CN210480057U - Lifting mechanism for solar cell detection equipment - Google Patents

Abstract

The utility model provides a lift mechanism for solar wafer check out test set, including supporting component, lifting unit, bearing subassembly and adjusting part, the supporting component is fixed in check out test set's frame, and lifting unit installs on the supporting component, and the bearing subassembly is installed on lifting unit, drives the bearing subassembly by lifting unit and rises or descend, has the space of placing the battery piece on the bearing subassembly, and the adjusting part is installed on the bearing subassembly, carries out position control to the battery piece of placing on the bearing subassembly by the adjusting part; when the detection part pushes down, the lifting component rises to lift the bearing component at the bottom of the battery piece, the battery piece is clamped between the detection part and the bearing component, the supporting point of the battery piece is not on the conveying narrow band at the moment, the faults of the conveying narrow band can be reduced, and when the deviation of the position of the battery piece and the preset position is large, the adjusting component can be started to adjust the position of the battery piece, so that the detection efficiency and the accuracy of the detection result are improved.

Description

Lifting mechanism for solar cell detection equipment

Technical Field

The utility model relates to a solar wafer check out test set especially relates to a lift mechanism for solar wafer check out test set.

Background

In the solar cell detection equipment, the cell conveying process is completed by a pair of conveying narrow belts, two ends of each conveying narrow belt are respectively assembled on a driving roller, the middle part of each conveying narrow belt is suspended, and the driving rollers drive the conveying narrow belts to operate. In a certain detection link, a detection component arranged above a narrow conveying belt needs to descend to contact a battery piece arranged on the narrow conveying belt, and in the process, the conventional detection equipment has the following defects:

1. the middle part of the narrow transmission band is suspended, and the pressure of the detection part can extrude the battery piece and the narrow transmission band downwards, so that the battery piece is deformed greatly, and the detection result is inaccurate;

2. the pressing process of the detection component is easy to damage the battery plate, and the faults of the narrow conveying belt are increased;

3. the position of the battery piece on the narrow transmission band is not always at the preset position, and has certain deviation, so that the detection result is inaccurate.

Therefore, there is a need for an improved structure for such a detection device to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lift mechanism for solar wafer check out test set to lift the battery piece fixedly in the testing process, and finely tune the position of battery piece, with the promotion detection rate of accuracy.

The utility model discloses a solve the technical scheme that its technical problem adopted and be:

a lifting mechanism for solar cell detection equipment comprises a supporting component, a lifting component, a bearing component and an adjusting component, wherein the supporting component is fixed on a rack of the detection equipment, the lifting component is arranged on the supporting component, the bearing component is arranged on the lifting component, the lifting component drives the bearing component to ascend or descend, a space for placing a cell is arranged on the bearing component, the adjusting component is arranged on the bearing component, and the adjusting component adjusts the position of the cell arranged on the bearing component; the position of the lifting mechanism corresponds to the detection part, when the detection part is pressed down, the lifting assembly is lifted, so that the bearing assembly is lifted at the bottom of the battery piece, the battery piece is clamped between the detection part and the bearing assembly, at the moment, the supporting point of the battery piece is not on the narrow conveying belt, the detection process has no influence on the narrow conveying belt, the fault of the narrow conveying belt can be reduced, and when the deviation between the position of the battery piece and a preset position is large, the adjusting assembly can be started to adjust the position of the battery piece, so that the detection efficiency and the accuracy of a detection result are improved; the starting process of the adjusting assembly can be automatically distinguished and controlled by a control system and can also be manually controlled, and the connection relation and the specific structure of the adjusting assembly and the control system can adopt the prior art;

the supporting component comprises a substrate, the substrate is arranged along the horizontal direction and assembled on a rack of the detection equipment through a connecting piece, two ends of the substrate are respectively provided with a guard plate, the guard plates extend upwards the substrate and are mutually vertical to the substrate, the guard plates are mutually parallel, and a moving space of the lifting component, the bearing component and the adjusting component is formed between the guard plates; the protective plate protects the operation process of the lifting assembly, the bearing assembly and the adjusting assembly, and conflicts with other parts in the detection equipment or objects invaded from the outside are avoided; the substrate and the guard plate are positioned between the upper section and the lower section of the narrow conveying belt to avoid influencing the operation of the narrow conveying belt;

the lifting assembly comprises a lifting cylinder, a cylinder body of the lifting cylinder is fixed on the supporting assembly through a connecting piece, a piston rod of the lifting cylinder extends upwards, an adapter plate is fixed at the tail end of the piston rod, the bearing assembly is arranged on the adapter plate, and the lifting cylinder drives the bearing assembly to ascend or descend; specifically, a cylinder body of the jacking cylinder is fixed on a base plate of the supporting assembly through a bolt, a bottom supporting force is provided by the base plate in the jacking process of the jacking cylinder, and the adapter plate is parallel to the base plate;

the supporting component comprises a supporting plate, the supporting plate is arranged at the top of the lifting component and ascends or descends along with the lifting component, supporting plates are respectively arranged on two side edges of the supporting plate, the supporting plates extend upwards the supporting plate and are vertical to the supporting plate, the supporting plates are parallel to each other, at least two supporting wheels are respectively arranged on the top edges of the supporting plates, the supporting wheels are assembled on the supporting plates through shaft rods, the rotating planes of the supporting wheels are parallel to each other, the top surfaces of the supporting wheels are higher than the top surfaces of the supporting plates, and the bottom surfaces of the battery pieces are supported, so that the battery pieces can move on the supporting wheels; specifically, the supporting plate is arranged on the top surface of the adapter plate and is fixedly connected with the adapter plate through a bolt, and the size of the adapter plate and the size of the supporting plate are smaller than the distance between the guard plates in the supporting assembly and the distance between the narrow transmission belts, so that the supporting plate does not conflict with the guard plates and the narrow transmission belts in the ascending or descending process;

the adjusting component comprises a pair of driving motors and a pair of adjusting shafts, each driving motor and each adjusting shaft are respectively arranged on the bearing component and ascend or descend along with the bearing component, each adjusting shaft is respectively arranged on the bearing component through a shaft seat and can rotate on the bearing component through the shaft seat, a power output shaft of each driving motor is respectively connected with the adjusting shafts through a transmission chain, the driving motors drive the adjusting shafts to run, two ends of each adjusting shaft are respectively provided with a driving wheel, and the driving wheels run along with the adjusting shafts; specifically, a motor seat of the driving motor is fixed on the inner side of the support plate, the shaft seat is fixed on the top surface of the support plate, and a power output shaft of the driving motor is parallel to the support plate and the adjusting shaft;

the supporting component is also provided with a swing rod, the bottom end of the swing rod is connected with the supporting component through a shaft lever, the swing rod can rotate on the supporting component through the shaft lever, the swing rod extends obliquely upwards, the top end of the swing rod is provided with a driving wheel, the outer side surface of the driving wheel is in contact with the outer side surface of the driving wheel, the driving wheel is driven by the driving wheel to rotate, the driving wheel supports the bottom surface of the battery piece, and the battery piece is driven by the driving; specifically, the bottom end of the oscillating bar is arranged on the side wall of the support plate, the oscillating bar can rotate on the support plate, and when the function of the adjusting component is not needed, the oscillating bar can be adjusted to other positions, so that the driving wheel is separated from the driving wheel, and the driving wheel can not be contacted with the battery piece;

the driving wheel is made of elastic materials (such as rubber) to increase the friction force between the driving wheel and the battery piece, so that the driving wheel and the driving wheel have better running synchronism, the battery piece is prevented from slipping on the driving wheel, the height of the top surface of the driving wheel is slightly higher than that of the riding wheel, and the driving wheel can be flush with the riding wheel after slight deformation when the detection part is pressed down, so that the battery piece is kept stable among the riding wheel, the driving wheel and the detection part in the detection process;

the tail end of a power output shaft of the driving motor is provided with a driving chain wheel, a regulating shaft is provided with a driven chain wheel, a transmission chain is connected between the driving chain wheel and the driven chain wheel, a bearing component is provided with a housing, and the housing covers the driving chain wheel, the transmission chain and the driven chain wheel.

This lifting mechanism arranges the conveying narrow band below in for should the top detection part descend and carry out the moment of detection achievement, because this kind of detection action is not regular, consequently need not to lift this lifting mechanism always with carry the narrow band contact, but just rise when needs, the bearing is in the battery piece bottom, cooperation detection part work, avoids battery piece and conveying narrow band to warp, is favorable to reducing the influence to conveying narrow band operation.

The utility model has the advantages that:

1. the supporting component of the lifting mechanism can be supported on the bottom surface of the battery piece, so that the battery piece can be clamped between the detection component and the supporting component when the detection component is pressed downwards, the deformation of the battery piece is small, and the detection result is more accurate;

2. due to the supporting effect of the supporting component on the battery piece, the conveying narrow band does not provide a supporting function in the detection process, the battery piece and the conveying narrow band cannot be greatly deformed, the battery piece is prevented from being damaged, the conveying narrow band is prevented from being deformed, and the faults of the conveying narrow band are reduced;

3. when the position of battery piece and preset position deviation are great, can start adjusting part and carry out position control to the battery piece to promote detection efficiency and testing result's accuracy.

Drawings

Fig. 1 is a schematic perspective view of a lifting mechanism for a solar cell inspection apparatus according to the present invention;

FIG. 2 is a schematic front view of the lift mechanism;

fig. 3 is a schematic top view of the lift mechanism.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the drawings and the specific embodiments.

As shown in fig. 1, fig. 2, and fig. 3, the lifting mechanism for solar cell detection equipment provided by the present invention includes a supporting component, a lifting component, a bearing component, and an adjusting component, wherein the supporting component is fixed on the frame of the detection equipment, the lifting component is installed on the supporting component, the bearing component is installed on the lifting component, the lifting component drives the bearing component to ascend or descend, the bearing component has a space for placing a cell, the adjusting component is installed on the bearing component, and the adjusting component adjusts the position of the cell on the bearing component; the position of the lifting mechanism corresponds to the detection part, when the detection part is pressed down, the lifting assembly is lifted, so that the bearing assembly is lifted at the bottom of the battery piece, the battery piece is clamped between the detection part and the bearing assembly, at the moment, the supporting point of the battery piece is not on the narrow conveying belt, the detection process has no influence on the narrow conveying belt, the fault of the narrow conveying belt can be reduced, and when the deviation between the position of the battery piece and a preset position is large, the adjusting assembly can be started to adjust the position of the battery piece, so that the detection efficiency and the accuracy of a detection result are improved; the starting process of the adjusting assembly can be automatically distinguished and controlled by a control system and can also be manually controlled, and the connection relation and the specific structure of the adjusting assembly and the control system can adopt the prior art;

the supporting component comprises a substrate 101 which is arranged along the horizontal direction and assembled on a rack of the detection equipment through a connecting piece, two ends of the substrate are respectively provided with a guard plate 102, the guard plates extend upwards towards the substrate and are mutually vertical to the substrate, the guard plates are mutually parallel, and a moving space of a lifting component, a bearing component and an adjusting component is formed between the guard plates; the protective plate protects the operation process of the lifting assembly, the bearing assembly and the adjusting assembly, and conflicts with other parts in the detection equipment or objects invaded from the outside are avoided; the substrate and the guard plate are positioned between the upper section and the lower section of the narrow conveying belt to avoid influencing the operation of the narrow conveying belt; the lifting assembly comprises a jacking cylinder 201, a cylinder body of the jacking cylinder is fixed on a base plate of the supporting assembly through a bolt, bottom supporting force is provided for the jacking process of the jacking cylinder by the base plate, a piston rod of the lifting cylinder extends upwards, an adapter plate 202 is fixed at the tail end of the piston rod, the adapter plate is parallel to the base plate, the bearing assembly is arranged on the adapter plate, and the jacking cylinder drives the bearing assembly to ascend or descend; the supporting component comprises a supporting plate 301, the supporting plate is arranged on the top surface of the adapter plate and is fixedly connected with the adapter plate through bolts, the supporting plate is lifted or lowered along with the lifting component, supporting plates 302 are respectively arranged on the edges of two sides of the supporting plate, the supporting plates extend upwards the supporting plate and are mutually vertical to the supporting plate, the supporting plates are mutually parallel, at least two supporting wheels 303 are respectively arranged on the edges of the top of each supporting plate, the supporting wheels are assembled on the supporting plates through shaft rods, the rotating planes of the supporting wheels are mutually parallel, the top surfaces of the supporting wheels are higher than the top surfaces of the supporting plates, and the bottom surfaces of the battery pieces are supported, so that the battery pieces; the sizes of the adapter plate and the supporting plate are smaller than the distance between the guard plates in the supporting assembly and the distance between the conveying narrow bands, so that the ascending or descending process of the supporting plate does not conflict with the guard plates and the conveying narrow bands; the adjusting component comprises a pair of driving motors 401 and a pair of adjusting shafts 402, each driving motor and each adjusting shaft are respectively arranged on the bearing component and ascend or descend along with the bearing component, each adjusting shaft is respectively arranged on the bearing component through a shaft seat 403 and can rotate on the bearing component through the shaft seat, a power output shaft of each driving motor is respectively connected with the adjusting shaft through a transmission chain, the driving motors drive the adjusting shafts to run, two ends of each adjusting shaft are respectively provided with a driving wheel 404, and the driving wheels run along with the adjusting shafts; specifically, a motor seat of the driving motor is fixed on the inner side of the support plate 302, the shaft seat is fixed on the top surface of the supporting plate 301, and a power output shaft of the driving motor is parallel to the supporting plate and the adjusting shaft; the supporting component is also provided with a swing rod 405, the bottom end of the swing rod is connected with the supporting component through a shaft lever, the swing rod can rotate on the supporting component through the shaft lever, the swing rod extends obliquely upwards, the top end of the swing rod is provided with a driving wheel 406, the outer side surface of the driving wheel is in contact with the outer side surface of the driving wheel, the driving wheel is driven by the driving wheel to rotate, the driving wheel supports the bottom surface of the battery piece, and the battery piece is driven by the driving; specifically, the bottom end of the oscillating bar is arranged on the side wall of the support plate 302, the oscillating bar can rotate on the support plate, and when the function of the adjusting component is not needed, the oscillating bar can be adjusted to other positions, so that the driving wheel is separated from the driving wheel, and the driving wheel can not be contacted with the battery piece; the driving wheel 406 is made of rubber to increase the friction force between the driving wheel and the battery piece, so that the driving wheel and the driving wheel have good running synchronism, the battery piece is prevented from slipping on the driving wheel, the top surface of the driving wheel is slightly higher than the riding wheel, and the driving wheel can be flush with the riding wheel after slight deformation when the detection part is pressed down, so that the battery piece is kept stable among the riding wheel, the driving wheel and the detection part in the detection process; the tail end of a power output shaft of the driving motor is provided with a driving chain wheel, a regulating shaft is provided with a driven chain wheel, a transmission chain is connected between the driving chain wheel and the driven chain wheel, a supporting component is provided with a housing 407, and the housing covers the driving chain wheel, the transmission chain and the driven chain wheel. This lifting mechanism arranges the conveying narrow band below in for should the top detection part descend and carry out the moment of detection achievement, because this kind of detection action is not regular, consequently need not to lift this lifting mechanism always with carry the narrow band contact, but just rise when needs, the bearing is in the battery piece bottom, cooperation detection part work, avoids battery piece and conveying narrow band to warp, is favorable to reducing the influence to conveying narrow band operation.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to let the technical personnel in the field understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (7)

1. The utility model provides a lift mechanism for solar wafer check out test set which characterized in that:

including supporting component, lifting unit, bearing subassembly and adjusting part, on the supporting component was fixed in the frame of check out test set, lifting unit installed on the supporting component, bearing subassembly was installed on lifting unit, drive bearing subassembly by lifting unit and rise or descend, the last space of placing the battery piece that has of bearing subassembly, adjusting part installs on bearing subassembly, carry out the position control by adjusting part to the battery piece of placing on bearing subassembly.

2. The lifting mechanism for the solar cell detection equipment as claimed in claim 1, wherein:

the supporting component comprises a substrate, the substrate is arranged along the horizontal direction and assembled on the rack of the detection equipment through a connecting piece, the two ends of the substrate are respectively provided with a guard plate, the guard plates extend out to the upper part of the substrate and are mutually vertical to the substrate, the guard plates are mutually parallel, and a moving space for the lifting component, the bearing component and the adjusting component is formed between the guard plates.

3. The lifting mechanism for the solar cell detection equipment as claimed in claim 1, wherein:

lifting unit includes the jacking cylinder, and on the cylinder body of this jacking cylinder was fixed in supporting component through the connecting piece, its piston rod stretched out to the top, and the piston rod end is fixed with the keysets, and the bearing subassembly is installed on the keysets, is driven the bearing subassembly by the jacking cylinder and rises or descend.

4. The lifting mechanism for the solar cell detection equipment as claimed in claim 1, wherein:

the supporting component comprises a supporting plate, the supporting plate is arranged at the top of the lifting component and ascends or descends along with the lifting component, supporting plates are arranged on the edges of two sides of the supporting plate respectively, the supporting plates extend towards the upper portion of the supporting plate and are perpendicular to the supporting plate, the supporting plates are parallel to each other, at least two supporting wheels are arranged on the edges of the top of each supporting plate respectively, the supporting wheels are assembled on the supporting plates through shaft rods, the rotating planes of the supporting wheels are parallel to each other, the top surfaces of the supporting wheels are higher than the top surfaces of the supporting plates, and the bottom surfaces of the battery pieces are supported, so that the.

5. The lifting mechanism for the solar cell detection equipment as claimed in claim 1, wherein:

the adjusting component comprises a pair of driving motors and a pair of adjusting shafts, each driving motor and each adjusting shaft are respectively arranged on the bearing component and ascend or descend along with the bearing component, each adjusting shaft is respectively arranged on the bearing component through a shaft seat and can rotate on the bearing component through the shaft seat, a power output shaft of each driving motor is respectively connected with the adjusting shafts through a transmission chain, the driving motors drive the adjusting shafts to run, two ends of each adjusting shaft are respectively provided with a driving wheel, and the driving wheels run along with the adjusting shafts;

the support component is also provided with a swing rod, the bottom end of the swing rod is connected with the support component through a shaft rod, the shaft rod can rotate on the support component through the way, the swing rod extends towards the oblique upper part, the top end of the swing rod is provided with a driving wheel, the outer side surface of the driving wheel is in contact with the outer side surface of the driving wheel, the driving wheel is driven by the driving wheel to rotate, the driving wheel supports the bottom surface of the battery piece, and the battery piece is driven by.

6. The lifting mechanism for the solar cell detection equipment as claimed in claim 5, wherein:

the driving wheel is made of elastic material.

7. The lifting mechanism for the solar cell detection equipment as claimed in claim 5, wherein:

the tail end of a power output shaft of the driving motor is provided with a driving chain wheel, a regulating shaft is provided with a driven chain wheel, a transmission chain is connected between the driving chain wheel and the driven chain wheel, a bearing component is provided with a housing, and the housing covers the driving chain wheel, the transmission chain and the driven chain wheel.

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