CN216870395U - Metal stamping strip traction detection equipment - Google Patents

Abstract

The utility model relates to a metal stamping strip traction detection device which comprises a rack, an installation table, a fixed table, a slide rail, a fixed guide strip and a movable guide strip, wherein the fixed table is provided with a locking strip, the locking strip is provided with a T-shaped groove, a T-shaped bolt is arranged in the T-shaped groove, a locking nut is arranged on the T-shaped bolt, a lower CCD detection camera and an upper CCD detection camera are arranged on the installation table, a traction frame is arranged on the installation table behind the fixed table, an upper traction roller and a lower traction roller are arranged on the traction frame, a traction motor is arranged on the traction frame, and a main shaft of the traction motor is connected with the upper traction roller. The utility model adopts the upper CCD detection camera and the lower CCD detection camera which are arranged up and down to realize full-automatic detection, and has high detection efficiency and high detection accuracy; the upper traction roller and the lower traction roller are utilized to realize traction on the material belt, so that the material belt automatically moves during automatic detection; the movable guide strip is convenient to be suitable for guiding material belts with different widths, has better universality and is more convenient to adjust by adopting the T-shaped bolt.

Description

Metal stamping strip traction detection equipment

Technical Field

The utility model relates to metal material belt production equipment, in particular to metal stamping belt traction detection equipment.

Background

The production of small metal sheet parts is usually formed by continuously stamping metal strips. When the metal sheet parts are punched, the metal sheet parts are usually wound into coils. Whether the small metal sheet parts of the metal are qualified or not is usually required to be detected before the coiled material is wound, manual inspection is adopted in the traditional mode, the efficiency is low, and the omission factor is high.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model aims to provide a metal stamping strip traction detection device.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a metal stamping strip traction detection device comprises a rack, an installation table arranged at the top of the rack, a fixed table arranged on the installation table, a slide rail arranged at the top of the fixed table and extending leftwards and rightwards, a fixed guide strip arranged on the right side of the fixed table and extending forwards and backwards, and a movable guide strip in sliding connection with the slide rail, wherein a locking strip extending leftwards and rightwards is arranged on the fixed table, a T-shaped groove extending leftwards and rightwards is arranged on the locking strip, a T-shaped bolt is arranged in the T-shaped groove and upwards penetrates through the movable guide strip, a locking nut is arranged on the T-shaped bolt, a lower CCD detection camera and an upper CCD detection camera are arranged on the installation table, a detection window of the lower CCD detection camera is positioned below a space between the fixed guide strip and the movable guide strip, a detection window of the upper CCD detection camera is positioned above a space between the fixed guide strip and the movable guide strip, the fixing table is arranged on the rear portion of the fixing table, a traction frame is arranged on the mounting table, an upper traction roller and a lower traction roller which extend left and right are arranged on the traction frame, a traction motor is arranged on the traction frame, and a main shaft of the traction motor is connected with the upper traction roller.

In the design, the upper CCD detection camera and the lower CCD detection camera which are arranged up and down are adopted to realize full-automatic detection, so that the detection efficiency is high, and the detection accuracy is high; the upper traction roller and the lower traction roller are used for realizing traction on the material belt so as to ensure that the material belt automatically moves during automatic detection; the movable guide strip is convenient to be suitable for guiding the material belts with different widths, has better universality and is more convenient to adjust by adopting the T-shaped bolt.

As a further improvement of this design, fixed gib block front side is equipped with preceding guide assembly, preceding guide assembly include vertical preceding guide foundatin plate that sets up, with preceding guide foundatin plate rotates the first extension board of preceding guide of connecting, set up in preceding guide second extension board on the preceding guide foundatin plate, rotate on the preceding guide first extension board and be connected with the first preceding guide roller that extends about the axis, guide roller and third before rotating on the preceding guide second extension board and being connected with the second, guide roller is located before the second guide roller front top before the third, first preceding guide roller is located guide roller front bottom before the second. The cooperation of the first front guide roller, the second front guide roller, the third front guide roller and the traction mechanism ensures the surface tension of the material belt, and reduces false detection.

As a further improvement of the present design, be equipped with the preceding second guide fixed column that extends about on the preceding first board of guide, be equipped with on the preceding second guide fixed column and follow two preceding second guide posts of preceding second guide fixed column axis gliding, extend around the preceding second guide post, preceding first guide fixed column that extends around preceding guide foundatin plate is equipped with, be equipped with two preceding first guide posts of gliding around on the preceding first guide fixed column, two preceding second guide post inserts two sense terminals of detection circuitry respectively, two preceding first guide post inserts two sense terminals of detection circuitry respectively. Preceding first guide fixed column and preceding second guide post are convenient for to the direction of material area left and right sides direction and with the detection circuitry cooperation be convenient for detect whether disconnected material.

As a further improvement of the design, be equipped with on the fixed gib block with CCD detects the relative light filling lamp of camera detection window down, be equipped with on the fixed station with it detects the relative light filling lamp of camera detection window to go up CCD, is convenient for improve the accurate nature that detects.

As a further improvement of the design, a vertical reference guide rail is arranged on the fixed guide strip, a reference lifting seat extending in the up-and-down sliding mode and in the left-and-right sliding mode is arranged on the reference guide rail, a reference fixing seat extending in the left-and-right sliding mode is arranged on the base lifting seat, a photoelectric detection head with a detection window just facing a belt material is arranged on the reference fixing seat, an adjusting screw rod extending in the left-and-right direction is rotatably connected to the reference lifting seat, and the adjusting screw rod is in threaded fit with the reference fixing seat. Whether the material belt position is accurate is convenient to detect, and the CCD detection camera and the lower CCD detection camera are sent and detected models.

As a further improvement of the design, the traction frame comprises a vertical traction vertical plate, a lifting guide rail vertically arranged on the traction vertical plate, and a lifting seat vertically and slidably connected with the lifting guide rail, the traction motor is arranged on the lifting seat, the upper traction roller is rotatably connected with the lifting seat, the lower traction roller is rotatably connected with the traction vertical plate, a tension spring is arranged between the traction vertical plate and the lifting seat, and the tension spring applies downward elastic force to the lifting seat. Adopt tension spring and lift seat to realize the different thickness of self-adaptation centre gripping material area, draw stably to the material area.

As a further improvement of the design, the upper CCD detection camera and the lower CCD detection camera and the mounting table are both adjusted through an XYZ adjusting mechanism. The CCD detects camera and lower CCD and detects camera spatial position on being convenient for accurate adjustment, the better detection of being convenient for.

The utility model has the beneficial effects that: the utility model adopts the upper CCD detection camera and the lower CCD detection camera which are arranged up and down to realize full-automatic detection, and has high detection efficiency and high detection accuracy; the upper traction roller and the lower traction roller are used for realizing traction on the material belt so as to ensure that the material belt automatically moves during automatic detection; the movable guide strip is convenient to be suitable for guiding material belts with different widths, has better universality and is more convenient to adjust by adopting the T-shaped bolt.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall perspective view of the present invention.

Fig. 2 is a schematic view of the mounting adjustment mechanism of the photoelectric detection head of the present invention.

In the figure, 1, a third front guide roller, 2, a front guide foundation plate, 3, a front second guide fixing column, 4, a lifting seat, 5, an upper traction roller, 6, a lifting guide rail, 7, a tension spring, 8, a traction vertical plate, 9, a traction motor, 10, a T-shaped bolt, 11, a locking nut, 12, a light supplementing lamp, 13, a fixed guide strip, 14, a second front guide roller, 15, a front guide first support plate, 16, a first front guide roller, 17, a front second guide column, 18, a front first guide fixing column, 19, a front first guide column, 20, a movable guide strip, 21, a lower CCD detection camera, 22, a slide rail, 23, a locking strip, 24, a T-shaped groove, 25, a frame, 26, a mounting table, 27, a fixing table, 28, an adjusting mechanism, 29, an upper CCD detection camera, 30, a lower traction roller, 31, a front guide second support plate, 32, a reference guide rail, 33, a reference lifting seat 4, 34, 35. photoelectric detection head, 36, adjusting screw rod.

Detailed Description

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions are only intended to illustrate the present invention, but not to limit the present invention.

Example (b): a metal stamping strip traction detection device comprises a frame 25, a mounting table 26 arranged at the top of the frame 25, a fixed table 27 arranged on the mounting table 26, a slide rail 22 arranged at the top of the fixed table 27 and extending left and right, a fixed guide strip 13 arranged at the right side of the fixed table 27 and extending front and back, and a movable guide strip 20 connected with the slide rail 22 in a sliding manner, wherein the fixed table 27 is provided with a locking strip 23 extending left and right, the locking strip 23 is provided with a T-shaped groove 24 extending left and right, the T-shaped groove 24 is internally provided with a T-shaped bolt 10, the T-shaped bolt 10 upwards penetrates through the movable guide strip 20, the T-shaped bolt 10 is provided with a locking nut 11, the mounting table 26 is provided with a lower CCD detection camera 21 and an upper CCD detection camera 29, the detection window of the lower CCD detection camera is positioned below the fixed guide strip 13 and the movable guide strip 20, go up CCD and detect the detection window of camera and be located fixed gib block 13 with activity gib block 20 between the top, fixed station 27 rear be equipped with the traction frame on the mount table 26, be equipped with about the last carry over pinch rolls 5 and the lower carry over pinch rolls 30 of extension on the traction frame, be equipped with traction motor 9 on the traction frame, traction motor 9's main shaft with go up the carry over pinch rolls 5 and be connected.

In the design, the upper CCD detection camera 29 and the lower CCD detection camera 21 which are arranged up and down are adopted to realize full-automatic detection, so that the detection efficiency is high, and the detection accuracy is high; the upper traction roller 5 and the lower traction roller 30 are used for realizing the traction of the material belt so as to ensure the automatic movement of the material belt during automatic detection; the movable guide strip 20 is convenient for guiding material strips with different widths, has better universality and is more convenient to adjust by adopting the T-shaped bolt 10.

As a further improvement of this design, fixed gib block 13 front side is equipped with preceding guide assembly, preceding guide assembly include vertical preceding guide foundatin plate 2 that sets up, with preceding guide foundatin plate 2 rotates the preceding first branch board 15 of guide of connecting, set up in preceding guide second branch board 31 on the preceding guide foundatin plate 2, rotate on the preceding guide first branch board 15 and be connected with the first preceding guide roller 16 that extends about the axis, rotate on the preceding guide second branch board 31 and be connected with preceding guide roller 14 of second and the preceding guide roller 1 of third, preceding guide roller 14 of second is located guide roller 1 front upper side before the third, preceding guide roller 16 is located guide roller 14 front lower place before the second. The cooperation of the first front guide roller 16, the second front guide roller 14, the third front guide roller 1 and the traction mechanism ensures the surface tension of the material belt, and reduces false detection.

As a further improvement of the present design, a front second guiding fixing column 3 extending left and right is provided on the front guiding first supporting plate 15, two front second guiding columns 17 sliding along the axis of the front second guiding fixing column 3 are provided on the front second guiding fixing column 3, the front second guiding columns 17 extend front and back, a front first guiding fixing column 18 extending front and back is provided on the front guiding base plate 2, two front first guiding columns 19 sliding front and back are provided on the front first guiding fixing column 18, the two front second guiding columns 17 respectively access two detection ends of the detection circuit, and the two front first guiding columns 19 respectively access two detection ends of the detection circuit. The front first guiding and fixing column 19 and the front second guiding and fixing column 17 are convenient for guiding the left and right directions of the material belt and are matched with the detection circuit to be convenient for detecting whether the material is broken or not. The detection circuit is an open-loop circuit connected with a power supply and a relay in series, and two open-loop points of the open-loop circuit are two detection ends.

As a further improvement of this design, be equipped with on the fixed gib block 13 with the relative light filling lamp 12 of CCD detection camera 21 detection window down, be equipped with on the fixed station 27 with go up the relative light filling lamp 12 of CCD detection camera 29 detection window, be convenient for improve the precision of detection.

As a further improvement of the design, a vertical reference guide rail 32 is arranged on the fixed guide bar 13, a reference lifting seat 33 extending from top to bottom and from left to right is arranged on the reference guide rail 32, a reference fixing seat 34 extending from left to right is arranged on the base lifting seat 4, a photoelectric detection head 35 with a detection window facing the belt is arranged on the reference fixing seat 34, an adjusting screw rod 36 extending from left to right is rotatably connected to the reference lifting seat 33, and the adjusting screw rod 36 is in threaded fit with the reference fixing seat 34. Whether the position of the material belt is accurate or not is convenient to detect, and detection models are sent to the upper CCD detection camera 29 and the lower CCD detection camera 21.

As a further improvement of the design, the traction frame comprises a vertical traction vertical plate 8, a lifting guide rail 6 vertically arranged on the traction vertical plate 8, and a lifting seat 4 vertically and slidably connected with the lifting guide rail 6, the traction motor 9 is arranged on the lifting seat 4, the upper traction roller 5 is rotatably connected with the lifting seat 4, the lower traction roller 30 is rotatably connected with the traction vertical plate 8, a tension spring 7 is arranged between the traction vertical plate 8 and the lifting seat 4, and the tension spring 7 applies downward elastic force to the lifting seat 4. The tension spring 7 and the lifting seat 4 are adopted to realize self-adaptive clamping of the material belts with different thicknesses, and the material belts are stably pulled.

As a further improvement of the present design, the upper CCD detection camera 29 and the lower CCD detection camera 21 pass through an XYZ adjustment mechanism 28 with respect to the mount table 26. The space positions of the upper CCD detection camera 29 and the lower CCD detection camera 21 can be adjusted accurately, and better detection is facilitated.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. A metal stamping strip traction detection device is characterized by comprising a rack, a mounting table arranged at the top of the rack, a fixed table arranged on the mounting table, a slide rail arranged at the top of the fixed table and extending leftwards and rightwards, a fixed guide strip arranged at the right side of the fixed table and extending forwards and backwards, and a movable guide strip in sliding connection with the slide rail, wherein a locking strip extending leftwards and rightwards is arranged on the fixed table, a T-shaped groove extending leftwards and rightwards is arranged on the locking strip, a T-shaped bolt is arranged in the T-shaped groove and upwards penetrates through the movable guide strip, a locking nut is arranged on the T-shaped bolt, a lower CCD detection camera and an upper CCD detection camera are arranged on the mounting table, a detection window of the lower CCD detection camera is positioned below a position between the fixed guide strip and the movable guide strip, and a detection window of the upper CCD detection camera is positioned above a position between the fixed guide strip and the movable guide strip, the fixing table is arranged behind the fixing table, a traction frame is arranged on the mounting table, an upper traction roller and a lower traction roller which extend left and right are arranged on the traction frame, a traction motor is arranged on the traction frame, and a main shaft of the traction motor is connected with the upper traction roller.

2. The metal stamping strip traction detection device as claimed in claim 1, wherein a front guide assembly is arranged on the front side of the fixed guide strip, the front guide assembly comprises a vertically arranged front guide base plate, a front guide first support plate rotatably connected with the front guide base plate, and a front guide second support plate arranged on the front guide base plate, the front guide first support plate is rotatably connected with a first front guide roller with an axis extending left and right, the front guide second support plate is rotatably connected with a second front guide roller and a third front guide roller, the second front guide roller is positioned above and in front of the third front guide roller, and the first front guide roller is positioned below and in front of the second front guide roller.

3. The metal stamping strip traction detection device as claimed in claim 2, wherein the front guide first supporting plate is provided with a front second guide fixing column extending left and right, the front second guide fixing column is provided with two front second guide columns sliding along the axis of the front second guide fixing column, the front second guide columns extend front and back, the front guide base plate is provided with a front first guide fixing column extending front and back, the front first guide fixing column is provided with two front first guide columns sliding front and back, the two front second guide columns are respectively connected to the two detection ends of the detection circuit, and the two front first guide columns are respectively connected to the two detection ends of the detection circuit.

4. The metal stamping strip traction detection device as claimed in claim 1, wherein a light supplement lamp opposite to the lower CCD detection camera detection window is arranged on the fixed guide strip, and a light supplement lamp opposite to the upper CCD detection camera detection window is arranged on the fixed table.

5. The metal stamping strip traction detection device as claimed in claim 1, wherein a vertical reference guide rail is arranged on the fixed guide bar, a reference lifting seat which slides up and down along the reference guide rail and extends left and right is arranged on the reference guide rail, a reference fixing seat which slides left and right along the reference lifting seat is arranged on the reference lifting seat, a photoelectric detection head of which a detection window is opposite to the strip is arranged on the reference fixing seat, a left and right extending adjustment screw rod is rotatably connected to the reference lifting seat, and the adjustment screw rod is in threaded fit with the reference fixing seat.

6. The metal stamping strip traction detection device as claimed in claim 1, wherein the traction frame comprises a vertical traction vertical plate, a lifting guide rail vertically arranged on the traction vertical plate, and a lifting seat vertically slidably connected with the lifting guide rail, the traction motor is arranged on the lifting seat, the upper traction roller is rotatably connected with the lifting seat, the lower traction roller is rotatably connected with the traction vertical plate, a tension spring is arranged between the traction vertical plate and the lifting seat, and the tension spring applies downward elastic force to the lifting seat.

7. The metal stamping strip pulling detection device as claimed in claim 1, wherein the upper CCD detection camera and the lower CCD detection camera are connected with the mounting table through XYZ adjusting mechanisms.

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