CN204996728U - Panel production system with screening function - Google Patents

Abstract

The utility model discloses a panel production system with screening function, include: the working cell, it sets up the mechanism's unit for being used for cutting original panel, a feed mechanism and the 2nd feed mechanism, a feed mechanism with the 2nd feed mechanism sets up to being used for transporting the mechanism's unit that cuts back panel, the image acquisition unit, it sets up to being used for gathering the mechanism's unit that cuts back panel shape information, the shifting block unit, it sets up to inciting somebody to action a feed mechanism goes up the warp the defective panel of image acquisition unit postdetection utensil pushes away to be dialled extremely on the 2nd feed mechanism, first workbin and the second of connecing connects the workbin, and the switch board, it sets up to being used for control the working cell a feed mechanism the 2nd feed mechanism the image acquisition unit with the control system of shifting block unit work. The utility model discloses can select the panel that has the flaw, the effectual cooperation precision that has improved between the panel, it is easy to assemble.

Description

A kind of sheet material production system with screening function

Technical field:

The utility model relates to sheet material production technical field, relates to a kind of sheet material production system in particular.

Background technology:

Signal shielding case is assembled by some sheet material, the problem that sheet material exists flaw is often run into during assembling, signal shielding case is caused not install smoothly, finally have impact on the serviceability of signal shielding case, its reason is in production process of plate, not in place to the monitoring of sheet material, and sheet material exists the problems such as overlap, burr, dimensional discrepancy in the process of production and processing, cause poor fit between sheet material, inconvenience is installed.

Utility model content:

The purpose of this utility model is exactly the deficiency for prior art, and provides a kind of sheet material production system with screening function, and sheet material defective can filter out by it, effectively raises the quality of fit between sheet material, convenient installation.

Technology solution of the present utility model is as follows: a kind of sheet material production system with screening function, comprising: working cell, and it is set to the mechanism unit for cutting original plate; First feed mechanism and the second feed mechanism, described first feed mechanism and described second feed mechanism are set to for transporting the mechanism unit cutting rear sheet material, the charging aperture of described first feed mechanism and the discharging opening of described working cell connect, and described first feed mechanism is connected in " L " type with described second feed mechanism; Image acquisition units, it is set to for gathering the mechanism unit cutting rear sheet material shape information, and described image acquisition units is arranged on the top of described first feed mechanism; Shifting block unit, its be set to by described first feed mechanism after described image acquisition units detects in tool defective sheet material pushing to described second feed mechanism, described shifting block unit is arranged on the below of described first feed mechanism; First splicing case and the second splicing case, described first splicing case and described second splicing case respectively correspondence are arranged on below the discharging opening of described first feed mechanism and described second feed mechanism; And switch board, it is set to the control system for controlling described working cell, described first feed mechanism, described second feed mechanism, described image acquisition units and described shifting block cell operation.

Preferred as technique scheme, described working cell comprises the workbench for supporting and transport original plate and the processing machine for cutting original plate.

Preferred as technique scheme, described first feed mechanism comprises the first support body, some first live-rollers be articulated on described first support body, for drive described first live-roller rotate the first electric motor units, wherein, described first electric motor units comprises for providing the first motor of driving force to described first live-roller, being positioned at described first live-roller one end for transmitting sprocket wheel and the chain of power, and described first motor is fixedly installed on described first support body by the first motor cabinet.

Preferred as technique scheme, described second feed mechanism comprises the second support body, some second live-rollers be articulated on described second support body, for drive described second live-roller rotate the second electric motor units, wherein, described second electric motor units comprises for providing the second motor of driving force to described second live-roller, being positioned at described second live-roller one end for transmitting sprocket wheel and the chain of power, and described second motor is fixedly installed on described second support body by the second motor cabinet.

Preferred as technique scheme, described image acquisition units comprises the column being symmetricly set on described first feed mechanism both sides, the crossbeam being fixedly installed on described column top, the high speed camera be fixedly installed on described crossbeam bottom face, the connecting plate being fixedly installed on described column top, the substrate be articulated on described connecting plate, the 3rd motor that is fixedly installed light source on the substrate, drives described substrate rotating, wherein, described 3rd motor is fixedly installed on described connecting plate by the 3rd motor cabinet.

Preferred as technique scheme, described shifting block unit comprises and is arranged on the plummer immediately below described first feed mechanism, the zigzag tread patterns portion be arranged on described plummer, the horizontal drive division that is connected with described zigzag tread patterns portion.

Preferred as technique scheme, described horizontal drive division comprises bracing frame, with the rotating disk of support frame as described above pivot joint, drives the 4th motor of described turntable rotation, for the T-shaped plate driving force of described 4th motor being passed to the belt of described rotating disk and belt wheel, match with described rotating disk, wherein, described 4th motor is arranged on the below of described rotating disk, described rotating disk is fixedly installed projection, described projection is arranged near the edge of described rotating disk, described T-shaped plate forms the linear pattern chute for described projection movement.

Preferred as technique scheme; described zigzag tread patterns portion comprises the movable plate that bottom face is provided with roller; be fixedly installed on the cylinder on described movable plate; be fixedly installed on the installing plate on described cylinder; be fixedly installed on the back-up block on described installing plate, the piston rod of one end and described cylinder be hinged, the other end runs through described back-up block and shifting block is hinged connecting rod, wherein; described back-up block forms the cell body for the upper and lower slippage of described shifting block, the top of described shifting block is provided with a protection head.

The beneficial effects of the utility model are: by arranging shifting block unit in the below of the first feed mechanism, described shifting block unit can by sheet material pushing to the second feed mechanism defective on described first feed mechanism, thus realize the screening of sheet material, effectively raise the quality of fit between sheet material, convenient installation.

Accompanying drawing illustrates:

The following drawings is only intended to schematically illustrate the utility model and explain, does not limit scope of the present utility model.Wherein:

Fig. 1 is the perspective view of the utility model sheet material production system;

Fig. 2 is the structural representation in the side-looking direction of the utility model sheet material production system;

Fig. 3 is the structural representation overlooking direction of the utility model sheet material production system;

Fig. 4 is the first feed mechanism of the utility model sheet material production system and the structural representation of the second feed mechanism;

Fig. 5 is the structural representation of the image acquisition units of the utility model sheet material production system;

Fig. 6 is the structural representation of the shifting block unit of the utility model sheet material production system;

Fig. 7 is the structural representation of the horizontal drive division of the utility model sheet material production system;

Fig. 8 is the structural representation in the zigzag tread patterns portion of the utility model sheet material production system.

In figure, 10, working cell; 11, workbench; 12, processing machine; 20, switch board; 30, the first feed mechanism; 31, the first support body; 32, the first live-roller; 33, the first electric motor units; 40, the second feed mechanism; 41, the second support body; 42, the second live-roller; 43, the second electric motor units; 50, image acquisition units; 51, column; 52, crossbeam; 53, high speed camera; 54, connecting plate; 55, substrate; 56, light source; 57, the 3rd motor; 571, the 3rd motor cabinet; 60, shifting block unit; 61, horizontal drive division; 611, bracing frame; 612, rotating disk; 613, projection; 614, T-shaped plate; 615, belt; 616, belt wheel; 617, the 4th motor; 62, plummer; 63, zigzag tread patterns portion; 631, movable plate; 632, cylinder; 633, installing plate; 634, connecting rod; 635, back-up block; 636, shifting block; 637, head is protected; 70, the first splicing case; 80, the second splicing case.

Detailed description of the invention:

Embodiment: by particular specific embodiment, embodiment of the present utility model is described below, those skilled in the art can understand other advantages of the present utility model and effect easily by content disclosed in the present specification, " top " mentioned in the present embodiment, " below ", " top ", " bottom " etc. describe and define according to common meaning, such as, the direction definition of reference to gravitational, the direction of gravity is below, contrary direction is top, similarly up be top or top, in below is bottom or bottom, be also only to be convenient to describe and understand, and be not used to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, under changing technology contents without essence, also when being considered as the enforceable category of the utility model.

See shown in Fig. 1 to Fig. 3, there is a sheet material production system for screening function, comprise working cell 10, switch board 20, first feed mechanism 30, second feed mechanism 40, image acquisition units 50, shifting block unit 60, first splicing case 70 and the second splicing case 80; Described working cell 10 is set to the mechanism unit for cutting original plate, comprises the workbench 11 for supporting and transport original plate and the processing machine 12 for cutting original plate; Described first feed mechanism 30 and described second feed mechanism 40 are set to for transporting the mechanism unit cutting rear sheet material; Described image acquisition units 50 is set to for gathering the mechanism unit cutting rear sheet material shape information; Described shifting block unit 60 be set to by described first feed mechanism 30 after described image acquisition units 50 detects the pushing of tool defective sheet material on described second feed mechanism 40; Described first splicing case 70 and described second splicing case 80 respectively correspondence are arranged on below the discharging opening of described first feed mechanism 30 and described second feed mechanism 40; And switch board 20 be set to for control described working cell 10, described first feed mechanism 30, described second feed mechanism 40, described image acquisition units 50 and described shifting block unit 60 work control system.

As shown in Figure 4, the described charging aperture of the first feed mechanism 30 and the discharging opening of described working cell 10 connect, and described first feed mechanism 30 is connected in " L " type with described second feed mechanism 40.Described first feed mechanism 30 comprises the first support body 31, some first live-rollers 32 be articulated on described first support body 31, for drive described first live-roller 32 rotate the first electric motor units 33, wherein, described first electric motor units 33 comprises for providing the first motor of driving force to described first live-roller 32, being positioned at described first live-roller 32 one end for transmitting sprocket wheel and the chain of power, and described first motor is fixedly installed on described first support body 31 by the first motor cabinet; Described second feed mechanism 40 comprises the second support body 41, some second live-rollers 42 be articulated on described second support body 41, for drive described second live-roller 42 rotate the second electric motor units 43, wherein, described second electric motor units 43 comprises for providing the second motor of driving force to described second live-roller 42, being positioned at described second live-roller 42 one end for transmitting sprocket wheel and the chain of power, and described second motor is fixedly installed on described second support body 41 by the second motor cabinet.

As shown in Figure 5, described image acquisition units 50 is arranged on the top of described first feed mechanism 30, comprise the column 51 being symmetricly set on described first feed mechanism 30 both sides, be fixedly installed on the crossbeam 52 at described column 51 top, be fixedly installed on the high speed camera 53 on described crossbeam 52 bottom face, be fixedly installed on the connecting plate 54 on described column 51 top, be articulated in the substrate 55 on described connecting plate 54, be fixedly installed on the light source 56 on described substrate 55, drive the 3rd motor 57 that described substrate 55 rotates, wherein, described 3rd motor 57 is fixedly installed on described connecting plate 54 by the 3rd motor cabinet 571.Described high speed camera 53 in described image acquisition units 50 can gather the shape information of sheet material on described first feed mechanism 30 and be sent to described switch board 20, described switch board 20 analyzes the image information that described high speed camera 53 collects, if sheet material does not meet default requirement, then described switch board 20 controls described shifting block unit 60 and is pushed into by ineligible sheet material on described second feed mechanism 40.

As shown in Figure 6, described shifting block unit 60 is arranged on the below of described first feed mechanism 30, comprises and is arranged on the plummer 62 immediately below described first feed mechanism 30, the zigzag tread patterns portion 63 be arranged on described plummer 62, the horizontal drive division 61 that is connected with described zigzag tread patterns portion 63.

As shown in Figure 7, described horizontal drive division 61 comprises bracing frame 611, with the rotating disk 612 of support frame as described above 611 pivot joint, drive the 4th motor 617 that described rotating disk 612 rotates, for the driving force of described 4th motor 617 being passed to belt 615 and the belt wheel 616 of described rotating disk 612, the T-shaped plate 614 matched with described rotating disk 612, wherein, described 4th motor 617 is arranged on the below of described rotating disk 612, described rotating disk 612 is fixedly installed projection 613, described projection 613 is arranged near the edge of described rotating disk 612, described T-shaped plate 614 forms the linear pattern chute for the movement of described projection 613.As shown in Figure 8, described zigzag tread patterns portion 63 comprises the movable plate 631 that bottom face is provided with roller, be fixedly installed on the cylinder 632 on described movable plate 631, be fixedly installed on the installing plate 633 on described cylinder 632, be fixedly installed on the back-up block 635 on described installing plate 633, the piston rod of one end and described cylinder 632 is hinged, the other end runs through described back-up block 635 connecting rod 634 hinged with shifting block 636, wherein, described back-up block 635 forms the cell body for the slippage of described shifting block about 636, the top of described shifting block 636 is provided with a protection 637, described protection 637 is made for rubber, scratch sheet material when described shifting block 636 can be avoided to rise.During use, drive the piston rod of described cylinder 632 to move up, then drive described shifting block 636 to move up by described connecting rod 634, namely described shifting block 636 has an action moved up; Described 4th motor 617 drives described rotating disk 612 to rotate by described belt wheel 616 and described belt 615, described T-shaped plate 614 has the action that an axis along described first live-roller 32 does straight reciprocating motion under the driving of described rotating disk 612, described zigzag tread patterns portion 63 does straight reciprocating motion under the promotion of described T-shaped plate 614 on described plummer 62, thus the flaw plate on described first feed mechanism 30 can be pushed on described second feed mechanism 40.

Operation principle: during use, original plate on processing machine 12 pairs of workbench 11 of working cell 10 cuts, sheet material after cutting is delivered on the first feed mechanism 30, the below of described first feed mechanism 30 is provided with shifting block unit 60, described shifting block unit 60 can carry out horizontal and vertical translation, in a non-operative state, shifting block 636 is positioned at the below of the first live-roller 32 of described first feed mechanism 30, image acquisition units 50 collection cuts the shape information of rear sheet material, and the image information collected is sent to switch board 20, when sheet material does not conform to the size preset, described switch board 20 sends signal to described shifting block unit 60, horizontal drive division 61 and zigzag tread patterns portion 63 is driven to work, at this moment described shifting block 636 under the effect of cylinder 632, longitudinal direction is moved, T-shaped plate 614 is traversing to described first feed mechanism 30 direction, thus by sheet material pushing to the second feed mechanism 40 defective on described first feed mechanism 30, the discharge port end of described first feed mechanism 30 and described second feed mechanism 40 is corresponding is respectively provided with the first splicing case 70 and the second splicing case 80, described first splicing case 70 is for placing the sheet material of satisfactory quality, described second splicing case 80 is for placing the flaw sheet material of quality shortcoming.

Described embodiment in order to illustrative the utility model, but not for limiting the utility model.Any those skilled in the art all without prejudice under spirit of the present utility model and category, can modify to described embodiment, therefore rights protection scope of the present utility model, should listed by claim of the present utility model.

Claims (8)

1. there is a sheet material production system for screening function, it is characterized in that, comprising:

Working cell (10), it is set to the mechanism unit for cutting original plate;

First feed mechanism (30) and the second feed mechanism (40), described first feed mechanism (30) and described second feed mechanism (40) are set to for transporting the mechanism unit cutting rear sheet material, the charging aperture of described first feed mechanism (30) and the discharging opening of described working cell (10) connect, and described first feed mechanism (30) is connected in " L " type with described second feed mechanism (40);

Image acquisition units (50), it is set to for gathering the mechanism unit cutting rear sheet material shape information, and described image acquisition units (50) is arranged on the top of described first feed mechanism (30);

Shifting block unit (60), it is set on described first feed mechanism (30), and after described image acquisition units (50) detects, the pushing of tool defective sheet material is extremely on described second feed mechanism (40), and described shifting block unit (60) is arranged on the below of described first feed mechanism (30);

First splicing case (70) and the second splicing case (80), described first splicing case (70) and described second splicing case (80) respectively correspondence are arranged on below the discharging opening of described first feed mechanism (30) and described second feed mechanism (40); And

Switch board (20), it is set to the control system worked for controlling described working cell (10), described first feed mechanism (30), described second feed mechanism (40), described image acquisition units (50) and described shifting block unit (60).

2. the sheet material production system with screening function according to claim 1, is characterized in that: described working cell (10) comprise the workbench (11) for supporting and transport original plate and the processing machine (12) for cutting original plate.

3. the sheet material production system with screening function according to claim 1, it is characterized in that: described first feed mechanism (30) comprises the first support body (31), be articulated in some first live-rollers (32) on described first support body (31), for the first electric motor units (33) driving described first live-roller (32) to rotate, wherein, described first electric motor units (33) comprises the first motor for providing driving force to described first live-roller (32), be positioned at described first live-roller (32) one end for transmitting sprocket wheel and the chain of power, described first motor is fixedly installed on described first support body (31) by the first motor cabinet.

4. the sheet material production system with screening function according to claim 1, it is characterized in that: described second feed mechanism (40) comprises the second support body (41), be articulated in some second live-rollers (42) on described second support body (41), for the second electric motor units (43) driving described second live-roller (42) to rotate, wherein, described second electric motor units (43) comprises the second motor for providing driving force to described second live-roller (42), be positioned at described second live-roller (42) one end for transmitting sprocket wheel and the chain of power, described second motor is fixedly installed on described second support body (41) by the second motor cabinet.

5. the sheet material production system with screening function according to claim 1, it is characterized in that: described image acquisition units (50) comprises the column (51) being symmetricly set on described first feed mechanism (30) both sides, be fixedly installed on the crossbeam (52) at described column (51) top, be fixedly installed on the high speed camera (53) on described crossbeam (52) bottom face, be fixedly installed on the connecting plate (54) on described column (51) top, be articulated in the substrate (55) on described connecting plate (54), be fixedly installed on the light source (56) on described substrate (55), the 3rd motor (57) driving described substrate (55) to rotate, wherein, described 3rd motor (57) is fixedly installed on described connecting plate (54) by the 3rd motor cabinet (571).

6. the sheet material production system with screening function according to claim 1, is characterized in that: described shifting block unit (60) comprises and is arranged on the plummer (62) immediately below described first feed mechanism (30), the zigzag tread patterns portion (63) be arranged on described plummer (62), the horizontal drive division (61) that is connected with described zigzag tread patterns portion (63).

7. the sheet material production system with screening function according to claim 6, it is characterized in that: described horizontal drive division (61) comprises bracing frame (611), with the rotating disk (612) of support frame as described above (611) pivot joint, the 4th motor (617) driving described rotating disk (612) to rotate, for the driving force of described 4th motor (617) being passed to belt (615) and the belt wheel (616) of described rotating disk (612), the T-shaped plate (614) matched with described rotating disk (612), wherein, described 4th motor (617) is arranged on the below of described rotating disk (612), described rotating disk (612) is fixedly installed projection (613), described projection (613) is arranged near the edge of described rotating disk (612), described T-shaped plate (614) forms the linear pattern chute for described projection (613) movement.

8. the sheet material production system with screening function according to claim 6, it is characterized in that: described zigzag tread patterns portion (63) comprises the movable plate (631) that bottom face is provided with roller, be fixedly installed on the cylinder (632) on described movable plate (631), be fixedly installed on the installing plate (633) on described cylinder (632), be fixedly installed on the back-up block (635) on described installing plate (633), the piston rod of one end and described cylinder (632) is hinged, the other end runs through described back-up block (635) connecting rod (634) hinged with shifting block (636), wherein, described back-up block (635) forms the cell body for the upper and lower slippage of described shifting block (636), the top of described shifting block (636) is provided with a protection head (637).