CN220005572U - LVDS automatic checkout equipment - Google Patents

Abstract

The utility model discloses LVDS automatic detection equipment, which comprises a feeding disc, a film winding disc, a feeding sliding rail, an automatic pressing assembly, a visual detection assembly, an automatic punching assembly, a stepping material pulling assembly, a discharging sliding rail, a rolling disc and a film feeding disc, wherein the automatic pressing assembly comprises a pressing cylinder, a pressing sliding block, a limiting seat and a rubber pressing block, the visual detection assembly comprises a CCD industrial camera, the automatic punching assembly directly punches and cuts a poor LVDS screen wire joint, the automatic punching assembly comprises a punching cylinder, a punching cutter block and a blanking groove arranged on a workbench, the stepping material pulling assembly comprises a stepping motor, a coupler, a rotating shaft, a stepping ratchet wheel and a lifting adjusting seat, the automatic LVDS screen wire joint can be shot and detected by the CCD industrial camera one by one, the poor LVDS screen wire joint is punched and cut by the automatic detection assembly, and a finished product rolling disc is used for rolling and cutting the good product belt.

Description

LVDS automatic checkout equipment

Technical Field

The utility model relates to the technical field of automation equipment, in particular to LVDS automatic detection equipment.

Background

When the capacity of electronic parts is greatly accelerated along with the increase of demands when intelligent electronic products are rapidly developed, an automatic production line of the LVDS screen connector gradually enters various large electronic manufacturers, and after an LVDS screen connector material belt is obtained by adopting automatic punching and automatic injection molding processes, a string of LVDS screen connector is stripped by matching with automatic material folding equipment and is supplied to the automatic assembly production line.

However, due to action errors in the pin inserting process, the quantity and the positions of the pins inserted by the LVDS screen wire connectors are deviated, quality detection and load detection are required before assembly, so that all LVDS screen wire connectors on a coiled material belt are guaranteed to be good products, and therefore, a detection device capable of effectively detecting whether the pins of all LVDS screen wire connectors on the material belt are well inserted or not is required to be designed, and the poor LVDS screen wire connectors are punched and blanked, and then the coil is wound after all good product connectors are reserved.

Disclosure of Invention

The purpose of the utility model is that: aiming at the technical requirements in the background technology, we design an LVDS automatic detection device, judges defective products through a photographing detection mode of a CCD industrial camera, punches and cuts out defective LVDS screen line connectors by adopting an automatic punching component to detect defective connectors, and is simple and practical.

The technical scheme adopted for solving the problems is as follows:

an LVDS automatic detection device comprises a feeding disc, a film winding disc, a feeding sliding rail, an automatic pressing component, a visual detection component, an automatic punching component, a stepping pulling component, a discharging sliding rail, a rolling disc and a film supplying disc,

the feeding tray pre-tightens the material belt through the torsion motor and continuously discharges materials, the film winding tray pre-tightens the protective film peeled off from the surface of the material belt through the torsion motor and continuously winds the film, the feeding slide rail supports the fed LVDS screen wire joint material belt to be detected, the automatic material pressing component presses the material belt to keep a horizontal feeding posture,

the automatic pressing component comprises a pressing cylinder, a pressing sliding block, a limiting seat and a rubber pressing block, wherein the pressing cylinder drives the pressing sliding block to move up and down, the pressing sliding block is connected with the rubber pressing block, the rubber pressing block is arranged in the limiting seat and is opposite to a material belt of the LVDS screen wire connector to be detected below, the LVDS screen wire connector is pressed on a workbench under the pressing of the pressing cylinder,

the visual detection component comprises a CCD industrial camera, performs positioning and fixed-point photographing on the material belt of the LVDS screen wire connector to be detected below, accurately photographs corresponding to the stitch direction, and after the visual detection procedure judges whether good products are produced, the material belt is pulled to an automatic punching component procedure by a stepping material pulling component,

the automatic punching component directly punches and cuts the LVDS screen line connector with poor detection, and comprises a punching cylinder, a punching cutter block and a blanking groove arranged on a workbench, a waste box is arranged below the blanking groove,

the stepping pulling assembly comprises a stepping motor, a shaft coupling, a rotating shaft, a stepping ratchet wheel and a lifting adjusting seat, wherein a spindle of the stepping motor is matched with the rotating shaft through the shaft coupling, the rotating shaft is matched with a bearing in the middle of the lifting adjusting seat and keeps a horizontal posture to rotate, the stepping ratchet wheel is matched with a key groove of the rotating shaft, protruding ratchet wheels are arranged on two sides of the periphery of the stepping ratchet wheel, and the protruding ratchet wheels are opposite to reference holes arranged on two sides of a material belt of an LVDS screen wire connector and drive the material belt to slide in a stepping manner in a rolling manner after being spliced.

Further, the center of the lifting adjusting seat is provided with a bearing, the bearing is arranged on the lifting sliding block, guide rod guide sleeve assemblies are arranged on two sides of the lifting sliding block, and the lifting sliding block is driven by the lifting motor to lift so as to control whether the stepping ratchet wheel is in contact with the material belt or not.

Further, the detected LVDS screen wire connector material belt is fed to the winding disc through the discharging sliding rail, and the winding disc is driven by the torsion motor to wind, and drives the coplanar film feeding disc to continuously pull the protective film and wind on the LVDS screen wire connector material belt so as to protect the LVDS screen wire connector.

The beneficial effects of the utility model are as follows:

this LVDS automated inspection equipment can realize automatic blowing area, carries out CCD industrial camera one by one to all LVDS screen line joints and shoots the detection, to detecting bad joint, adopts automatic die-cut subassembly to punch the blanking with bad LVDS screen line joint, and the finished product rolling dish rolling yields material area of recycling is simple and practical.

Drawings

Fig. 1 is a right side plan view of the LVDS automatic detection device of the embodiment;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a left side plan view of the LVDS automatic detection device of the embodiment;

FIG. 4 is a partial enlarged view at B in FIG. 3;

the device comprises a 1-film winding disc, a 2-feeding disc, a 3-feeding sliding rail, a 4-automatic pressing component, a 5-workbench, a 6-automatic punching component, a 7-touch screen, an 8-rolling disc, a 9-film feeding disc, a 10-discharging sliding rail, an 11-LVDS screen wire connector, a 12-step ratchet, a 13-convex ratchet, a 14-CCD industrial camera, a 15-punching cylinder, a 16-punching cutter block, a 17-waste box, a 18-pressing cylinder, a 19-pressing slider, a 20-rubber press block, a 21-bearing and a 22-lifting slider.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described by way of example with reference to the accompanying drawings of the specification of the present utility model.

Referring to fig. 1-4, the embodiment provides an LVDS automatic detection device, which includes a feeding tray 2, a film winding tray 1, a feeding slide rail 3, an automatic pressing assembly 4, a visual detection assembly, an automatic punching assembly 6, a stepping material pulling assembly, a discharging slide rail 10, a winding tray 8 and a film feeding tray 9.

Referring to fig. 1 and 3, the feeding tray 2 pre-tightens the material belt through a torsion motor and continuously discharges materials, the film winding tray 1 pre-tightens a protective film peeled off from the surface of the material belt through the torsion motor and continuously winds up a film, the feeding slide rail 3 supports the fed material belt of the LVDS screen wire joint 11 to be detected, and the automatic material pressing assembly 4 presses the material belt to keep a horizontal feeding posture.

Referring to fig. 3 and 4, the automatic pressing assembly 4 includes a pressing cylinder 18, a pressing slider 19, a limiting seat and a rubber pressing block 20, the pressing cylinder 18 drives the pressing slider 19 to move up and down, the pressing slider 19 is connected with the rubber pressing block 20, the rubber pressing block 20 is disposed in the limiting seat and faces to the material belt of the LVDS screen wire connector 11 to be detected below, and the LVDS screen wire connector 11 is pressed on the workbench 5 under the pressing of the pressing cylinder 18.

Referring to fig. 3, the visual detection assembly is disposed right above the workbench 5, and includes a CCD industrial camera 14, and performs positioning and fixed-point photographing on the material belt of the LVDS screen wire connector 11 to be detected below, and after the visual detection procedure determines whether a good product is produced, the material belt is pulled to the automatic punching assembly 6 by the stepping material pulling assembly.

Referring to fig. 3, the automatic punching assembly 6 directly punches the poorly detected LVDS screen wire connector 11 to be blanked, and includes a punching cylinder 15, a punching blade block 16 and a blanking slot arranged on the workbench 5, a waste box 17 is arranged below the blanking slot,

referring to fig. 2, the step-by-step material pulling assembly includes a step motor, a coupling, a rotating shaft, a step ratchet 12 and a lifting adjustment seat, wherein a spindle of the step motor is matched with the rotating shaft through the coupling, the rotating shaft is matched with a bearing 21 in the middle of the lifting adjustment seat and keeps rotating in a horizontal posture, a step ratchet 12 is matched with a key groove of the rotating shaft, protruding spines 13 are arranged on two sides of the periphery of the step ratchet 12, the protruding spines 13 are opposite to reference holes arranged on two sides of a material belt of the LVDS screen wire connector 11, and the material belt is driven to slide in a rolling manner after being inserted and matched.

Referring to fig. 2, a bearing 21 is disposed at the center of the lifting adjustment seat, the bearing 21 is disposed on a lifting slider 22, guide rod guide sleeve assemblies are disposed on two sides of the lifting slider 22, and the lifting slider 22 is driven by a lifting motor to lift, so as to control whether the step ratchet 12 contacts with the material belt.

Referring to fig. 1, the detected LVDS screen wire connector 11 material belt is fed to the winding disc 8 through the discharging sliding rail 10, the winding disc 8 is driven by the torsion motor to wind, and the coplanar film feeding disc 9 is driven to continuously pull the protective film and wind on the LVDS screen wire connector 11 material belt, so that the LVDS screen wire connector 11 is protected.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the embodiments described above, and various changes, modifications, substitutions and alterations can be made therein by those having ordinary skill in the art without departing from the spirit of the present utility model, the scope of which is defined by the appended claims and their equivalents.

Claims (6)

1. LVDS automated inspection equipment, including feeding tray, twine membrane dish, feeding slide rail, automatic swager subassembly, visual inspection subassembly, automatic die-cut subassembly, step-by-step material subassembly, ejection of compact slide rail, rolling dish and confession membrane dish, its characterized in that:

the automatic pressing component comprises a pressing cylinder, a pressing sliding block, a limiting seat and a rubber pressing block, and is opposite to a material belt of the LVDS screen wire connector to be detected below, and presses the LVDS screen wire connector on a workbench under the pressing of the pressing cylinder,

the visual detection component comprises a CCD industrial camera, performs positioning and fixed-point photographing on the material belt of the LVDS screen wire connector to be detected below, accurately photographs corresponding to the stitch direction, and after the visual detection procedure judges whether good products are produced, the material belt is pulled to an automatic punching component procedure by a stepping material pulling component,

the automatic punching component directly punches and cuts the LVDS screen line connector with poor detection, and comprises a punching cylinder, a punching cutter block and a blanking groove arranged on a workbench, a waste box is arranged below the blanking groove,

the stepping pulling assembly comprises a stepping motor, a shaft coupling, a rotating shaft, a stepping ratchet wheel and a lifting adjusting seat, wherein protruding ratchets are arranged on two sides of the periphery of the stepping ratchet wheel and are opposite to reference holes arranged on two sides of the LVDS screen wire joint material belt, and the material belt is driven to slide in a stepping manner in a rolling mode after being inserted and matched.

2. The LVDS automatic detection device of claim 1, wherein: the feeding tray pre-tightens the material belt through the torsion motor and continuously discharges materials, the film winding tray pre-tightens the protective film peeled off from the surface of the material belt through the torsion motor and continuously winds the film, the feeding sliding rail supports the feeding belt to be detected LVDS screen wire joint material belt, and an automatic material pressing assembly presses the material belt to keep a horizontal feeding posture.

3. The LVDS automatic detection device of claim 1, wherein: the material pressing cylinder drives the material pressing sliding block to move up and down, the material pressing sliding block is connected with the rubber pressing block, and the rubber pressing block is arranged in the limiting seat.

4. The LVDS automatic detection device of claim 1, wherein: the main shaft of the stepping motor is matched with a rotating shaft through a coupler, the rotating shaft is matched with a bearing in the middle of the lifting adjusting seat and keeps rotating in a horizontal posture, and a stepping ratchet wheel is matched with a key groove of the rotating shaft.

5. The LVDS automatic detection device of claim 4, wherein: the lifting adjusting seat is characterized in that a bearing is arranged at the center of the lifting adjusting seat and is arranged on the lifting sliding block, guide rod guide sleeve assemblies are arranged on two sides of the lifting sliding block, and the lifting sliding block is driven by the lifting motor to lift.

6. The LVDS automatic detection device of claim 1, wherein: the LVDS screen wire joint material belt after detection is fed to the winding disc through the discharging sliding rail, and the winding disc is driven by the torsion motor to wind, and drives the coplanar film feeding disc to continuously pull the protective film and wind on the LVDS screen wire joint material belt.