CN217551731U - Section bar processingequipment based on visual detection - Google Patents

Abstract

The utility model provides a section bar processingequipment based on visual detection, relate to mechanical equipment technical field, this section bar processingequipment includes conveying component and the one or two at least drilling subassembly that set gradually along conveying component's direction of delivery, cutting assembly and visual detection subassembly, visual detection subassembly includes scanning detection mechanism and is used for carrying out the separating mechanism who separates certified products and defective work, separating mechanism and scanning detection mechanism looks communication connection, can carry the section bar of treating processing and carry out drilling operation once or many times in proper order, cutting segmentation operation after the drilling and carry out the operation that visual detection rejected the defective work to the product after processing, each manufacturing procedure homoenergetic links up the going on automatically, manual operation has greatly been reduced, it needs single unit operation and needs the manual measurement to judge whether qualified to have solved section bar processing among the prior art, production efficiency and detection efficiency low technical problem.

Description

Section bar processingequipment based on visual detection

Technical Field

The utility model belongs to the technical field of mechanical equipment technique and specifically relates to a section bar processingequipment based on visual detection is related to.

Background

The traditional method adopts a single-person single-machine operation mode, after the section bar is cut by a circular sawing machine, a drilling machine is drilled manually, burrs are polished manually after the drilling, the burrs are detected manually by a caliper so as to judge whether a processed product is qualified or not, manual processing and screening are needed, the production efficiency and the detection efficiency are low, and the appearance scratches of the processed product are more.

Therefore, how to solve the technical problems that the processing of the section bar in the prior art needs single-person single-machine operation and needs manual measurement to judge whether the section bar is qualified or not, and the production efficiency and the detection efficiency are low becomes an important technical problem to be solved by the personnel in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a section bar processingequipment based on visual detection, whether it is qualified to have solved among the prior art section bar processing and need single unit operation and need artifical measurement to judge, technical problem that production efficiency and detection efficiency hang down. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a section bar processingequipment based on visual detection, including conveyor components and edge conveyor components's direction of delivery sets gradually one or two at least drilling subassembly, cutting assembly and visual detection subassembly, the visual detection subassembly includes scanning detection mechanism and is used for carrying out the separating mechanism who separates certified products and defective work, separating mechanism with scanning detection mechanism looks communication connection.

Furthermore, scanning detection mechanism includes the support frame and is used for carrying out image shooting and scanning detection's vision scanning detection piece to the section bar, vision scanning detection piece erects on the support frame.

Furthermore, the separating mechanism comprises a first telescopic part and a receiving part which are oppositely arranged, the first telescopic part and the receiving part are respectively arranged on two sides of the conveying assembly, and the first telescopic part can push unqualified products into the receiving part through self telescopic motion.

Further, the drilling component comprises a drilling machine, a pressing mechanism and a moving supporting mechanism, wherein the pressing mechanism and the moving supporting mechanism are used for clamping the section, the pressing mechanism is arranged on the front side and the rear side of the moving supporting mechanism, the pressing mechanism is arranged above the moving supporting mechanism, the pressing mechanism can move downwards to press the section, and the moving supporting mechanism can support and support different positions of the section along the transverse movement.

Furthermore, the pressing mechanism comprises a support erected above a working platform of the drilling machine and a second telescopic piece erected on the support vertically, and the moving end of the second telescopic piece can move downwards to press the section bar.

Furthermore, the movable supporting mechanism comprises a third telescopic piece and a first sliding block, the first sliding block is connected with a working platform of the drilling machine in a sliding mode, one end of the third telescopic piece is connected with the first sliding block, the other end of the third telescopic piece is connected with the working platform of the drilling machine, and the third telescopic piece can drive the first sliding block to move horizontally and transversely along the working platform of the drilling machine through self telescopic movement energy.

Further, still including set up in conveying assembly one side's blowing subassembly, the blowing subassembly is including the carriage that is used for placing a plurality of section bars of waiting to process and being used for transferring single section bar to the material mechanism that moves on conveying assembly, it sets up to move the material mechanism in the carriage with between the conveying assembly.

Further, the carriage includes the support body, erects a plurality of conveyer belts of support body top and drive each the conveyer belt carries out synchronous operation's driving piece, and the section bar sets up in each conveyer belt top side by side.

Further, it includes wedge block, fourth extensible member and leading truck to move material mechanism, the wedge block with the fourth extensible member one-to-one sets up in groups the both sides of support body, the one end of fourth extensible member with support body fixed connection, its other end with the wedge block is connected, the leading truck slope sets up the top of conveyer belt with between the side direction top of conveyor components, the fourth extensible member can drive through the concertina movement of self the wedge block carries out vertical motion to upwards lift single section bar extremely on the leading truck, make its landing extremely on the conveyor components.

Further, still including set up in the terminal washing polishing subassembly of conveyor components, wash polishing subassembly include the frame, set up in at least two processing ponds of frame below, with the material frame that the processing pond corresponds the setting, be used for driving the material frame by one the processing pond moves into next the horizontal displacement subassembly of processing pond and be used for with each the material frame carries out vertical lift's vertical hoisting subassembly, horizontal displacement subassembly with vertical hoisting subassembly all erects on the frame.

The utility model discloses compare in prior art and have following beneficial effect:

the utility model provides a section bar processingequipment, through the subassembly that will drill, cutting assembly and visual detection subassembly set gradually along conveying component's direction of delivery, can carry the section bar of treating processing and carry out drilling operation once or many times in proper order, cutting segmentation operation after the drilling and carry out the operation of visual detection rejection defective work to the product after processing, each manufacturing procedure homoenergetic is automatic to link up going on, manual operation has greatly been reduced, and through addding the visual detection subassembly, can carry out 3D image scanning through scanning detection mechanism automatic product to in the transportation process, whether qualified according to the product after prestoring data judgement processing, and adjust separating mechanism according to judging the structure and move, separate certified products and defective products, thereby reject the defective products from the certified products, so that the certified products carry out follow-up production process, manual operation has also greatly been reduced, and production efficiency and detection efficiency have greatly been improved.

Drawings

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

Fig. 1 is a schematic structural view of an upper portion of a profile processing device based on visual inspection according to an embodiment of the present invention;

fig. 2 is a schematic overall structure diagram of a profile processing device based on visual inspection according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a drilling assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a visual inspection assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a discharging assembly provided by the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a cleaning and polishing assembly according to an embodiment of the present invention.

FIG. 1-transport assembly; 2-a drilling assembly; 3-a cutting assembly; 4-a visual detection component; 5-scanning the detection mechanism; 6-a separation mechanism; 7-a support frame; 8-visual scanning detection piece; 9-a first telescopic member; 10-receiving parts; 11-a drilling machine; 12-a hold-down mechanism; 13-a mobile support mechanism; 14-a scaffold; 15-a second telescopic member; 16-a third telescoping member; 17-a first slider; 18-a discharging assembly; 19-a section bar to be processed; 20-a conveying frame; 21-a material moving mechanism; 22-a frame body; 23-a conveyor belt; 24-a drive member; 25-a wedge block; 26-a fourth telescoping member; 27-a guide frame; 28-cleaning the polishing component; 29-a frame; 30-a processing pool; 31-material frame; 32-a lateral shifting assembly; 33-a vertical lift assembly; 34-a second slide; 35-a support bracket; 36-a lateral movement mechanism; 37-a moving rack; 38-a first drive assembly; 39-a hanger plate; 40-a transmission shaft; 41-a transmission wheel; 42-transmission belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

An object of the utility model is to provide a section bar processingequipment based on visual detection, solved among the prior art section bar processing and need single unit operation and need artifical measurement to judge whether qualified, technical problem that production efficiency and detection efficiency hang down.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

The technical solution of the present invention is described in detail with reference to specific embodiments.

Example 1:

referring to fig. 1-2, the sectional material processing device based on visual inspection provided by this embodiment includes a conveying assembly 1, and one or at least two drilling assemblies 2, cutting assemblies 3 and visual inspection assemblies 4 which are sequentially arranged along the conveying direction of the conveying assembly 1, the drilling assemblies 2 can drill holes on sectional materials, the processing is more convenient, and through one or at least two drilling assemblies, single holes can be drilled or double holes can be drilled simultaneously according to product requirements. The cutting assembly 3 can cut the drilled section into sections according to the preset length, and the machining is more convenient. Visual detection subassembly 4 includes scanning detection mechanism 5 and separating mechanism 6, separating mechanism 6 and scanning detection mechanism 5 looks communication connection, be used for carrying out the scanning detection to the product after the processing in the transportation process, and with certified products and defective work separation, so set up, the utility model discloses a with drilling subassembly 2, cutting subassembly 3 and visual detection subassembly 4 along the direction of delivery of transportation subassembly 1 set gradually, can carry out the section bar of treating processing and carry out drilling operation once or many times in proper order, cutting into the section operation after the drilling and carry out the operation of visual detection rejection defective work to the product after the processing, each processing procedure homoenergetic is automatic to link up going on, manual operation has greatly reduced, and through addding visual detection subassembly 4, can carry out 3D image scanning to the product in the transportation process through scanning detection mechanism 5 is automatic, with whether the product after judging the processing is qualified according to prestoring data, and adjust separating mechanism 6 according to judge the action according to judge the structure, the certified products are separated with the defective work, thereby reject from the defective work in the qualified products, with the qualified products carry out the follow-up production process, also greatly reduced the follow-up production process working procedure, and whether the efficiency has greatly improved the single-up work detection technology and whether the efficiency and has solved the measure the efficiency.

The conveying assembly 1 may include a base, a plurality of idler or conveyor belt 23 structures erected on the base, and a driving member 24, where the driving member 24 may be, but is not limited to, a motor, and can drive the plurality of idler or conveyor belt 23 structures to rotate for conveying operation.

Example 2:

referring to fig. 1 to 6, the present embodiment further defines the specific structure of the profile processing apparatus in addition to embodiment 1. Wherein, scanning detection mechanism 5 includes support frame 7 and visual scanning detection piece 8, and visual scanning detection piece 8 erects on support frame 7 to set up towards conveying component 1, and visual scanning detection piece 8 can be but not limited to for camera or scanner for carry out image shooting and scanning detection to the section bar, with the product parameter of prestoring contrast judge whether the product after the processing is qualified product, it is more convenient to use. Wherein, the support frame 7 can be a portal frame structure, and can be erected above the conveying assembly 1, and the support is more stable.

Referring to fig. 4, as an optional implementation manner of the embodiment of the present invention, the separating mechanism 6 includes a first expansion piece 9 and a receiving piece 10, which are oppositely disposed, the first expansion piece 9 and the receiving piece 10 are respectively disposed on two sides of the conveying assembly 1, the first expansion piece 9 may be, but not limited to, a cylinder or a hydraulic cylinder structure, a fixed end of the first expansion piece is fixed to a base of the conveying assembly 1, and a moving end of the first expansion piece can extend outwards to push the defective products laterally away from the conveying assembly 1. Connect material piece 10 can be including erectting the guide way in conveyor components 1 one side and placing the storage frame 31 in the guide way below, and the guide way sets up with first extensible member 9 relatively, and first extensible member 9 can push up the defective work from conveyor components 1 to the guide way in through the flexible motion of self, and the defective work can fall into to unified accomodating in the storage frame 31 along the guide way.

Referring to fig. 3, as the optional implementation of the embodiment of the present invention, drilling assembly 2 includes drilling machine 11 and hold-down mechanism 12 and the removal supporting mechanism 13 that are used for pressing from both sides tight section bar, hold-down mechanism 12 sets up in the top that removes supporting mechanism 13 in both sides around removing supporting mechanism 13 and hold-down mechanism 12, hold-down mechanism 12 can move down to compress tightly the section bar and remove supporting mechanism 13 and can carry out the bearing support to the different positions of section bar along lateral shifting, so set up, the section bar is carried to the work platform of drilling machine 11, hold-down mechanism 12 pushes down and removes supporting mechanism 13 lateral shifting, can play the tight location supporting role of clamp to the section bar jointly, avoid its aversion, thereby make drilling machine 11 can punch on the section bar accurately.

Further, the pressing mechanism 12 includes a support 14 and a second telescopic member 15, the support 14 is erected above the working platform of the drilling machine 11, the support 14 may be an inverted "L" shaped structure, the second telescopic member 15 is erected on the support 14 along the vertical direction, and the support 14 can suspend and support the second telescopic member 15. The moving end of the second telescopic element 15 can move downwards to press the profile, thus reducing the displacement of the profile. The second telescopic member 15 may be, but not limited to, a cylinder or a hydraulic cylinder structure, and is flexible and convenient to drive. In addition, a supporting roller can be further arranged on the working platform of the drilling machine 11 at a position corresponding to the second telescopic part 15, so that the profile can be conveyed after the drilling is completed.

Further, the movable supporting mechanism 13 comprises a third telescopic piece 16 and a first sliding block 17, the first sliding block 17 is connected with a working platform of the drilling machine 11 in a sliding mode, one end of the third telescopic piece 16 is connected with the first sliding block 17, the other end of the third telescopic piece is connected with the working platform of the drilling machine 11, the third telescopic piece 16 can drive the first sliding block 17 to horizontally and transversely move along the working platform of the drilling machine 11 through self telescopic motion, the third telescopic piece 16 can adjust the supporting position of the first sliding block 17 on the section bar in real time through self telescopic motion, the third telescopic piece 16 and the first sliding block 17 can be matched with the pressing mechanism 12, the section bar can be uniformly clamped, the phenomenon that the section bar is stressed unevenly deformed is avoided, and drilling precision is influenced. Wherein, the third telescopic member 16 can be but not limited to a cylinder or a hydraulic cylinder structure, and the adjustment is more flexible and convenient.

Further, the movable supporting mechanism 13 may further include a second slider 34, the second slider 34 may be disposed above the first slider 17 and slidably connected to the first slider 17, a guide rail disposed along the horizontal longitudinal direction is disposed between the second slider 34 and the first slider 17, and the relative movement between the second slider 34 and the first slider 17 may be adjusted by manually pushing and locking, or may be adjusted by driving the second slider 34 through a telescopic structure such as an air cylinder or a hydraulic cylinder. The top of second slider 34 has and is used for supplying the section bar to stretch into the recess of placing, and the recess can carry out the level to the section bar vertically spacing, so sets up, through setting up second slider 34, when can making second slider 34 carry out horizontal migration along with first slider 17 and support, also can adjust the horizontal longitudinal position of section bar through second slider 34 and first slider 17 relative movement to carry out more accurate drilling location.

Referring to fig. 5, as the optional implementation manner of the embodiment of the present invention, the section processing apparatus further includes a discharging component 18 disposed on one side of the conveying component 1, the discharging component 18 includes a conveying rack 20 for placing a plurality of to-be-processed sections 19 and a material moving mechanism 21 for moving a single section to the conveying component 1, the material moving mechanism 21 is disposed between the conveying rack 20 and the conveying component 1, so as to set up, the plurality of to-be-processed sections 19 can be sequentially placed on the conveying rack 20, through the movement of the material moving mechanism 21, a single section can be sequentially moved to the conveying component 1 from the conveying rack 20, and the forward conveying process is performed in sequence, thereby greatly reducing the manual feeding operation.

Further, carriage 20 includes support body 22, erects a plurality of conveyer belts 23 above support body 22 and drives each conveyer belt 23 and carry out synchronous operation's driving piece 24, and the section bar sets up in each conveyer belt 23 top side by side, and the section bar can be put along the direction of delivery looks vertically with conveyer belt 23, and a plurality of conveyer belts 23 can carry out the bearing support to different positions on the length of section bar, and is more even to the support and the transport effect of section bar.

The driving member 24 may be, but not limited to, a motor, the driving wheels of the conveyer belts 23 may be connected through the same transmission shaft 40, and the driving member 24 is in transmission connection with the transmission shaft 40, so as to drive the conveyer belts 23 to perform synchronous operation conveying action.

Further, move material mechanism 21 and include wedge 25, fourth extensible member 26 and leading truck 27, wedge 25 and fourth extensible member 26 one-to-one set up in the both sides of support body 22 in groups, the one end and the support body 22 fixed connection of fourth extensible member 26, its other end is connected with wedge 25, leading truck 27 slope sets up between the top of conveyer belt 23 and the side direction top of conveyor components 1, the one end that leading truck 27 is close to conveyer belt 23 is high-end, the one end that leading truck 27 is close to conveyor components 1 is the low end, so that the smooth landing of section bar. Wedge 25 also has big end and tip, and the big end is close to conveyer belt 23 direction setting, and just the big end is located conveyer belt 23 and is under the single section bar of foremost, and the tip is close to conveying component 1 direction setting to make its smooth and easy whereabouts to leading truck 27 after the big end of wedge 25 lifts the single section bar of foremost. Fourth extensible member 26 can be but not limited to for cylinder or pneumatic cylinder mechanism, fourth extensible member 26 can drive wedge block 25 through the concertina movement of self and carry out vertical motion, upwards lift single section bar to leading truck 27 on, make its landing to carry on the subassembly 1, conveyer belt 23 can last carry subsequent section bar to foremost, fourth extensible member 26 carries out vertical reciprocating motion through driving wedge block 25 and can lift single section bar of foremost in proper order and transfer to leading truck 27 on, manual operation has greatly been reduced, and the work efficiency is improved.

Referring to fig. 6, as an optional implementation manner of the embodiment of the present invention, the section processing apparatus further includes a cleaning and polishing assembly 28 disposed at the end of the conveying assembly 1, the cleaning and polishing assembly 28 includes a frame 29, at least two processing pools 30 disposed below the frame 29, a material frame 31 disposed corresponding to the processing pools 30, a horizontal shifting assembly 32 for driving the material frame 31 to move from one processing pool 30 to the next processing pool 30, and a vertical lifting assembly 33 for vertically lifting each material frame 31, different processing components may be disposed in each processing pool 30, and different processing operations, such as cleaning, polishing, or drying, may be performed on the section material in the material frame 31. The material frame 31 can be of a net basket structure, the sectional material can be conveniently and fully contacted with processing components in the processing pool 30, the transverse displacement assembly 32 and the vertical lifting assembly 33 are erected on the frame 29, the arrangement is realized, the vertical lifting assembly 33 can adjust each material frame 31 to fall into the corresponding processing pool 30 for corresponding processing operation, after the operation is completed, the vertical lifting assembly 33 acts to upwards move each material frame 31 out of the processing pool 30, the transverse displacement assembly 32 acts to transversely displace each material frame 31 at the moment, each material frame 31 is made to move to the next processing procedure, namely, the material frame 30 is moved into the next adjacent processing pool 30, and the processing procedures of each processing pool 30 are finished until the material frame 31 drives the sectional material to output. For the foremost material frame 31, the material frame 31 is manually supplemented only when the vacancy is generated, the supplementing time interval is long, and the manual labor intensity is low.

Further, the lateral shift assembly 32 may include a support bracket 35 and a lateral moving mechanism 36 slidably disposed on the support bracket 35 in the lateral direction, and the support bracket 35 may be mounted on the frame 29 in a sliding connection with the frame 29. The transverse moving mechanism 36 and the material frame 31 are arranged in a one-to-one correspondence mode, the transverse moving mechanism 36 and the material frame 31 are detachably connected, and the material frame 31 can be driven to perform transverse displacement operation. The transverse moving mechanism 36 includes a moving frame 37 slidably connected to the supporting bracket 35, a first driving assembly 38 for driving the moving frame 37 to move, and a hanging plate 39 connected to the material frame 31 in a hooking manner, the first driving assembly 38 can be, but is not limited to, a motor, the material frame 31 can be hooked on the hanging plate 39, and the first driving assembly 38 drives the moving frame 37 to transversely displace to drive the material frame 31 to transversely displace.

Further, a vertical lifting assembly 33 may be disposed above the lateral shifting assembly 32, which brings the lateral shifting assembly 32 into vertical movement as a whole. The vertical lifting assembly 33 can include two transmission shafts 40 erected on the frame 29, a second driving assembly for respectively driving the transmission shafts 40 to move, a plurality of transmission wheels 41 and a transmission belt 42 sleeved on the transmission shafts 40, the transmission belt 42 can be wound on the transmission wheels 41, and two ends of the transmission belt 42 are connected with the support bracket 35 of the transverse shifting assembly 32, the transmission wheels 41 and the transmission belt 42 can be but are not limited to sprockets and chains, the transmission is more accurate, the second driving assembly can be but is not limited to motors, the second driving assembly drives the two transmission shafts 40 to move oppositely, the transverse shifting assembly 32 can be driven to carry out vertical lifting by upward shortening of the transmission belt 42, the second driving assembly drives the two transmission shafts 40 to move reversely, the transverse shifting assembly 32 can be driven to vertically descend by downward extending of the transmission belt 42, and the adjustment and the use are more convenient.

In the description of the present invention, it is to be noted that, unless otherwise specified, "a plurality" means two or more; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships that are based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, rather than to indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as the case may be, by those of ordinary skill in the art.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The section processing device based on visual detection is characterized by comprising a conveying assembly (1), one or at least two drilling assemblies (2), a cutting assembly (3) and a visual detection assembly (4), wherein the one or at least two drilling assemblies (2), the cutting assembly (3) and the visual detection assembly (4) are sequentially arranged along the conveying direction of the conveying assembly (1), the visual detection assembly (4) comprises a scanning detection mechanism (5) and a separation mechanism (6) used for separating qualified products from unqualified products, and the separation mechanism (6) is in communication connection with the scanning detection mechanism (5).

2. The section processing device based on visual inspection according to claim 1, characterized in that the scanning detection mechanism (5) comprises a support frame (7) and a visual scanning detection piece (8) for image shooting and scanning detection of the section, and the visual scanning detection piece (8) is erected on the support frame (7).

3. The section processing device based on visual inspection is characterized in that the separating mechanism (6) comprises a first telescopic part (9) and a receiving part (10) which are oppositely arranged, the first telescopic part (9) and the receiving part (10) are respectively arranged at two sides of the conveying assembly (1), and the first telescopic part (9) can push unqualified products into the receiving part (10) through self telescopic motion.

4. The section processing device based on visual inspection is characterized in that the drilling assembly (2) comprises a drilling machine (11), a pressing mechanism (12) for clamping the section and a movable supporting mechanism (13), the pressing mechanism (12) is arranged on the front side and the rear side of the movable supporting mechanism (13), the pressing mechanism (12) is arranged above the movable supporting mechanism (13), the pressing mechanism (12) can move downwards to press the section, and the movable supporting mechanism (13) can move transversely to bear and support different positions of the section.

5. Section processing device based on visual inspection according to claim 4, characterized in that the hold-down mechanism (12) comprises a support (14) erected above the working platform of the drilling machine (11) and a second telescopic member (15) erected vertically on the support (14), the moving end of the second telescopic member (15) being able to move down the hold-down section.

6. The section processing device based on visual inspection is characterized in that the movable supporting mechanism (13) comprises a third telescopic part (16) and a first slide block (17), the first slide block (17) is connected with a working platform of the drilling machine (11) in a sliding mode, one end of the third telescopic part (16) is connected with the first slide block (17), the other end of the third telescopic part is connected with the working platform of the drilling machine (11), and the third telescopic part (16) can drive the first slide block (17) to move horizontally and transversely along the working platform of the drilling machine (11) through self telescopic motion.

7. The profile processing device based on visual inspection as claimed in claim 1, further comprising a discharging assembly (18) arranged at one side of the conveying assembly (1), wherein the discharging assembly (18) comprises a conveying rack (20) for placing a plurality of profiles (19) to be processed and a material moving mechanism (21) for moving a single profile onto the conveying assembly (1), and the material moving mechanism (21) is arranged between the conveying rack (20) and the conveying assembly (1).

8. The profile processing device based on visual inspection as claimed in claim 7, wherein the conveyor (20) comprises a frame body (22), a plurality of conveyor belts (23) arranged above the frame body (22), and a driving member (24) for driving each conveyor belt (23) to synchronously operate, and the profiles are arranged in parallel above each conveyor belt (23).

9. The section processing device based on visual inspection as claimed in claim 8, wherein the material moving mechanism (21) comprises wedge-shaped blocks (25), fourth telescopic pieces (26) and a guide frame (27), the wedge-shaped blocks (25) and the fourth telescopic pieces (26) are correspondingly arranged on two sides of the frame body (22) in groups one by one, one end of each fourth telescopic piece (26) is fixedly connected with the frame body (22), the other end of each fourth telescopic piece is connected with the wedge-shaped blocks (25), the guide frame (27) is obliquely arranged above the conveying belt (23) and between the lateral upper sides of the conveying assembly (1), and the fourth telescopic pieces (26) can drive the wedge-shaped blocks (25) to move vertically so as to lift a single section upwards onto the guide frame (27) and enable the single section to slide onto the conveying assembly (1).

10. The section processing device based on visual inspection is characterized by further comprising a cleaning and polishing assembly (28) arranged at the tail end of the conveying assembly (1), wherein the cleaning and polishing assembly (28) comprises a frame (29), at least two processing pools (30) arranged below the frame (29), a material frame (31) arranged corresponding to the processing pools (30), a transverse displacement assembly (32) used for driving the material frame (31) to move from one processing pool (30) to the next processing pool (30), and a vertical lifting assembly (33) used for vertically lifting each material frame (31), and the transverse displacement assembly (32) and the vertical lifting assembly (33) are erected on the frame (29).

Images