Glass fiber line profile detector
1. The utility model provides a glass line profile detects machine, be equipped with the hypotenuse on the glass, its characterized in that includes:
a frame;
the jig is arranged on the rack, and the glass is arranged on the jig;
the illumination light source is annularly arranged on the side edge of the jig and positioned on the periphery of the glass;
the detection piece, the detection piece passes through the locating component activity and sets up in the frame, and be located glass's top, locating component includes first locating part and second locating part, the mobilizable setting of first locating part is in the frame, just the moving direction of first locating part with glass's length or width direction are unanimous, the liftable with of second locating part first locating part meets, glass fixes on the second locating part.
2. The glass fiber line profile detector according to claim 1, wherein a support frame is disposed on the frame, the support frame is disposed on one side of the jig, a sliding assembly is disposed on the support frame, and the first positioning member is connected to the sliding assembly.
3. The glass line profile testing machine as defined in claim 2, wherein said supporting frame comprises two supporting columns symmetrically arranged on said machine frame and a supporting plate arranged between said two supporting columns, said sliding assembly being arranged on said supporting plate.
4. The machine of claim 3, wherein the sliding assembly comprises a sliding block, a positioning seat and first sliding rails, the sliding block and the positioning seat are horizontally arranged along the machine frame, the first sliding rails are symmetrically arranged on two sides of the sliding block, the sliding block is fixed on the top of the supporting frame, a first limiting groove is formed in the middle of the positioning seat, the sliding block is arranged in the first limiting groove, and two ends of the positioning seat are slidably connected with one first sliding rail respectively.
5. The glass line profile testing machine as claimed in claim 4, wherein said first positioning member comprises a first positioning plate, a second positioning plate and a first positioning frame, said first positioning plate is disposed on said positioning seat, said second positioning plate is connected with said first positioning plate; the first positioning frame is vertically arranged on one side of the second positioning plate and is connected with the second positioning plate through a connecting piece.
6. The machine for detecting the profile of a glass fiber line as claimed in claim 5, wherein the second positioning member comprises a sliding plate, a third positioning plate and a fourth positioning plate, a second sliding rail is vertically arranged on one side of the first positioning frame, the sliding plate is slidably arranged on the sliding rail, the third positioning plate is fixedly connected with the sliding plate, one end of the fourth positioning plate is fixedly connected with the third positioning plate, and the other end of the fourth positioning plate is connected with the detecting member.
7. The glass fiber line profile detector according to claim 6, wherein said positioning assembly further comprises a third positioning member, said third positioning member comprises a fixed disk and a rotary disk, said fixed disk is fixedly disposed on said fourth positioning plate, and said detecting member is connected with said fixed disk through said rotary disk.
8. The glass fiber line profile detector according to claim 5, wherein a limiting frame is arranged above the supporting frame, a second limiting groove arranged along the horizontal direction of the rack is arranged on the limiting frame, and a limiting plate is arranged at the upper end of the first limiting frame; one end of the limiting plate is connected with the upper end of the first limiting frame, and the other end of the limiting plate is movably clamped in the second limiting groove and can move along the second limiting groove.
9. The machine according to claim 1, wherein said detecting member is a camera.
Background
Before and after the production toughened glass, need measure various sizes of glass, generally adopt artifical measuring mode to measure, but the size to the glass hypotenuse, use the ruler as an example, when measuring the width of glass hypotenuse, need judge the position that the hypotenuse is closest to the glass plane through the vision, then measure through handheld mode, it is very easy to judge the error, it is inaccurate to lead to the measuring result, in order to guarantee its measuring accuracy, need repeated measurement, reduce the error constantly, its detection efficiency is comparatively low, and final result also can have corresponding error, it also has great degree of difficulty to detect.
Disclosure of Invention
The present invention has been made in view of the foregoing problems, and it is an object of the present invention to provide a glass line profile inspection machine that increases the speed of size detection of a glass bevel edge while ensuring the accuracy of size detection of the glass bevel edge.
In order to achieve the above object, the present invention provides a glass line profile inspection machine, wherein the glass is provided with a bevel edge, comprising:
a frame;
the jig is arranged on the rack, and the glass is arranged on the jig;
the illumination light source is annularly arranged on the side edge of the jig and positioned on the periphery of the glass;
the detection piece, the detection piece passes through the locating component activity and sets up in the frame, and be located glass's top, locating component includes first locating part and second locating part, the mobilizable setting of first locating part is in the frame, just the moving direction of first locating part with glass's length or width direction are unanimous, the liftable with of second locating part first locating part meets, glass fixes on the second locating part.
According to the glass fiber line profile detection machine, a support frame is arranged on the machine frame and is located on one side of the jig, a sliding assembly is arranged on the support frame, and the first positioning piece is connected with the sliding assembly.
According to the glass fiber profile detector, the supporting frame comprises two supporting columns symmetrically arranged on the rack and a supporting plate arranged between the two supporting columns, and the sliding assembly is arranged on the supporting plate.
According to the glass fiber profile detector, the sliding assembly comprises a sliding block, a positioning seat and first sliding rails, the sliding block, the positioning seat and the first sliding rails are horizontally arranged along the rack, the first sliding rails are symmetrically arranged on two sides of the sliding block, the sliding block is fixed to the top of the supporting frame, a first limiting groove is formed in the middle of the positioning seat, the sliding block is arranged in the first limiting groove, and two ends of the positioning seat are connected with the first sliding rails in a sliding mode respectively.
According to the glass fiber profile detector, the first positioning piece comprises a first positioning plate, a second positioning plate and a first positioning frame, the first positioning plate is arranged on the positioning seat, and the second positioning plate is connected with the first positioning plate; the first positioning frame is vertically arranged on one side of the second positioning plate and is connected with the second positioning plate through a connecting piece.
According to a glass line profile detects machine, the second setting element includes slide, third locating plate and fourth locating plate, first locating rack one side is equipped with the second slide rail, slide slidable sets up on the slide rail, the third locating plate with slide fixed connection, fourth locating plate one end with third locating plate fixed connection, the other end with it meets to detect the piece.
According to a glass line profile detects machine, locating component still includes the third setting element, the third setting element includes fixed disk and carousel, the fixed disk is fixed to be set up on the fourth locating plate, the detection piece pass through the carousel rotatable with the fixed disk meets.
According to the glass fiber profile detector, a limiting frame is arranged above the supporting frame, a second limiting groove arranged along the horizontal direction of the rack is arranged on the limiting frame, and a limiting plate is arranged at the upper end of the first limiting frame; one end of the limiting plate is connected with the upper end of the first limiting frame, and the other end of the limiting plate is movably clamped in the second limiting groove and can move along the second limiting groove.
According to the glass line contour detection machine, the detection piece is a camera.
The invention has the following beneficial effects: be equipped with all around at glass and be annular light source, can illuminate the hypotenuse that is located glass all around, can guarantee the distance between camera and the glass through the removal of camera vertical direction, the convenience is measured the width of hypotenuse, the removal through camera horizontal direction can make the camera measure the length of hypotenuse, can adjust the angle of camera through the carousel simultaneously, make it parallel with the hypotenuse, conveniently measure the hypotenuse, its measuring speed is very fast, and measurement accuracy is higher.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the installation of the camera of the present invention;
FIG. 3 is a schematic view of the structure of FIG. 2 from another perspective;
in the figure: 100. a frame; 110. a support frame; 111. a support pillar; 112. a support plate; 120. a sliding assembly; 121. a slider; 122. positioning seats; 122a, a first limit groove; 123. a first slide rail; 130. a limiting frame; 131. a second limit groove; 200. a jig; 300. an illumination light source; 400. a camera; 410. a first positioning member; 411. a first positioning plate; 412. a second positioning plate; 413. a first positioning frame; 413a, a connector; 413b, a second slide rail; 413c, a limiting plate; 420. a second positioning member; 421. a slide plate; 422. a third positioning plate; 423. a fourth positioning plate; 430. a third positioning member; 431. fixing the disc; 432. a turntable.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.
As shown in fig. 1-3, a glass line profile inspection machine, glass is equipped with the hypotenuse, and the hypotenuse is located the corner department of glass, includes:
the frame 100, the frame 100 is mainly used to provide a supporting function for other components.
The jig 200, the jig 200 is disposed on the rack 100, the glass is disposed on the jig 200, and the jig 200 is used for supporting the glass, so that the position of the glass can be kept constant.
Light source 300, light source 300 is cyclic annular setting at the side of tool 200, and be located glass all around, light source 300 can illuminate the hypotenuse of glass edge, the detection of piece to the hypotenuse is conveniently detected, because glass generally has three limit at least, in this embodiment, use rectangle glass as an example, its hypotenuse distributes in glass's four sides department, and light source 300 is cyclic annular setting and can ensure to shine glass's a plurality of hypotenuses, it is more comprehensive to shine, the convenience is measured a plurality of hypotenuses.
The detecting piece is movably arranged on the rack 100 through the positioning component and is positioned above the glass, the positioning component comprises a first positioning piece 410 and a second positioning piece 420, the first positioning piece 410 is movably arranged on the rack 100, the moving direction of the first positioning piece 410 is consistent with the length or width direction of the glass, the second positioning piece 420 can be lifted and connected with the first positioning piece 410, the glass is fixed on the second positioning piece 420, in the embodiment, the moving direction of the first positioning piece 410 is consistent with the length direction of the glass, the length direction of the glass is in the same direction with the horizontal transverse direction of the rack 100, the detecting piece can be driven to move along the length direction of the glass through the first positioning piece 410, the detecting piece can detect the glass more comprehensively, meanwhile, the detecting piece can be driven to carry out lifting movement in the up-down direction through the second positioning piece 420, and the distance between the detecting piece and the bevel edge of the glass can be adjusted, the bevel edge of the glass is convenient to measure.
Preferably, in this embodiment, the positioning assembly further includes a third positioning member 430, and the third positioning member 430 can drive the detecting member to rotate, so as to adjust the angle of the detecting member, thereby ensuring the parallelism between the detecting member and the bevel edge, and more conveniently measuring the size of the bevel edge.
The support frame 110 is arranged on the rack 100, the support frame 110 is located on one side of the jig 200, the sliding assembly 120 is arranged on the support frame 110, the first positioning piece 410 is connected with the sliding assembly 120, the first positioning piece 410 slides on the support frame 110 through the sliding assembly 120, the sliding direction of the first positioning piece can improve the horizontal height of the positioning assembly through the support frame 110, and therefore the detection piece is located above the glass.
The supporting frame 110 includes two supporting columns 111 symmetrically disposed on the rack 100 and a supporting plate 112 disposed between the two supporting columns 111, the sliding assembly 120 is disposed on the supporting plate 112, the supporting columns 111 provide support for the supporting plate 112, and the supporting plate 112 provides support for the sliding assembly 120.
The sliding assembly 120 includes a sliding block 121 horizontally disposed along the rack 100, a positioning seat 122 and first sliding rails 123 symmetrically disposed on two sides of the sliding block 121, the sliding block 121 is fixed on the top of the supporting frame 110, a first limiting groove 122a is disposed in the middle of the positioning seat 122, the sliding block 121 is disposed in the first limiting groove 122a, and two ends of the positioning seat 122 are slidably connected to one of the first sliding rails 123, wherein the sliding block 121 is used for limiting the positioning seat 122, so as to prevent the positioning seat 122 from derailing due to movement in the front-back direction, and not hinder the sliding of the positioning seat 122, sliding parts are disposed at two ends of the positioning seat 122, and the positioning seat 122 slides on the two first sliding rails 123 through the sliding parts.
The first positioning element 410 comprises a first positioning plate 411, a second positioning plate 412 and a first positioning frame 413, the first positioning plate 411 is arranged on the positioning seat 122, and the second positioning plate 412 is connected with the first positioning plate 411; the first positioning frame 413 is vertically disposed at one side of the second positioning plate 412 and connected to the second positioning plate 412 through a connecting member 413a, and the positioning seat 122 drives the second positioning plate 412 to move along the length direction of the glass through the first positioning plate 411, and further drives the second positioning member 420 to move along the length direction of the glass through the first positioning frame 413.
Second setting element 420 includes slide 421, third locating plate 422 and fourth locating plate 423, first locating rack 413 one side is equipped with the second slide rail 413b of arranging perpendicularly, slide 421 slidable sets up on the slide rail, third locating plate 422 and slide 421 fixed connection, fourth locating plate 423 one end and third locating plate 422 fixed connection, the other end meets with the detection piece, slide 421 passes through the slide rail and slides on the vertical direction, and should set up the locking piece on slide 421, can make slide 421 can lock at different level, slide 421 drives the detection piece oscilaltion through third locating plate 422 and fourth locating plate 423.
The third positioning member 430 comprises a fixed disk 431 and a rotary disk 432, the fixed disk 431 is fixedly arranged on the fourth positioning plate 423, the detection member is rotatably connected with the fixed disk 431 through the rotary disk 432, the rotary disk 432 is concentric with the fixed disk 431, a rotary shaft is arranged at the center of the fixed disk 431, the rotary disk 432 is connected with the rotary shaft, the rotary disk 432 can rotate by using the rotary shaft, meanwhile, a locking member is arranged beside the rotary disk 432, the rotary disk 432 can be locked to any position, the angle of the detection member is convenient to adjust, and the measurement of the bevel edges at different angles is convenient.
A limiting frame 130 is arranged above the supporting frame 110, a second limiting groove 131 arranged along the horizontal direction of the rack 100 is arranged on the limiting frame 130, and a limiting plate 413c is arranged at the upper end of the first limiting frame 413; one end of the limiting plate 413c is connected with the upper end of the first limiting frame 413, the other end of the limiting plate 413c is movably clamped in the second limiting groove 131 and can move along the second limiting groove 131, the arrangement direction of the second limiting groove 131 is consistent with the sliding direction of the first limiting piece 410, the second limiting groove 131 can limit the vertical movement of the first limiting frame 413, and meanwhile, the horizontal movement of the first limiting frame 413 can not be hindered.
The detection piece is set as a camera 400, and the camera 400 can shoot a glass image and analyze the width and the length of the bevel edge of the glass through the image.
According to the glass line profile detector provided by the invention, the detection piece is driven to move along the length direction of glass by the first positioning piece, the detection piece can be driven to move up and down by the second positioning piece, the glass is illuminated by the illumination light sources annularly arranged around the glass, the distance between the detection piece and the glass can be kept unchanged all the time, the detection piece can also be driven to move along the length direction of the glass, the width and the length of the bevel edge of the glass can be conveniently measured, meanwhile, the angle of the detection piece can be adjusted by the third positioning piece, the detection piece can be parallel to the bevel edge, the size of the bevel edge can be more conveniently detected, the automatic measurement of the size of the bevel edge can be realized, the measurement speed is high, and the measurement precision is high.
The technical solutions of the present invention are explained in detail above with reference to the accompanying drawings, and the described embodiments are used to help understanding the idea of the present invention. The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.
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