CN115118849A

CN115118849A - Imaging system adjusting device and adjusting method

Info

Publication number: CN115118849A
Application number: CN202210706448.XA
Authority: CN
Inventors: 兰海燕; 康时俊; 沈曙光
Original assignee: Shengjisheng Precision Technology Ningbo Co ltd; SGS Ningbo Semiconductor Technology Co Ltd
Current assignee: Shengjisheng Precision Technology Ningbo Co ltd; SGS Ningbo Semiconductor Technology Co Ltd
Priority date: 2022-06-21
Filing date: 2022-06-21
Publication date: 2022-09-27

Abstract

The invention relates to an imaging system adjusting device and an adjusting method, wherein the imaging system adjusting device comprises a lens adjusting mechanism, a light source detecting mechanism and a master control device which are matched with each other, and the position of a lens fixed on the lens adjusting mechanism is adjusted by adopting a supporting component, a lens fixing component, a pitching angle adjusting component, a swinging angle adjusting component and a displacement adjusting component, so that the focusing position and angle of the lens can be adjusted more accurately, and a good light source is provided. The adjusting device and the adjusting method of the imaging system have the characteristics of convenience in operation, improvement of definition and detection accuracy, good performance and good adaptability.

Description

Imaging system adjusting device and adjusting method

Technical Field

The invention relates to the technical field of chip manufacturing, in particular to an imaging system adjusting device and an imaging system adjusting method.

Background

When a semiconductor device is manufactured, image acquisition is needed, and processing is performed better and more accurately, but after components such as a camera, a light source and the like in the prior art are arranged, the relative position angle between the components and a to-be-detected piece is not adjustable, so that the imaging effect is not ideal, and final production is influenced.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an imaging system adjusting device which is convenient to adjust, high in accuracy and good in performance.

In order to achieve the above object, an image forming system adjusting apparatus and an adjusting method of the present invention are as follows:

the imaging system adjusting device is mainly characterized by comprising:

the lens adjusting mechanism is used for fixing and adjusting the position of the lens;

the light source adjusting mechanism is used for fixing and adjusting the position of a light source mechanism for providing a light source for the lens;

the light source detection mechanism is used for detecting the irradiation position of the light source mechanism and is arranged on the lower side of the light source adjusting mechanism;

the master control device is respectively connected with the lens, the light source adjusting mechanism and the light source detecting mechanism;

wherein, the camera lens adjustment mechanism includes:

a support assembly;

the lens fixing component is used for adjusting and limiting the axial angle of the lens, and the lens is fixed on the lens fixing component;

the pitching angle adjusting component is used for driving the lens fixing component to form pitching angle adjustment and locking relative to the supporting component;

the swing angle adjusting assembly is used for driving the lens fixing assembly to form left-right swing angle adjustment and locking relative to the supporting assembly;

and the displacement adjusting assembly is used for driving the lens fixing assembly to form up-and-down position adjustment and locking relative to the supporting assembly.

This imaging system adjusting device, wherein, the fixed subassembly of camera lens includes:

the lens fixing assembly is connected with the pitching angle adjusting assembly, the swinging angle adjusting assembly and the displacement adjusting assembly through the first fixing plate;

the clamping ring is fixed on the first fixing plate, a through hole for the lens to pass through and limit the lens up and down is formed in the clamping ring, and the lens can rotate in the clamping ring along the axial direction of the clamping ring;

and the limiting clamping block is used for limiting the axial angle of the lens relative to the clamping ring after the axial angle of the lens is adjusted.

The imaging system adjusting device, wherein, the pivot angle adjusting component includes:

the second fixed plate is used for supporting the lens fixed component;

the second fixing plate is connected with the supporting component through the swing angle rotating shaft;

the swing angle adjusting screw components are arranged on two sides of the second fixing plate and are used for driving the second fixing plate to adjust the left-right swing angle relative to the supporting component;

and the first locking screw component is used for fixing the left-right swinging angle of the second fixing plate relative to the supporting component after the left-right swinging angle of the second fixing plate relative to the supporting component is adjusted.

This imaging system adjusting device, wherein, pitch angle adjusting part includes:

the third fixing plate is used for supporting the lens fixing component;

the rotating support component comprises rotating supports positioned at two sides of the third fixed plate, so that the third fixed plate can form pitch angle adjustment relative to the support assembly around the rotating supports;

the supporting elastic part is abutted between the third fixing plate and the supporting component and is positioned at the lower side of the rotating supporting component;

and the first adjusting screw component passes through the third fixing plate and is connected with the supporting component, and the first adjusting screw component is positioned on the upper side of the rotating supporting component and is used for fixing the third fixing plate relative to the supporting component to form a pitch angle.

The imaging system adjusting device, wherein, the displacement adjusting component comprises:

the guide sliding rail component is used for bearing the lens fixing component;

and the second adjusting screw component is used for driving the lens fixing component to form up-and-down position adjustment and locking relative to the supporting component along the guide slide rail component.

The imaging system adjusting device, wherein the light source adjusting mechanism comprises:

the light source bearing assembly is used for bearing the light source mechanism;

and the angle adjusting assembly is respectively connected with the light source bearing assembly and the master control device and is used for adjusting the rotating angle of the light source bearing assembly according to the instruction of the master control device.

The imaging system adjusting device, wherein, the angle adjusting component includes:

the rotating shaft is fixed on the light source bearing assembly;

and the motor component is connected with the master control device and controls the rotating shaft to rotate according to the instruction of the master control device so as to drive the light source bearing assembly to rotate.

This imaging system adjusting device, wherein, the angle adjustment subassembly still includes:

a rotating shaft connected with the motor member;

two drive belts;

two ends of the rotating shaft are respectively connected with the transmission ends of the rotating shaft at two sides of the light source bearing component through two transmission belts.

The imaging system adjusting device, wherein, the light source bearing assembly includes:

a light source mechanism fixing member for fixing the light source mechanism;

the fixed support is connected with the rotating shaft;

the bending support piece plate comprises a first connecting plate and a second connecting plate which are positioned on different planes and are connected with each other;

the bending support piece plate is slidably arranged on the fixed support through the first connecting plate, and the horizontal position of the bending support piece plate on the fixed support is adjusted through a horizontal adjusting screw component;

the second locking screw component is used for further limiting the relative position of the bending support piece plate and the fixed support after the horizontal position of the bending support piece plate on the fixed support is adjusted;

a longitudinal adjusting screw component is arranged on the second connecting plate, and the longitudinal position of the light source mechanism fixing component on the second connecting plate is adjusted through the longitudinal adjusting screw component;

and a third locking screw member for further limiting the relative position of the light source mechanism fixing member and the light source mechanism fixing member after the longitudinal position of the light source mechanism fixing member on the second connecting plate is adjusted.

This imaging system adjusting device, wherein, light source detection mechanism includes:

the illuminometer is connected with the master control device;

and the light source correction plate is arranged on the upper side of the illuminometer, and a slit for the light source to pass through is arranged on the light source correction plate.

The imaging system adjusting method based on the imaging system adjusting device is mainly characterized by comprising the following steps of:

step 1: the light source adjusting mechanism judges whether a light source mechanism on the light source adjusting mechanism is adjusted in place or not, and transmits a detection result to the master control device;

step 2: the master control device generates an instruction according to the detection result to adjust the rotation angle of the light source adjusting mechanism, and adjusts the position of the light source mechanism on the light source adjusting mechanism according to the detection result so as to adjust the light source mechanism to a system preset position;

and step 3: and determining whether the position of the lens is required to be adjusted according to the shooting state of the lens detected by the master control device.

The imaging system adjusting method further comprises the following steps after the step 3:

and 4, step 4: the master control device controls the light source adjusting mechanism to adjust the rotating angle of the light source mechanism according to the preset changing angle of the system.

The adjusting device and the adjusting method of the imaging system of the invention are characterized in that by arranging a lens adjusting mechanism, a light source detecting mechanism and a master control device which are mutually matched, and the position of the lens fixed on the lens adjusting mechanism is adjusted by adopting the support component, the lens fixing component, the pitching angle adjusting component, the swinging angle adjusting component and the displacement adjusting component, thereby adjusting the focusing position and angle of the lens better, more conveniently and more accurately, providing good light source, the lens is fixed on the lens fixing component, and the position and the angle of the lens fixing component fixed with the lens are adjusted through the pitching angle adjusting component, the swinging angle adjusting component and the displacement adjusting component, so that the deviation caused in the lens mounting process is effectively reduced, the focusing is better performed, and the image is better acquired. The relative positions of the lens, the light source and the object to be shot can be adjusted more accurately and rapidly by matching with the corresponding adjusting method. The adjusting device and the adjusting method of the imaging system have the characteristics of convenience in operation, improvement of shooting definition, improvement of detection accuracy, good performance and good adaptability.

Drawings

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, the features and the effects of the present invention.

Fig. 1 is a first perspective view structural diagram of an imaging system adjustment apparatus of the present invention.

Fig. 2 is a second perspective view of the adjusting device of the imaging system of the present invention.

Fig. 3 is a schematic structural diagram of a lens adjusting mechanism in the imaging system adjusting apparatus of the present invention.

Fig. 4 is a side view of a lens adjusting mechanism in the imaging system adjusting apparatus of the present invention.

Fig. 5 is a schematic structural diagram of a pivot angle adjusting assembly in the lens adjusting mechanism in the imaging system adjusting apparatus of the present invention.

Fig. 6 is a schematic structural diagram of a light source adjusting mechanism in the image forming system adjusting apparatus of the present invention.

Fig. 7 is a schematic structural diagram of a light source detection mechanism in the image forming system adjustment apparatus of the present invention.

FIG. 8 is a schematic view of an embodiment of an adjusting screw member.

Reference numerals

1 lens adjusting mechanism

11 support assembly

12 lens fixing component

121 first fixing plate

122 position clamping ring

123 limit fixture block

13 swing angle adjusting component

131 second fixing plate

132 swing angle rotary shaft

133 swing angle adjusting screw component

134 first locking screw member

14 pitch angle adjustment assembly

141 third fixing plate

142 rotation support member

143 supporting spring

144 first adjusting screw member

15 displacement adjustment assembly

151 guide rail member

152 second adjusting screw member

2 light source regulating mechanism

21 light source bearing assembly

211 light source mechanism fixing component

212 fixed support

213 bending support piece plate

2131 first connecting board

2132 second connecting board

214 level adjustment screw member

215 longitudinal adjusting screw member

216 third locking screw member

217 second locking screw member

22 angle adjusting component

221 rotating shaft

222 motor component

223 rotating shaft

224 drive belt

3 light source detection mechanism

31 illuminometer

32 light source correcting plate

Slit 321

4 lens

Detailed Description

In order to make the technical means, the characteristics, the purposes and the functions of the invention easy to understand, the invention is further described with reference to the specific drawings. However, the present invention is not limited to the following embodiments.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention.

As shown in fig. 1 to 8, the imaging system adjusting device includes a lens adjusting mechanism 1, a light source adjusting mechanism 2, a light source detecting mechanism 3, and a general control device. Wherein:

the lens adjusting mechanism 1 is for fixing and adjusting a position of the lens 4, and the lens adjusting mechanism 1 includes:

a support assembly 11;

a lens fixing assembly 12 for adjusting and limiting an axial angle of the lens 4, wherein the lens 4 is fixed on the lens fixing assembly 12, and the lens fixing assembly 12 includes:

the first fixing plate 121, the lens fixing assembly 12 is connected to the pitch angle adjusting assembly 14, the tilt angle adjusting assembly 13 and the displacement adjusting assembly 15 through the first fixing plate 121;

the position clamping ring 122 is fixed on the first fixing plate 121, a through hole for the lens 4 to pass through and limit the lens 4 up and down is formed in the position clamping ring 122, and the lens 4 can rotate in the position clamping ring 122 along the axial direction of the lens;

and the limiting fixture block 123 is configured to limit the axial angle of the lens 4 relative to the clamping ring 122 after the axial angle of the lens 4 is adjusted.

The swing angle adjusting assembly 13 is used for driving the lens fixing assembly 12 to form adjustment and locking of a left-right swing angle relative to the supporting assembly 11, and the swing angle adjusting assembly 13 comprises:

a second fixing plate 131 for supporting the lens fixing assembly 12;

a swing angle rotating shaft 132, through which the second fixing plate 131 is connected to the support assembly 11;

the swing angle adjusting screw members 133 are disposed at two sides of the second fixing plate 131, and the swing angle adjusting screw members 133 are configured to drive the second fixing plate 131 to adjust a left-right swing angle relative to the supporting assembly 11;

and a first locking screw 134 for fixing the horizontal swing angle of the second fixing plate 131 with respect to the supporting member 11 after the horizontal swing angle of the second fixing plate 131 with respect to the supporting member 11 is adjusted.

The pitch angle adjusting component 14 is used for driving the lens fixing component 12 to form pitch angle adjustment and locking relative to the supporting component 11; the pitch angle adjustment assembly 14 includes:

a third fixing plate 141 for supporting the lens holding assembly 12;

a rotary support member 142 including rotary supports at both sides of the third fixing plate 141, such that the third fixing plate 141 can form a pitch angle adjustment around the rotary supports with respect to the support assembly 11;

a supporting elastic element 143, which is supported between the third fixing plate 141 and the supporting component 11, and the supporting elastic element 143 is located at the lower side of the rotating supporting member 142; in a specific implementation, the supporting elastic member 143 may be formed of a spring;

a first adjusting screw member 144 passing through the third fixing plate 141 and connected to the support assembly 11, wherein the first adjusting screw member 144 is located on the upper side of the rotation support member 142 and is used for fixing the third fixing plate 141 to form a pitch angle with respect to the support assembly 11.

The displacement adjusting assembly 15 is used for driving the lens fixing assembly 12 to form up-and-down position adjustment and locking relative to the supporting assembly 11, and the displacement adjusting assembly 15 comprises:

a guide rail member 151 for carrying the lens holding assembly 12;

the second adjusting screw member 152 is used for driving the lens fixing assembly 12 to form an adjustment and locking of an up-and-down position relative to the supporting assembly 11 along the guiding slide rail member 151.

As shown in fig. 1 to 4, in this embodiment, the pitch angle adjusting assembly 14 is fixed to the support assembly 11 through the tilt angle adjusting assembly 13.

The light source adjusting mechanism 2 is used for fixing and adjusting the position of a light source mechanism for providing a light source for the lens, and the light source adjusting mechanism 2 comprises a light source bearing component 21 and an angle adjusting component 22, wherein:

the light source bearing component 21 is used for bearing the light source mechanism; the light source carrying assembly 21 includes:

a light source mechanism fixing member 211 for fixing the light source mechanism;

a fixed support 212 connected to the rotation shaft 221;

a bending support plate 213 including a first connecting plate 2131 and a second connecting plate 2132 which are located on different planes and connected with each other;

the bending support plate 213 is slidably disposed on the fixing support 212 through the first connecting plate 2131, and a horizontal position of the bending support plate 213 on the fixing support 212 is adjusted through a horizontal adjusting screw 214;

a second locking screw 217 for further limiting the relative position of the bending support plate 213 and the fixing support 212 after adjusting the horizontal position of the bending support plate 213 on the fixing support 212;

a longitudinal adjusting screw member 215 is arranged on the second connecting plate 2132, and the longitudinal position of the light source mechanism fixing member 211 on the second connecting plate 2132 is adjusted through the longitudinal adjusting screw member 215;

a third locking screw member 216 for further limiting the relative position of the light source mechanism fixing member 211 and the light source mechanism fixing member 211 after the longitudinal position of the light source mechanism fixing member 211 on the second connecting plate 2132 is adjusted.

The pivot angle adjusting screw member 133, the second adjusting screw member 152, the horizontal adjusting screw member 214 and the longitudinal adjusting screw member 215 in this embodiment may all be formed by the adjusting screw member shown in fig. 8 (the actual size may be selected according to the specific installation position), that is, the pivot angle adjusting screw member includes a fixing block, a bolt structure passing through the fixing block and connected to the component to be adjusted, and the component connected to the bolt structure may have corresponding threads thereon to achieve connection with the bolt.

As shown in fig. 5 and 6, the first locking screw member, the second locking screw member and the third locking screw member in this embodiment are all formed by screws matching with corresponding waist-shaped holes, that is, when the screws are adjusted to the right position, the screws pass through the corresponding waist-shaped holes and the openings on the member to be fixed to the member to be fixed, thereby achieving locking and fixing.

The angle adjusting assembly 22 is respectively connected to the light source bearing assembly 21 and the general control device, and is configured to adjust the rotation angle of the light source bearing assembly 21 according to the instruction of the general control device, and the angle adjusting assembly 22 includes:

the rotating shaft 221 is fixed on the light source bearing assembly 21;

the motor component 222 is connected with the master control device, and the motor component 222 controls the rotating shaft 221 to rotate according to the instruction of the master control device so as to drive the light source bearing assembly 21 to rotate;

a rotation shaft 223 connected to the motor member 222;

two drive belts 224;

two ends of the rotating shaft 223 are respectively connected to the driving ends of the rotating shaft 221 at two sides of the light source bearing assembly 21 through the two driving belts 224.

In operation, the motor member 222 can be controlled by the general control device to rotate, so as to drive the rotating shaft 221 to rotate through the rotating shaft 223 and the transmission belt 224 in sequence, thereby adjusting the rotation angle of the light source.

As shown in fig. 7, a light source detection mechanism 3 for detecting an irradiation position of the light source mechanism, wherein the light source detection mechanism 3 is disposed below the light source adjustment mechanism 2; the light source detection mechanism 3 includes an illuminometer 31 and a light source correction plate 32, wherein:

the illuminometer 31 is connected with the master control device, and the illuminometer 31 can move left and right in the embodiment to realize left and right position measurement;

the light source correction plate 32 is arranged on the upper side of the illuminometer 31, and a slit 321 for the light source to pass through is arranged on the light source correction plate 32, so that the correction of the line light source can be realized through the light source correction plate 32, and the width of the slit 321 can be set to be about 2mm in the specific implementation.

The master control device is respectively connected with the lens, the light source adjusting mechanism 2 and the light source detecting mechanism 3; the main control device is not drawn in the attached drawing, and in the specific implementation, the main control device can be formed by adopting equipment with control functions such as a PLC (programmable logic controller), a DSP (digital signal processor) and the like.

When the imaging system is adjusted by the imaging system adjusting device in the above embodiment, the adjusting process is as follows:

(1) the position of the light source mechanism and the line light source focusing can be adjusted by the light source adjusting mechanism, and whether the light source is in the optimal position or not is judged by the illuminometer 31 in the light source detecting mechanism 3 under the light source mechanism;

(2) when the light source is adjusted, and the lens is fixed on the lens adjusting mechanism, the swing angle of the lens relative to the supporting component is adjusted through the lens adjusting mechanism, and the swing angle is fixed through the first locking screw component after the adjustment;

(3) the lens is adjusted and fixed by the pitching angle adjusting component to form a pitching angle relative to the supporting component;

when the lens is used in a linear imaging system, the lens and the irradiation position of the light source mechanism can be aligned by adjusting the swing angle, the pitch angle and the up-down position in the step (2) and the step (3), so that the adjustment of the lens in the camera is completed;

(4) after the lens part is fixed, the lighting angle can be automatically adjusted according to the requirements of products.

The imaging system adjusting device can execute an imaging system adjusting method, and specifically comprises the following operation steps:

and step 3: determining whether the position of the lens needs to be adjusted according to the shooting state of the lens detected by the master control device;

The preset change angle is determined according to the polishing angle of the actual product requirement.

The imaging system adjusting device and the imaging system adjusting method in the embodiment have the following advantages and characteristics:

(1) compared with the structure that the lens adjusting mechanism for fixing the lens is locked only by adjusting the focusing position of the lens adjusting mechanism in the prior art, the lens adjusting mechanism in the imaging system adjusting device is provided with the lens fixing component, and the position and the angle of the lens fixing component are adjusted through the swing angle adjusting component, the pitching angle adjusting component and the displacement adjusting component, so that the lens can be fixed on the lens fixing component firstly, and then the relative position relation between the lens and the supporting component is adjusted. The problem that in the prior art, the adjusted focal length is out of focus easily caused by adjusting the state of the lens adjusting mechanism and locking the lens is solved, and the problem is easy to occur under high resolution. The lens adjusting mechanism effectively avoids the problem that a lens fixing component in the lens adjusting mechanism and other components in the lens adjusting mechanism interfere with each other.

(2) The higher the optical resolution, the better the lens barrel (connecting ring) quality is when the image distance is long.

(3) Can satisfy the product and have the demand of the different angle of polishing, through adding the motor component among the light source adjustment mechanism, realize the effect that will control the adjustment more easily.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concept. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. An imaging system adjustment apparatus, comprising:

the light source adjusting mechanism is used for fixing and adjusting the position of the light source mechanism for providing a light source for the lens;

wherein, the camera lens adjustment mechanism includes:

a support assembly;

2. The imaging system adjustment apparatus according to claim 1, wherein the lens holding assembly comprises:

3. The imaging system adjustment apparatus of claim 2, wherein the tilt angle adjustment assembly comprises:

the second fixed plate is used for supporting the lens fixed component;

4. The imaging system adjustment apparatus of claim 2, wherein the pitch angle adjustment assembly comprises:

the third fixing plate is used for supporting the lens fixing component;

and the first adjusting screw member penetrates through the third fixing plate and is connected with the support assembly, and the first adjusting screw member is positioned on the upper side of the rotating support member and is used for fixing the third fixing plate relative to the support assembly to form a pitch angle.

5. The imaging system adjustment apparatus of claim 2, wherein the displacement adjustment assembly comprises:

the guide sliding rail component is used for bearing the lens fixing component;

6. The imaging system adjustment apparatus of claim 1, wherein the light source adjustment mechanism comprises:

7. The imaging system adjustment apparatus of claim 6, wherein the angle adjustment assembly comprises:

the rotating shaft is fixed on the light source bearing assembly;

8. The imaging system adjustment apparatus of claim 7, wherein the angle adjustment assembly further comprises:

a rotating shaft connected with the motor member;

two drive belts;

9. The imaging system adjustment apparatus of claim 7, wherein the light source carrying assembly comprises:

a light source mechanism fixing member for fixing the light source mechanism;

the fixed support is connected with the rotating shaft;

the bending support piece plate comprises a first connecting plate and a second connecting plate which are positioned on different planes and are mutually connected;

10. The imaging system adjustment apparatus of claim 7, wherein the light source detection mechanism comprises:

the illuminometer is connected with the master control device;

the light source correcting plate is arranged on the upper side of the illuminometer, and a slit for the light source to pass through is arranged on the light source correcting plate.

11. An imaging system adjustment method based on the imaging system adjustment apparatus according to any one of claims 1 to 10, characterized by comprising the steps of:

and 2, step: the master control device generates an instruction according to the detection result to adjust the rotation angle of the light source adjusting mechanism, and adjusts the position of the light source mechanism on the light source adjusting mechanism according to the detection result so as to adjust the light source mechanism to a system preset position;

12. The imaging system adjustment method according to claim 11, further comprising, after the step 3, the steps of: