the present invention.

Claims

1. a reflecting optics supporting structure is configured in the scan module main body cover of optical scanner, is used to carry at least one reflecting optics, and this reflecting optics supporting structure comprises:

One first bearing seat is formed on this scan module main body cover, has a breasting face, has a salient rib on this breasting face;

One second bearing seat is formed on this scan module main body cover, has a breasting face, has a salient rib on this breasting face,

Wherein, the breasting face of this second bearing seat is positioned at same plane with the breasting face of this first bearing seat, and the salient rib of this second bearing seat is identical with the salient rib height of this first bearing seat; And

At least one clamping components is clamped to the two ends of this reflecting optics respectively on this first bearing seat and this second bearing seat,

It is characterized in that it is orthogonal that the salient rib of this second bearing seat and this first bearing seat salient rib form direction;

When this reflecting optics is fixed on this first bearing seat and this second bearing seat, the bottom surface at these reflecting optics two ends is contacted with the salient rib of this second bearing seat and the salient rib of this first bearing seat simultaneously respectively, and is a little with the salient rib of the salient rib of this first bearing seat and this second bearing seat and line contacts.

2. reflecting optics supporting structure as claimed in claim 1 is characterized in that, this clamping components comprises:

On this first bearing seat, form an elasticity suspended wall, it is one parallel and with respect to the clamping face of this first bearing seat breasting face that this elasticity suspended wall has, have a salient rib on this clamping face, the distance between the salient rib of the salient rib of this elasticity suspended wall and this first bearing seat is less than the thickness of this reflecting optics

During clamping, one end of this reflecting optics is configured between this first bearing seat breasting face and this elasticity suspended wall clamping face, elasticity by this elasticity suspended wall is gripped by this elasticity suspended wall, and is with this first bearing seat salient rib and this elasticity suspended wall salient rib respectively and contacts.

3. reflecting optics supporting structure as claimed in claim 1 is characterized in that, this clamping components comprises:

On this second bearing seat, form an elasticity suspended wall, it is one parallel and with respect to the clamping face of this second bearing seat breasting face that this elasticity suspended wall has, have a salient rib on this clamping face, the distance between this elasticity suspended wall salient rib and this second bearing seat salient rib is less than the thickness of this reflecting optics

During clamping, one end of this reflecting optics is configured between the clamping face of the breasting face of this second bearing seat and this elasticity suspended wall, elasticity by this elasticity suspended wall is gripped by this elasticity suspended wall, and is with this second bearing seat salient rib and this elasticity suspended wall salient rib respectively and contacts.

4. a reflecting optics supporting structure is configured in the scan module main body cover of optical scanner, is used to carry at least one reflecting optics, and this reflecting optics supporting structure comprises:

One second bearing seat is formed on this scan module main body cover, has a breasting face;

Wherein, the breasting face of this second bearing seat is positioned at same plane with the breasting face of this first bearing seat; And

It is characterized in that having two salient points on the breasting face of second bearing seat, the salient point of this second bearing seat is identical with the salient rib height of this first bearing seat, and the online direction of this second bearing seat salient point and this first bearing seat salient rib to form direction orthogonal,

When this reflecting optics is fixed on this first bearing seat and this second bearing seat, the bottom surface at these reflecting optics two ends is contacted with the salient point of this second bearing seat and the salient rib of this first bearing seat simultaneously respectively, contact and be at 2, be with the salient rib of this first bearing seat and contact with the salient point of this second bearing seat.

5. reflecting optics supporting structure as claimed in claim 4 is characterized in that, this clamping components comprises:

On this first bearing seat, form an elasticity suspended wall, it is one parallel and with respect to the clamping face of this first bearing seat breasting face that this elasticity suspended wall has, have a salient rib on this clamping face, the distance between the salient rib of this elasticity suspended wall and this first bearing seat salient rib is less than the thickness of this reflecting optics

During clamping, this reflecting optics one end is configured between this first bearing seat breasting face and this elasticity suspended wall clamping face, elasticity by this elasticity suspended wall is gripped by this elasticity suspended wall, and is with this first bearing seat salient rib and this elasticity suspended wall salient rib respectively and contacts.

6. reflecting optics supporting structure as claimed in claim 4 is characterized in that, this clamping components comprises:

On this second bearing seat, form an elasticity suspended wall, it is one parallel and with respect to the clamping face of this second bearing seat breasting face that this elasticity suspended wall has, have a salient rib on this clamping face, the distance between the salient rib of the salient rib of this elasticity suspended wall and this second bearing seat is less than the thickness of this reflecting optics

During clamping, one end of this reflecting optics is configured between this second bearing seat breasting face and this elasticity suspended wall clamping face, elasticity by this elasticity suspended wall is gripped by this elasticity suspended wall, and is with this second bearing seat salient rib and this elasticity suspended wall salient rib respectively and contacts.

7. a reflecting optics supporting structure is configured in the scan module main body cover of optical scanner, is used to carry at least one reflecting optics, and this reflecting optics supporting structure comprises:

One first bearing seat is formed on this scan module main body cover, has a breasting face;

It is characterized in that, has a salient point on the breasting face of this first bearing seat, have two salient points on the breasting face of this second bearing seat, two salient points of this second bearing seat are identical with the bump height of this first bearing seat, and the salient point of this first bearing seat is positioned at the online outer position of two salient points of this second bearing seat

When this reflecting optics is fixed on this first bearing seat and this second bearing seat, the bottom surface at these reflecting optics two ends is contacted with two salient points of this second bearing seat and the salient point of this first bearing seat simultaneously respectively, contact and be at 2, be with the salient point of this first bearing seat and contact with two salient points of this second bearing seat.

8. reflecting optics supporting structure as claimed in claim 7 is characterized in that, this clamping components comprises:

On this first bearing seat, form an elasticity suspended wall, it is one parallel and with respect to the clamping face of this first bearing seat breasting face that this elasticity suspended wall has, have a salient rib on this clamping face, the distance between the salient point of the salient rib of this elasticity suspended wall and this first bearing seat is less than the thickness of this reflecting optics

During clamping, one end of this reflecting optics is configured between the clamping face of the breasting face of this first bearing seat and this elasticity suspended wall, elasticity by this elasticity suspended wall is gripped by this elasticity suspended wall, and be with the salient point of this first bearing seat respectively and contact, and be with the salient rib of this elasticity suspended wall and contact.

9. reflecting optics supporting structure as claimed in claim 7 is characterized in that, this clamping components comprises:

On this second bearing seat, form an elasticity suspended wall, it is one parallel and with respect to the clamping face of this second bearing seat breasting face that this elasticity suspended wall has, have a salient rib on this clamping face, the distance between two salient points of the salient rib of this elasticity suspended wall and this second bearing seat is less than the thickness of this reflecting optics

During clamping, one end of this reflecting optics is configured between this second bearing seat breasting face and this elasticity suspended wall clamping face, elasticity by this elasticity suspended wall is gripped by this elasticity suspended wall, and be at 2 with two salient points of this second bearing seat respectively and contact, and be with this salient rib of this elasticity suspended wall and contact.