CN209829602U - Photovoltaic aluminium frame processing automatic checkout device - Google Patents

Abstract

The utility model discloses an automatic detection device for photovoltaic aluminum frame processing, which comprises a frame, wherein the frame is provided with a turnover component, a pre-turnover material storage component and a detection component which are respectively positioned at two sides of the turnover component, and a defective product collection component which is close to one side of the detection component; the utility model provides a photovoltaic aluminium frame processing automatic checkout device has realized frame aluminium frame processing automated inspection through the linkage cooperation of upset subassembly, material stock subassembly before turning over, determine module and bad article collection subassembly, and on the detection process, 3-4 manual works have been practiced thrift to every equipment, can in time monitor and process bad quantity and with bad problem point, control processingquality, provide data support and direction guide for equipment maintenance, prevent to produce processing bad in batches.

Description

Photovoltaic aluminium frame processing automatic checkout device

Technical Field

The utility model relates to a photovoltaic product detection equipment correlation technique field especially relates to a photovoltaic aluminium frame processing automatic checkout device.

Background

The photovoltaic aluminum frame is an important part of the solar assembly, has higher structural strength, provides mechanical protection for the solar assembly, avoids assembly damage in the carrying and transporting processes, has good insulating property after anodic oxidation on the surface of the aluminum frame, and ensures the safety of the solar assembly in the exposed working environment.

With the continuous development of the photovoltaic industry, the processing quality of the photovoltaic aluminum frame is increasingly improved. The important quality requirements are: cutting length, mounting hole site and water leakage hole site. At present, a photovoltaic processing factory combines manual detection with simple detection dies, the manual detection efficiency of the process is low, 3-4 inspectors are needed under the condition of full detection of one frame processing production line, most frame processing factories save manpower by adopting a spot check mode, the processing quality cannot be strictly controlled, defective products flow into an assembly process, and the loss of raw materials and processing cost is caused; partial product aluminium frame length is longer, and is higher to measurement personnel's detection level requirement, and the influence of human factor is great, if appear lou examining the condition of false retrieval, can cause bad in batches, combines the material expense of aluminium alloy, causes the further rise of cost.

SUMMERY OF THE UTILITY MODEL

This novel technical problem that solves of use is to overcome current technical defect, provides a photovoltaic aluminium frame processing automatic checkout device, can effectively solve the problem in the background art.

In order to solve the technical problem, the utility model adopts a technical proposal that;

the automatic detection device for the photovoltaic aluminum frame machining comprises a rack, wherein a turnover assembly, a pre-turnover material storage assembly and a detection assembly which are respectively positioned on two sides of the turnover assembly, and a defective product collection assembly close to one side of the detection assembly are arranged on the rack;

the pre-turning material storage assembly comprises a mounting base arranged on the rack, a material storage panel fixedly connected to the mounting base, and a proximity switch arranged on the material storage panel;

the overturning assembly comprises an overturning cylinder arranged on the rack, two bearings with seats and a movable flat plate which is in sliding connection with the rack through a first guide rail slider, an overturning shaft is hinged between the two bearings with seats, the output end of the overturning cylinder is connected with the movable flat plate, and the movable flat plate is in transmission connection with the overturning shaft through mutually meshed gear racks; two ends of the turnover shaft are respectively provided with a turnover connecting plate, each turnover connecting plate is provided with a horizontal gas claw, and one side of the rack, which is positioned on the first guide rail sliding block, is provided with a sliding limiting block;

the detection assembly comprises a plurality of mounting hole detection parts, two length detection parts, a plurality of water leakage hole detection parts and a plurality of storage guide parts which are arranged in a straight line shape;

the length detection component comprises a length detection mounting plate arranged on the rack, a length measurement cylinder arranged on the length detection mounting plate, a length measurement V-shaped head connected with the output end of the length measurement cylinder, and a magnetic grid ruler arranged on the length measurement V-shaped head;

the storage guide component comprises a storage guide plate arranged on the rack, a guide cylinder arranged on the storage guide plate, a guide wheel mounting plate connected with the output end of the guide cylinder, and a group of guide wheels arranged on the guide wheel mounting plate;

the mounting hole detection component comprises a mounting hole detection floor arranged on the rack, a first correlation switch bracket is arranged on the mounting hole detection floor, and a group of first correlation switches are arranged on the first correlation switch bracket;

the water leakage hole detection part comprises a water leakage hole detection bottom plate arranged on the rack, a hole detection cylinder arranged on the water leakage hole detection bottom plate, a probe mounting plate connected with the output end of the hole detection cylinder, and a probe arranged on the probe mounting plate;

the defective product collecting assembly comprises a linear module arranged on the rack, a material receiving fork plate in transmission connection with the linear module, and material receiving forks arranged on the material receiving fork plate; the automatic material receiving device is characterized in that guide bottom plates are arranged on two sides of the material receiving fork plate on the rack respectively, guide columns and a second correlation switch support are arranged on the guide bottom plates, and a group of second correlation switches are arranged on the second correlation switch support.

Further, still include the controller, the controller respectively with upset subassembly, material stock subassembly, detection component before turning over and defective products collection subassembly are connected.

Furthermore, the rack is provided with an adjusting rack, a first sliding guide rail and a second sliding guide rail which are connected with the detection assembly.

Furthermore, the length detection mounting plate, the storage guide plate, the mounting hole detection floor and the water leakage hole detection bottom plate are all provided with a distance adjusting module connected with the adjusting rack in a meshing transmission mode, a second guide rail sliding block connected with the first sliding guide rail in a sliding mode and a guide rail fixing clamp connected with the second sliding guide rail in a sliding mode.

Furthermore, the gear rack comprises two parallel racks arranged on the movable flat plate and two coaxial gears arranged on the turnover shaft and in meshed transmission connection with the racks.

Furthermore, the output end of the turnover air cylinder is fixedly connected with the movable flat plate through an air cylinder connector.

Furthermore, the proximity switch, the turnover cylinder, the horizontal gas claw, the length measuring cylinder, the magnetic grid ruler, the guide cylinder, the first correlation switch, the hole measuring cylinder, the probe, the linear module and the second correlation switch are respectively connected with the controller.

The utility model has the advantages that: the utility model relates to a photovoltaic aluminium frame processing automatic checkout device has realized frame aluminium frame processing automated inspection through the linkage cooperation of upset subassembly, material stock subassembly, determine module and bad article collection subassembly before turning over, and on the detection process, 3-4 manual works have been practiced thrift to every equipment, can in time monitor processing bad quantity and with bad problem point, control processingquality provides data support and direction guide for equipment maintenance, prevents to produce processing batch harmfully.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a photovoltaic aluminum frame in a preferred embodiment of an automatic detection device for processing a photovoltaic aluminum frame of the present invention;

fig. 2 is a schematic perspective view of a preferred embodiment of an automatic detection device for processing a photovoltaic aluminum frame of the present invention;

FIG. 3 is a front view of FIG. 2;

FIG. 4 is a top view of FIG. 2;

fig. 5 is a schematic perspective view of a material storage assembly before turning in a preferred embodiment of the automatic detection device for processing a photovoltaic aluminum frame of the present invention;

fig. 6 is a schematic perspective view of an overturning assembly in a preferred embodiment of the automatic detection device for processing a photovoltaic aluminum frame of the present invention;

fig. 7 is a schematic structural view of a first view angle of a length detection component in a preferred embodiment of the automatic detection device for photovoltaic aluminum frame processing of the present invention;

fig. 8 is a schematic structural view of a second view angle of the length detection component in a preferred embodiment of the automatic detection device for processing a photovoltaic aluminum frame of the present invention;

fig. 9 is a schematic structural view of a storage guide member in a preferred embodiment of the automatic detection device for photovoltaic aluminum frame processing of the present invention;

fig. 10 is a schematic structural view of a mounting hole detection component in a preferred embodiment of the automatic detection device for photovoltaic aluminum frame processing of the present invention;

fig. 11 is a schematic structural view of a water leakage hole detection component in a preferred embodiment of the automatic detection device for photovoltaic aluminum frame processing of the present invention;

fig. 12 is a schematic structural diagram of a defective product collecting assembly in a preferred embodiment of the automatic detection device for processing a photovoltaic aluminum frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

As shown in fig. 1-4, the automatic detection device for photovoltaic aluminum frame processing according to the present invention comprises a frame 1, wherein the frame 1 is provided with a turnover assembly 3, a pre-turnover stock storage assembly 2 and a detection assembly 4 respectively located at two sides of the turnover assembly 3, and a defective product collection assembly 5 adjacent to one side of the detection assembly 4; fig. 1 is a schematic structural diagram of an aluminum frame, wherein L is the length of the aluminum frame, 001 is a water leakage hole, and 002 is a mounting hole.

Specifically, the equipment is wholly integrated in whole aluminium frame processing lines, production line machine-shaping's aluminium frame back-off leaves before turning over on the stock subassembly, proximity switch in the stock subassembly provides the signal for the upset subassembly before turning over, the upset subassembly overturns 180 with aluminium frame and puts into the determine module, the determine module detects the aluminium frame, it gets into the certified products district by whole transport mechanism who produces the line to detect qualified product, it rejects to defective products collection subassembly department to detect the defective products, determine mechanism counts and takes notes the defective products, it shuts down the processing function to have the warning and suggestion according to the setting, avoid batch appearance batch processing bad.

In this embodiment, frame 1 is machined after welding stress is got rid of by the weldment, guarantees structural strength, wholly passes through rag bolt and ground is fixed, provides rigid support and installation benchmark.

In this embodiment, as shown in fig. 5, the pre-turnover stock component 2 includes a mounting base 2.1 disposed on the rack 1, a stock panel 2.2 fixedly connected to the mounting base 2.1, and a proximity switch 2.3 disposed on the stock panel 2.2;

specifically, the material storage panel 2.2 is mounted on the mounting base 2.1, and the proximity switch 2.3 on the material storage panel 2.2 can be fixed in a fixing mode such as bolt connection and the like, wherein the mounting base 2.1 is machined after welding, the material storage panel 2.2 is machined from a plastic material, so that an aluminum frame is prevented from being scratched, and signal feedback is provided when the aluminum frame of the proximity switch 2.3 is in place;

in this embodiment, as shown in fig. 6, the turning assembly 3 includes a turning cylinder 3.1, two bearings with seats 3.10, and a moving plate 3.3 slidably connected to the frame 1 through a first rail slider 3.4, a turning shaft 3.8 is hinged between the two bearings with seats 3.10, an output end of the turning cylinder 3.1 is connected to the moving plate 3.3, in this embodiment, an output end of the turning cylinder 3.1 is fixedly connected to the moving plate 3.3 through a cylinder connector 3.2; the movable flat plate 3.3 is in transmission connection with the turnover shaft 3.8 through a gear rack 3.5 which is meshed with the turnover shaft; in this embodiment, the gear rack 3.5 includes two parallel racks disposed on the movable flat plate 3.3 and two coaxial gears disposed on the turning shaft 3.8 and engaged with the racks for transmission; two ends of the turnover shaft 3.8 are respectively provided with a turnover connecting plate 3.6, each turnover connecting plate 3.6 is provided with a horizontal gas claw 3.7, and one side of the frame 1, which is positioned at the first guide rail slide block 3.4, is provided with a sliding limiting block 3.9;

specifically, upset cylinder 3.1 passes through cylinder connector 3.2 and connects the removal dull and stereotyped 3.3, rack is fixed on the removal dull and stereotyped 3.3 in the rack and pinion 3.5, along first guide rail slider 3.4 back-and-forth movement, it is rotatory along rolling bearing 3.10 to drive trip shaft 3.8, horizontal gas claw 3.7 is installed on upset connecting plate 3.6, it is rotatory along with trip shaft 3.8, horizontal gas claw 3.7 centre gripping is at the aluminium frame on the material stock subassembly 2 before overturning, put on detection component 4 after 180 upsets, wherein, the state before the stroke control upset of slip stopper 3.9 combination upset cylinder 3.1 is overturn.

In this embodiment, the detection assembly 4 includes a plurality of mounting hole detection parts, two length detection parts, a plurality of water leakage hole detection parts, and a plurality of storage guide parts arranged in a straight line; specifically, a plurality of mounting hole detection part set up in frame 1 middle part, and is a plurality of mounting hole detection part bilateral symmetry is equipped with length detection part and hole detection part that leaks, and wherein, the symmetric distribution has a plurality of guide parts of depositing between mounting hole detection part, length detection part and the hole detection part that leaks.

In this embodiment, as shown in fig. 7 and 8, the length detecting component includes a length detecting mounting plate 4.1 disposed on the frame 1, a length measuring cylinder 4.2 disposed on the length detecting mounting plate 4.1, a length measuring V-shaped head 4.3 connected to an output end of the length measuring cylinder 4.2, and a magnetic grid ruler 4.4 disposed on the length measuring V-shaped head 4.3;

specifically, length measuring cylinder 4.2 is installed on length detection mounting panel 4.1, promotes the aluminium frame through length measuring V type head 4.3, and the stroke of promotion detects through installing the magnetic grid chi 4.4 reading on length measuring V type head 4.3, judges whether aluminium frame cutting length is qualified, to the aluminium frame of different models, through roll adjustment module 4.6 along second guide rail slider 4.5 direction regulation size, by guide rail fixation clamp 4.7 fixed position after the regulation is accomplished.

In this embodiment, as shown in fig. 9, the storage guide component includes a storage guide plate 5.1 disposed on the rack 1, a guide cylinder 5.2 disposed on the storage guide plate 5.1, a guide wheel mounting plate 5.3 connected to an output end of the guide cylinder 5.2, and a set of guide wheels 5.4 disposed on the guide wheel mounting plate 5.3;

specifically, direction cylinder 5.2 is installed on depositing deflector 5.1, deposits deflector 5.1 and provides the height standard for the aluminium frame, to the aluminium frame of different models, adjusts the size through roll adjustment module 4.6 along second guide rail slider 4.5 direction, adjusts the back and is fixed position by guide rail fixation clamp 4.7 after accomplishing.

In this embodiment, as shown in fig. 10, the mounting hole detection component includes a mounting hole detection floor 6.1 disposed on the rack 1, a first correlation switch bracket 6.2 is disposed on the mounting hole detection floor 6.1, and a group of first correlation switches 6.3 is disposed on the first correlation switch bracket 6.2;

specifically, first correlation switch 6.3 is installed on first correlation switch support 6.2, first correlation switch support 6.2 is installed on mounting hole detects floor 6.1, whether leak wrong processing through first correlation switch 6.3 signal detection mounting hole, to the aluminium frame of different models, adjust the different width of adaptation through the long waist hole of first correlation switch support 6.2, adjust the size through roll adjustment module 4.6 along second guide rail slider 4.5 direction, adjust and accomplish the back by guide rail fixation clamp 4.7 fixed position.

In this embodiment, as shown in fig. 11, the water leakage hole detecting component includes a water leakage hole detecting bottom plate 7.1 disposed on the rack 1, a hole measuring cylinder 7.2 disposed on the water leakage hole detecting bottom plate 7.1, a probe mounting plate 7.3 connected to an output end of the hole measuring cylinder 7.2, and a probe 7.4 disposed on the probe mounting plate 7.3;

specifically, survey hole cylinder 7.2 and install on the hole that leaks detects bottom plate 7.1, combine displacement sensor to detect through promoting a probe 7.4 of installing on probe mounting panel 7.3 and leak wrong processing whether leaks in the hole that leaks, to the aluminium frame of different models, through roll adjustment module 4.6 along second guide rail slider 4.5 direction regulation size, adjust and accomplish the back by guide rail fixation clamp 4.7 fixed position.

In this embodiment, as shown in fig. 12, the defective product collecting assembly 5 includes a linear module 8.1 disposed on the rack 1, a receiving fork plate 8.2 in transmission connection with the linear module 8.1, and a receiving fork 8.3 disposed on the receiving fork plate 8.2; the improved material receiving device is characterized in that guide bottom plates 8.4 are respectively arranged on two sides of a material receiving fork plate 8.2 on the rack 1, guide columns 8.5 and a second correlation switch support 8.6 are arranged on the guide bottom plates 8.4, and a group of second correlation switches 8.7 are arranged on the second correlation switch support 8.6.

Concretely, connect material fork 8.2 to connect the material fork to install on sharp module 8.1, sharp module 8.1 control the step distance that the defective products were collected, count the defective products, connect material fork 8.3 to install on connecting material fork 8.2, connect the material angle that connects material fork 8.3 to adjust according to different products, guarantee to connect the material perpendicularly, guide post 8.5 is installed on direction bottom plate 8.4, guarantee that the longer aluminium frame defective products of length do not incline, second correlation switch 8.7 is installed on second correlation switch support 8.6, feedback signal when the defective products are collected to the target in place.

In the embodiment, the automatic material turning device further comprises a controller, wherein the controller is respectively connected with the turning assembly 3, the pre-turning material storage assembly 2, the detection assembly 4 and the defective product collection assembly 5; the proximity switch 2.3, the overturning cylinder 3.1, the horizontal gas claw 3.7, the length measuring cylinder 4.2, the magnetic grid ruler 4.4, the guiding cylinder 5.2, the first correlation switch 6.3, the hole measuring cylinder 7.2, the probe 7.4, the linear module 8.1 and the second correlation switch 8.7 are respectively connected with the controller.

In this embodiment, the rack 1 is provided with an adjusting rack, a first sliding guide rail and a second sliding guide rail which are connected with the detection assembly 4; length detection mounting panel 4.1, deposit deflector 5.1, mounting hole detection floor 6.1 and leak under the hole detection bottom plate 7.1 and all be equipped with the roll adjustment module 4.6 of being connected with the transmission of adjusting rack toothing, with first sliding guide sliding connection's second guide rail slider 4.5 and with second sliding guide sliding connection's guide rail fixation clamp 4.7.

The utility model relates to a photovoltaic aluminium frame processing automatic checkout device has realized frame aluminium frame processing automated inspection through the linkage cooperation of upset subassembly, material stock subassembly, determine module and bad article collection subassembly before turning over, and on the detection process, 3-4 manual works have been practiced thrift to every equipment, can in time monitor processing bad quantity and with bad problem point, control processingquality provides data support and direction guide for equipment maintenance, prevents to produce processing batch harmfully.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The automatic detection device for photovoltaic aluminum frame processing comprises a rack (1) and is characterized in that a turnover component (3), a pre-turnover material storage component (2) and a detection component (4) which are respectively positioned at two sides of the turnover component (3), and a defective product collection component (5) close to one side of the detection component (4) are arranged on the rack (1);

the front-turning material storage assembly (2) comprises a mounting base (2.1) arranged on the rack (1), a material storage panel (2.2) fixedly connected to the mounting base (2.1), and a proximity switch (2.3) arranged on the material storage panel (2.2);

the overturning assembly (3) comprises an overturning cylinder (3.1) arranged on the rack (1), two bearings (3.10) with seats and a movable flat plate (3.3) which is in sliding connection with the rack (1) through a first guide rail slider (3.4), the overturning shaft (3.8) is hinged between the two bearings (3.10) with seats, the output end of the overturning cylinder (3.1) is connected with the movable flat plate (3.3), and the movable flat plate (3.3) is in transmission connection with the overturning shaft (3.8) through a gear rack (3.5) which is meshed with each other; two ends of the turnover shaft (3.8) are respectively provided with a turnover connecting plate (3.6), each turnover connecting plate (3.6) is provided with a horizontal gas claw (3.7), and one side of the rack (1) positioned at the first guide rail sliding block (3.4) is provided with a sliding limiting block (3.9);

the detection assembly (4) comprises a plurality of mounting hole detection parts, two length detection parts, a plurality of water leakage hole detection parts and a plurality of storage guide parts which are arranged in a straight line shape;

the length detection component comprises a length detection mounting plate (4.1) arranged on the rack (1), a length measurement cylinder (4.2) arranged on the length detection mounting plate (4.1), a length measurement V-shaped head (4.3) connected with the output end of the length measurement cylinder (4.2), and a magnetic grid ruler (4.4) arranged on the length measurement V-shaped head (4.3);

the storage guide component comprises a storage guide plate (5.1) arranged on the rack (1), a guide cylinder (5.2) arranged on the storage guide plate (5.1), a guide wheel mounting plate (5.3) connected with the output end of the guide cylinder (5.2), and a group of guide wheels (5.4) arranged on the guide wheel mounting plate (5.3);

the mounting hole detection component comprises a mounting hole detection floor (6.1) arranged on the rack (1), a first correlation switch bracket (6.2) is arranged on the mounting hole detection floor (6.1), and a group of first correlation switches (6.3) are arranged on the first correlation switch bracket (6.2);

the water leakage hole detection component comprises a water leakage hole detection bottom plate (7.1) arranged on the rack (1), a hole detection cylinder (7.2) arranged on the water leakage hole detection bottom plate (7.1), a probe mounting plate (7.3) connected with the output end of the hole detection cylinder (7.2), and a probe (7.4) arranged on the probe mounting plate (7.3);

the defective product collecting assembly (5) comprises a linear module (8.1) arranged on the rack (1), a material receiving fork plate (8.2) in transmission connection with the linear module (8.1), and material receiving forks (8.3) arranged on the material receiving fork plate (8.2); frame (1) is gone up and is located material receiving fork board (8.2) both sides and respectively is equipped with a direction bottom plate (8.4), be equipped with guide post (8.5) and second correlation switch support (8.6) on direction bottom plate (8.4), be equipped with a set of second correlation switch (8.7) on second correlation switch support (8.6).

2. The photovoltaic aluminum frame processing automatic detection device according to claim 1, further comprising a controller, wherein the controller is respectively connected with the overturning assembly (3), the pre-overturning material storage assembly (2), the detection assembly (4) and the defective product collection assembly (5).

3. The photovoltaic aluminum frame processing automatic detection device according to any one of claims 1-2, wherein the rack (1) is provided with an adjusting rack, a first sliding guide rail and a second sliding guide rail which are connected with the detection assembly (4).

4. The photovoltaic aluminum frame processing automatic detection device as claimed in claim 3, wherein distance adjusting modules (4.6) in meshed transmission connection with the adjusting racks, second guide rail sliders (4.5) in sliding connection with the first sliding guide rails and guide rail fixing clamps (4.7) in sliding connection with the second sliding guide rails are arranged under the length detection mounting plates (4.1), the storage guide plates (5.1), the mounting hole detection floor (6.1) and the water leakage hole detection bottom plate (7.1).

5. The photovoltaic aluminum frame processing automatic detection device as claimed in claim 1, wherein the gear rack (3.5) comprises two parallel racks arranged on the movable flat plate (3.3) and two coaxial gears arranged on the turnover shaft (3.8) and meshed with the racks for transmission connection.

6. The photovoltaic aluminum frame processing automatic detection device as claimed in claim 1, wherein the output end of the turnover cylinder (3.1) is fixedly connected with the movable flat plate (3.3) through a cylinder connector (3.2).

7. The photovoltaic aluminum frame processing automatic detection device according to claim 2, wherein the proximity switch (2.3), the overturning cylinder (3.1), the horizontal gas claw (3.7), the length measuring cylinder (4.2), the magnetic grid ruler (4.4), the guiding cylinder (5.2), the first correlation switch (6.3), the hole measuring cylinder (7.2), the probe (7.4), the linear module (8.1) and the second correlation switch (8.7) are respectively connected with the controller.