Glass carousel flies to clap check out test set
Technical Field
The utility model relates to a check out test set technical field especially relates to a glass carousel flies to clap check out test set.
Background
In the production process of various products, because each aspect factor, can produce some unqualified products of size, in order to detect the size of these products, measuring device that measurement accuracy is higher then just needs, present many height and width check out test set at home pass through CCD and shoot, measure the size of product through the projection method, and then judge whether qualified, but present CCD check out test set spare part is more, the structure is comparatively complicated for size detection efficiency is lower, and structural design is compact enough, makes check out test set's production manufacturing cost great.
SUMMERY OF THE UTILITY MODEL
Objects of the invention
For solving the technical problem who exists among the background art, the utility model provides a glass carousel flies to clap check out test set, simple structure is compact, and manufacturing cost is lower, and product height and width detect simultaneously, and automatic feeding, automatic unloading and automatic branch material promote work efficiency.
(II) technical scheme
The utility model provides a glass rotary table flying-shooting detection device, which comprises a supporting cabinet, a double-track feeding vibration disc, a glass rotary table and a guide mechanism;
the double-track feeding vibration disc is arranged at the top of the supporting cabinet, a vibration disc track is arranged on the double-track feeding vibration disc, and the discharge end of the vibration disc track is positioned above the glass turntable; the glass rotating disc is arranged at the top of the supporting cabinet, a power device for driving the glass rotating disc to rotate is arranged at the top of the supporting cabinet, and the rotating surface of the glass rotating disc is a horizontal plane; the guide mechanism is arranged at the top of the supporting cabinet through a bracket and is positioned above the glass turntable; the guide mechanism is positioned between the height measurement CCD mechanism and the vibration disk track;
the top of the supporting cabinet is provided with a height measurement CCD mechanism, and the height measurement CCD mechanism is positioned in front of the guide mechanism in the rotating direction of the glass turntable; the top of the supporting cabinet is provided with a width measuring CCD mechanism for measuring the width, and the width measuring CCD mechanism is positioned in front of the height measuring CCD mechanism in the rotating direction of the glass turntable; a poor height material receiving box for storing products with unqualified height measurement is arranged at the top of the supporting cabinet, and the poor height material receiving box is positioned in front of the width measurement CCD mechanism in the rotating direction of the glass turntable; the top of the supporting cabinet is provided with a poor-width material receiving box for storing products with qualified height measurement but unqualified width measurement, and the poor-width material receiving box is positioned in front of the poor-height material receiving box in the rotating direction of the glass turntable; the top of the supporting cabinet is provided with a material mixing and receiving box for storing products with unqualified height measurement and unqualified width measurement, and the material mixing and receiving box is positioned in front of the material receiving box with unqualified width in the rotating direction of the glass turntable; the workbin is received in the non-defective products that the workbin was deposited to the supporting cabinet top setting with the qualified while width measurement also qualified product of height measurement, and on glass carousel direction of rotation, the workbin is received to the non-defective products is located compounding and receives workbin the place ahead.
Preferably, the height measurement CCD mechanism comprises a first support frame and a height measurement CCD camera; the supporting cabinet top sets up the bottom plate, and first support frame sets up on the bottom plate, sets up on the first support frame and carries out the first camera lens that fixes and hug closely the mechanism to height finding CCD camera, and height finding CCD camera measuring end is towards the product on the glass carousel.
Preferably, the width measuring CCD mechanism comprises a second support frame, a width measuring CCD camera and a backlight light source; the second support frame is arranged on the bottom plate, a second lens clasping mechanism for fixing the width measurement CCD camera is arranged on the second support frame, and two lateral ends of the width measurement CCD camera face products on the glass rotary table; the backlight source is arranged at the bottom of the second support frame and is positioned right below the width measuring CCD camera.
Preferably, the power device is a DD motor.
Preferably, the good product is received the workbin and is set up multiunit.
Preferably, the good product receiving box comprises a box body and an air blowing pipeline; the box body is arranged at the top of the supporting cabinet, and the electromagnetic valve is arranged on the box body; the air blowing pipeline is arranged on the box body, the air outlet end of the air blowing pipeline faces to a product on the glass rotary table, and the product moves in the direction of sliding into the box body from the glass rotary table; the structures of the high-defect material receiving box, the width-defect material receiving box and the material mixing material receiving box are the same as those of the good-product material receiving box.
The above technical scheme of the utility model has following profitable technological effect: simple structure is compact, and manufacturing cost is lower, and product height and width detect simultaneously, and automatic feeding, automatic unloading and automatic branch material promote work efficiency.
Drawings
Fig. 1 is the utility model provides a glass carousel flies to clap check out test set's schematic structure.
Fig. 2 is the utility model provides a glass carousel flies to clap check out test set's top view.
Fig. 3 is the utility model provides a height finding CCD mechanism and survey wide CCD mechanism's structural schematic in glass carousel flies to clap check out test set.
Fig. 4 is the utility model provides a glass carousel flies to clap the structural schematic diagram of workbin is received to yields in check out test set.
Reference numerals: 1. a support cabinet; 2. a double-track feeding vibration disc; 3. vibrating the disk track; 4. a glass rotary table; 5. a power plant; 6. a guide mechanism; 7. a height measurement CCD mechanism; 71. a first support frame; 72. a first lens clasping mechanism; 73. a height measurement CCD camera; 8. a width measuring CCD mechanism; 81. a second support frame; 82. a second lens clasping mechanism; 83. a width measuring CCD camera; 84. a backlight light source; 9. a material receiving box with poor height; 10. a material receiving box with poor width; 11. a material mixing and receiving box; 12. a good product receiving box; 121. a box body; 122. an air blowing pipeline; 123. an electromagnetic valve; 13. a base plate.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.
As shown in fig. 1-4, the glass rotary table flying-beat detection device provided by the utility model comprises a support cabinet 1, a double-track feeding vibration disc 2, a glass rotary table 4 and a guide mechanism 6;
the double-track feeding vibration disc 2 is arranged at the top of the supporting cabinet 1, a vibration disc track 3 is arranged on the double-track feeding vibration disc 2, and the discharge end of the vibration disc track 3 is positioned above the glass rotary disc 4; the glass rotating disc 4 is arranged at the top of the supporting cabinet 1, the power device 5 for driving the glass rotating disc 4 to rotate is arranged at the top of the supporting cabinet 1, and the rotating surface of the glass rotating disc 4 is a horizontal plane; the guide mechanism 6 is arranged at the top of the supporting cabinet 1 through a bracket, and the guide mechanism 6 is positioned above the glass turntable 4; the guide mechanism 6 is positioned between the height measurement CCD mechanism 7 and the vibration disk track 3;
the top of the supporting cabinet 1 is provided with a height measurement CCD mechanism 7, and the height measurement CCD mechanism 7 is positioned in front of the guide mechanism 6 in the rotating direction of the glass turntable 4; the top of the supporting cabinet 1 is provided with a width measuring CCD mechanism 8 for measuring the width, and the width measuring CCD mechanism 8 is positioned in front of the height measuring CCD mechanism 7 in the rotating direction of the glass turntable 4; a poor height material receiving box 9 for storing products with unqualified height measurement is arranged at the top of the supporting cabinet 1, and the poor height material receiving box 9 is positioned in front of the width measurement CCD mechanism 8 in the rotating direction of the glass turntable 4; the top of the supporting cabinet 1 is provided with a poor width material receiving box 10 for storing products with qualified height measurement but unqualified width measurement, and the poor width material receiving box 10 is positioned in front of the poor height material receiving box 9 in the rotating direction of the glass turntable 4; the top of the supporting cabinet 1 is provided with a material mixing and receiving box 11 for storing products with unqualified height measurement and unqualified width measurement, and the material mixing and receiving box 11 is positioned in front of a material receiving box with unqualified width 10 in the rotating direction of the glass turntable 4; the supporting cabinet 1 top sets up the non-defective products that the width measurement is also qualified simultaneously and receives workbin 12 is deposited with the height measurement qualified product, and on 4 rotation direction of glass carousel, the non-defective products receive workbin 12 and are located compounding and receive workbin 11 the place ahead.
The utility model discloses in, at first put into double track way feed vibration dish 2 with the product, flow on glass carousel 4 and through 6 adjustment product position of guiding mechanism by vibration dish track 3, then through height finding CCD mechanism 7 and survey wide CCD mechanism 8 and shoot, if the high unqualified width of product is qualified, then get into high bad receipts workbin 9, if the high qualified width of product is unqualified, then get into the bad receipts workbin 10 of width, if the high unqualified width of product is also unqualified, then get into compounding and receive workbin 11, if the high qualified width of product is also qualified, then get into the yields and receive workbin 12. The utility model discloses in, simple structure is compact, and manufacturing cost is lower, and product height and width detect simultaneously, and automatic feeding, automatic unloading and automatic branch material promote work efficiency.
In an alternative embodiment, the altimetric CCD mechanism 7 comprises a first support frame 71 and an altimetric CCD camera 73; a bottom plate 13 is arranged at the top of the supporting cabinet 1, a first supporting frame 71 is arranged on the bottom plate 13, a first lens clasping mechanism 72 for fixing a height measurement CCD camera 73 is arranged on the first supporting frame 71, and the measuring end of the height measurement CCD camera 73 faces to a product on the glass rotary table 4; the first lens clasping mechanism 72 fixes the height measurement CCD camera 73, and improves the measurement accuracy.
In an alternative embodiment, the width measurement CCD mechanism 8 includes a second support frame 81, a width measurement CCD camera 83, and a backlight light source 84; the second support frame 81 is arranged on the bottom plate 13, a second lens clasping mechanism 82 for fixing the width measurement CCD camera 83 is arranged on the second support frame 81, and two lateral ends of the width measurement CCD camera 83 face products on the glass rotary table 4; the backlight source 84 is arranged at the bottom of the second support frame 81, and the backlight source 84 is positioned right below the width measurement CCD camera 83; the second lens clasping mechanism 82 fixes the width measurement CCD camera 83, and measurement accuracy is improved.
In an alternative embodiment, the power unit 5 is a DD motor; the DD motor has large output torque, and is convenient for driving the glass rotary table 4 to stably rotate.
In an optional embodiment, the good product receiving boxes 12 are provided in multiple groups; under normal conditions, the products of production are in many good products, set up multiunit good product and receive workbin 12 and be convenient for increase of service time.
In an alternative embodiment, the good product receiving box 12 includes a box 121 and an air blowing pipe 122; the box body 121 is arranged at the top of the supporting cabinet 1, and the electromagnetic valve 123 is arranged on the box body 121; the air blowing pipeline 122 is arranged on the box body 121, the air outlet end of the air blowing pipeline 122 faces to the product on the glass rotary table 4, and the product moves in the direction of sliding from the glass rotary table 4 into the box body 121; the structures of the poor-height material receiving box 9, the poor-width material receiving box 10 and the mixed material receiving box 11 are the same as those of the good-product material receiving box 12; the supporting cabinet 1 is provided with a control system, the control system is in control connection with the electromagnetic valve 123, and the opening and closing of the air blowing pipeline 122 are realized by controlling the opening and closing of the electromagnetic valve 123, so that products are blown into the box body 121 for storage.
It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.