CN112320350A

CN112320350A - Flat plate distributing and station replacing forming system

Info

Publication number: CN112320350A
Application number: CN202011420924.9A
Authority: CN
Inventors: 刘红辉; 谢军强; 邓姿奇
Original assignee: Loudi Xiangxin New Material Technology Co ltd
Current assignee: Loudi Xiangxin New Material Technology Co ltd
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2021-02-05

Abstract

The invention provides a flat plate material distribution and station replacement forming system which comprises a rack, wherein a power box is fixed at one end part of the rack, a feeding assembly is installed at the top of the power box, machining heads with larger quantity are installed at one side of the other end of the rack, a side plate is vertically fixed at the other side of the other end of the rack along the conveying direction, an upper guide rail is horizontally fixed at the upper part of the side plate at one side of the machining heads, a lower guide rail is fixed on the side plate below the upper guide rail, the installed lower guide rail is parallel to the upper guide rail, a transposition assembly is movably installed between the upper guide rail and the lower guide rail, and a correction assembly is installed on the rack between. The invention has reasonable structure and good use effect after adopting the scheme.

Description

Flat plate distributing and station replacing forming system

Technical Field

The invention relates to the technical field of panel processing, in particular to a panel distributing and station replacing forming system.

Background

When a traditional flat plate is processed, due to various reasons (transportation, lifting and the like), the flat plate can slightly deform (particularly corners and edges), and once the flat plate deforms, the subsequent processing effect can be influenced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a flat plate material distributing and station replacing forming system which is reasonable in structure and good in using effect.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: the utility model provides a dull and stereotyped branch material, station change forming system, which comprises a frame, frame one end fixing has the headstock, the material loading subassembly is installed at the headstock top, the processing head that quantity is greater than is installed to one of them side of the frame other end, the vertical curb plate that is fixed with of direction of delivery is followed to the opposite side of the frame other end, the curb plate upper portion of processing head one side is the level and is fixed with the upper guideway, be fixed with the lower rail on the curb plate of upper guideway below, the lower guideway after the installation is parallel to each other with the upper guideway, movable mounting has transposition subassembly between the lower guideway, install the correction subassembly in the frame.

The transposition assembly comprises a sliding block and a sliding shaft, wherein one side of the upper guide rail, which is opposite to the lower guide rail, is provided with an inwards concave sliding groove, the sliding block is movably arranged between the two sliding grooves, a through sliding block groove is formed in the sliding block, the sliding block groove is in an inverted V shape, a through side plate groove is formed in a side plate between the two sliding grooves, the side plate groove is in an n shape, the sliding shaft is movably arranged between the sliding block groove and the side plate groove, one end of the sliding shaft horizontally extends to form a bearing arm, the bottom of the outer end of the bearing arm is vertically fixed with a grabbing arm, the bottom of the grabbing arm is provided with a sucking disc, the top of a rack at one end of the side plate is vertically fixed with a cylinder mounting seat; the sliding block on two sides of the sliding block groove is provided with a first limiting groove which is concave inwards, a sliding shaft in the sliding block groove is movably provided with a first pulley, and the mounted first pulley is limited through the first limiting groove; the side plates on the two sides of the side plate groove are provided with inwards concave second limiting grooves, the sliding shaft in the side plate groove is movably provided with a second pulley, and the second pulley after installation is limited through the second limiting grooves.

The feeding assembly comprises power boxes vertically fixed on two sides of the top of a rack, the top of each power box is provided with a board placing rack, a board placing area is formed between the two board placing racks, the top of the rack between the two power boxes is movably hinged with a swing arm through a hinge shaft, the top of the swing arm is provided with a push plate, a cross beam is movably fixed between the two power boxes, a tension spring is connected between the cross beam and the upper part of the swing arm, a power shaft is movably arranged between the two power boxes below the cross beam, the middle part of the power shaft is provided with a cam, the wheel surface of the mounted cam is abutted against the swing arm, the outer side wall of one power box is provided with a rotating motor, a transmission shaft of the rotating motor penetrates through the power boxes; the push pedal is located and places district wherein one end in the panel, and two panel racks of the district other end are placed to panel bend relatively and form the limiting plate, and two blocks of branch material curb plate tops are fixed with the layer board on one side relatively, form the reciprocating groove of swing arm between two layer boards, reserve between limiting plate bottom and the layer board surface and have panel exit channel.

The correcting component comprises a lower rotating shaft, the guide pillar, wherein, lower rotation shaft movable mounting is between two transport curb plate lower parts, install lower conveying roller on the lower rotation shaft, the lower rotation shaft that is located power wheel one end passes transport curb plate and swiveling wheel connection, be connected through the chain between swiveling wheel and the power wheel, all be equipped with the lift spout that passes on two transport curb plates of lower rotation shaft top, movable mounting has the slider in the lift spout, the vertical guide pillar that is fixed with in slider top, the guide pillar top upwards passes transport curb plate and limiting plate connection, the cover is equipped with buffer spring on the guide pillar in the lift spout, buffer spring bottom is contradicted with the slider top, buffer spring top is contradicted with the transport curb plate at lift spout top, movable mounting has the upper rotation shaft between two sliders, install the conveying roller on the upper rotation shaft, last conveying roller bottom after the installation is contradicted with.

After the scheme is adopted, the protruding end of the cam is abutted against the swing arm in an initial state, the push plate is positioned far away from a plate placing area, flat plates are sequentially placed in the plate placing area in a layered mode, at the moment, the top horizontal plane of the push plate is higher than the bottom horizontal plane of the bottommost flat plate and lower than the top horizontal plane of the bottommost flat plate, the rotating motor drives the power shaft to rotate through the transmission shaft, the power shaft is driven to rotate through the shaft, the power wheel drives the rotating wheel to rotate through the chain, the rotating wheel drives the lower conveying roller to rotate through the lower rotating shaft, meanwhile, the power shaft drives the cam to synchronously rotate, when the protruding end of the cam leaves the swing arm, the swing arm rotates towards the direction of the machining head by taking the hinge shaft as the center under the tensile force of the tension spring; the length of the conveying roller is greater than the width of the flat plate, the flat plate is conveyed into the processing equipment through the lower conveying roller bearing before entering the processing equipment, the upper conveying roller is tightly pressed on the surface of the flat plate while the flat plate is conveyed, the flat plate is straightened by the upper conveying roller under the action of the self weight of the upper conveying roller and the buffer spring, so that the flat plate entering the processing equipment is relatively straight, and the straightened flat plate enters a first processing station and is processed through the processing head;

one fork arm groove of a slide block groove in the direction of an air cylinder mounting seat is an a groove, the other fork arm groove of the slide block groove is a b groove, a vertical groove of a side plate groove in the direction of the air cylinder mounting seat is a c groove, the other vertical groove of the side plate groove is a d groove, a transverse groove of the side plate groove is an e groove, one end of a slide shaft in an initial state is positioned at the top of the c groove, the other end of the slide shaft is positioned at a V tip of the slide block groove, a sucker is positioned right above a first processing position (processing head), after a flat plate on the first processing position is processed for the first time, a piston rod of a pushing air cylinder contracts to pull the slide block to move towards the direction of the air cylinder mounting seat, the slide block drives the grooves to move synchronously, the slide shaft drives the c groove to move towards the lower part of the c groove, the slide shaft drives a bearing arm to move downwards, the bearing arm drives the sucker to adsorb with the flat plate after the first processing through a grabbing arm, a piston rod of the, the slide block drives the slide block groove to move synchronously, the slide shaft drives the slide block groove to move above the c groove in the b groove, the slide shaft drives the bearing arm to move upwards, the bearing arm drives the sucker to move upwards through the grabbing arm, the sucker drives the first processed flat plate to move upwards to leave the first processing position, when one end of the slide shaft is positioned at the top of the c groove and the other end of the slide shaft is positioned at the V tip of the slide block groove, the piston rod of the pushing cylinder continues to extend out, the slide shaft moves from the e groove to the d groove top at one end in the direction of the cylinder mounting seat, the first processed flat plate moves to the position above the second position under the driving of the sucker, the piston rod of the pushing cylinder continues to extend out, the slide shaft moves to the lower part of the d groove under the driving of the a groove, the slide shaft drives the bearing arm to move downwards, the bearing arm drives the sucker to move downwards through the grabbing arm, the sucker drives the first processed flat plate to move downwards, and when the first processed flat, the flat plate can be machined for the second time by loosening the flat plate through the sucker; the invention has reasonable structure and good use effect after adopting the scheme.

Drawings

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

Fig. 2 is a schematic view of the slider mounting of the present invention.

Fig. 3 is a schematic view of the push cylinder installation of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: referring to fig. 1 to 3, the flat plate material distribution and station replacement forming system described in this embodiment includes a frame 1, a power box 102 is fixed to an end of one end of the frame 1, a feeding assembly is installed at the top of the power box 102, machining heads with a number greater than 1 are installed on one side of the other end of the frame 1, a side plate 2 is vertically fixed to the other side of the other end of the frame 1 along a conveying direction, an upper guide rail 3 is horizontally fixed to an upper portion of the side plate 2 on one side of the machining head, a lower guide rail 4 is fixed to the side plate 2 below the upper guide rail 3, the installed lower guide rail 4 is parallel to the upper guide rail 3, a transposition assembly is movably installed between the upper guide rail 3 and the lower guide rail 4, and a correction assembly is installed on.

The transposition assembly comprises a sliding block 6 and a sliding shaft 9, wherein both opposite sides of the upper guide rail 3 and the lower guide rail 4 are provided with inwards concave sliding grooves 5, the sliding block 6 is movably installed between the two sliding grooves 5, a through sliding block groove 7 is formed in the sliding block 6, the sliding block groove 7 is in an inverted V shape, a through side plate groove 8 is formed in a side plate 2 between the two sliding grooves 5, the side plate groove 8 is in an n shape, the sliding shaft 9 is movably installed between the sliding block groove 7 and the side plate groove 8, one end of the sliding shaft 9 horizontally extends to form a bearing arm 10, a grabbing arm 11 is vertically fixed at the bottom of the outer end of the bearing arm 10, a sucking disc 12 is installed at the bottom of the grabbing arm 11, a cylinder installation seat 13 is vertically fixed at the top of the rack 1 at one end of the side plate 2, a pushing cylinder 14 is installed at the; the sliding block 6 on two sides of the sliding block groove 7 is provided with a first concave limiting groove, a sliding shaft 9 in the sliding block groove 7 is movably provided with a first pulley, and the mounted first pulley is limited through the first limiting groove; the side plates 2 on two sides of the side plate groove 8 are provided with concave second limiting grooves, the sliding shaft 9 in the side plate groove 8 is movably provided with a second pulley, and the second pulley after installation is limited through the second limiting grooves.

The feeding assembly comprises power boxes 102 vertically fixed on two sides of the top of a rack 1, a board placing frame 103 is installed on the top of each power box 102, a board placing area is formed between the two board placing frames 103, a swing arm 104 is movably hinged to the top of the rack 1 between the two power boxes 102 through a hinge shaft, a push plate 105 is installed on the top of the swing arm 104, a cross beam 106 is movably fixed between the two power boxes 102, a tension spring 107 is connected between the cross beam 106 and the upper portion of the swing arm 104, a power shaft 108 is movably installed between the two power boxes 102 below the cross beam 106, a cam 109 is installed in the middle of the power shaft 108, the wheel surface of the cam 109 after installation is abutted against the swing arm 104, a rotating motor 1010 is installed on the outer side wall of one power box 102, a transmission shaft of the rotating motor 1010 penetrates through the power boxes 102 to be connected with; the push plate 105 is located one end of the plate placing area, the two plate placing frames 103 at the other end of the plate placing area are bent relatively to form a limiting plate, the supporting plate is fixed on one side, opposite to the top, of the two distribution side plates 102, a swing arm 104 reciprocating groove is formed between the two supporting plates, and a plate outlet channel is reserved between the bottom of the limiting plate and the surface of the supporting plate.

The correcting component comprises a lower rotating shaft 27 and guide posts 20, wherein the lower rotating shaft 27 is movably arranged between the lower parts of two conveying side plates 26, a lower conveying roller 16 is arranged on the lower rotating shaft 27, the lower rotating shaft 27 positioned at one end of a power wheel 24 penetrates through the conveying side plates 26 to be connected with a rotating wheel 17, the rotating wheel 17 is connected with the power wheel 24 through a chain 25, two conveying side plates 26 above the lower rotating shaft 27 are respectively provided with a penetrating lifting chute 18, a sliding block 19 is movably arranged in the lifting chute 18, the top of the sliding block 19 is vertically fixed with the guide posts 20, the top of the guide posts 20 upwards penetrates through the conveying side plates 26 to be connected with a limiting plate 21, a buffer spring 22 is sleeved on the guide posts 20 in the lifting chute 18, the bottom of the buffer spring 22 is abutted against the top of the sliding block 19, the top of the buffer spring 22 is abutted against the conveying side plates 26, an upper conveying roller 23 is arranged on the upper rotating shaft 15, and the bottom of the upper conveying roller 23 is abutted against the top of the lower conveying roller 16 after installation.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a dull and stereotyped branch material, station change forming system, it includes frame (1), its characterized in that: frame (1) one end fixing has headstock (102), the material loading subassembly is installed at headstock (102) top, the processing head that quantity is greater than 1 is installed to one of them side of frame (1) the other end, the vertical curb plate (2) that are fixed with of direction of delivery is followed to the opposite side of frame (1) the other end, curb plate (2) upper portion on processing head one side is the level and is fixed with upper guideway (3), be fixed with lower guideway (4) on curb plate (2) of upper guideway (3) below, lower guideway (4) after the installation are parallel to each other with upper guideway (3), movable mounting has transposition subassembly between lower guideway (4), install the correction subassembly on frame (1) between headstock (102) and curb plate (2).

2. The flat plate distributing and station changing forming system according to claim 1, characterized in that: the transposition assembly comprises a sliding block (6) and a sliding shaft (9), wherein one side of the upper guide rail (3) opposite to the lower guide rail (4) is provided with an inward-concave sliding groove (5), the sliding block (6) is movably arranged between the two sliding grooves (5), the sliding block (6) is provided with a through sliding block groove (7), the sliding block groove (7) is inverted V-shaped, a side plate (2) between the two sliding grooves (5) is provided with a through side plate groove (8), the side plate groove (8) is n-shaped, the sliding shaft (9) is movably arranged between the sliding block groove (7) and the side plate groove (8), one end of the sliding shaft (9) horizontally extends to form a bearing arm (10), the bottom of the outer end of the bearing arm (10) is vertically fixed with a grabbing arm (11), the bottom of the grabbing arm (11) is provided with a sucking disc (12), the top of a rack (1) at one end of the side plate (2) is vertically fixed with a cylinder mounting seat (13), and the, a piston rod of the pushing cylinder (14) is movably hinged with the sliding block (6); the sliding block (6) at two sides of the sliding block groove (7) is provided with a first concave limiting groove, a sliding shaft (9) in the sliding block groove (7) is movably provided with a first pulley, and the mounted first pulley is limited by the first limiting groove; the side plates (2) on the two sides of the side plate groove (8) are provided with concave second limiting grooves, a second pulley is movably mounted on a sliding shaft (9) in the side plate groove (8), and the mounted second pulley is limited through the second limiting grooves.

3. The flat plate distributing and station changing forming system according to claim 1, characterized in that: the feeding assembly comprises power boxes (102) vertically fixed on two sides of the top of a rack (1), plate placing racks (103) are installed on the tops of the power boxes (102), a plate placing area is formed between the two plate placing racks (103), a swing arm (104) is movably hinged to the top of the rack (1) between the two power boxes (102) through a hinge shaft, a push plate (105) is installed on the top of the swing arm (104), a cross beam (106) is movably fixed between the two power boxes (102), a tension spring (107) is connected between the cross beam (106) and the upper portion of the swing arm (104), a power shaft (108) is movably installed between the two power boxes (102) below the cross beam (106), a cam (109) is installed in the middle of the power shaft (108), a wheel face of the installed cam (109) is abutted to the swing arm (104), a rotating motor (1010) is installed on the outer side wall of one power box (102), and a transmission shaft of the rotating motor (1010) penetrates through, the other end of the power shaft (108) penetrates through the power box (102) and is connected with a power wheel (1011); the push plate (105) is located one end of the plate placing area, the two plate placing frames (103) at the other end of the plate placing area are bent relatively to form a limiting plate, the supporting plates are fixed on the opposite sides of the tops of the two distribution side plates (102), a swing arm (104) reciprocating groove is formed between the two supporting plates, and a plate outlet channel is reserved between the bottom of the limiting plate and the surface of the supporting plate.

4. The flat plate distributing and station changing forming system according to claim 1, characterized in that: the correcting component comprises a lower rotating shaft (27) and guide pillars (20), wherein the lower rotating shaft (27) is movably arranged between the lower parts of two conveying side plates (26), a lower conveying roller (16) is arranged on the lower rotating shaft (27), the lower rotating shaft (27) positioned at one end of a power wheel (24) penetrates through the conveying side plates (26) to be connected with a rotating wheel (17), the rotating wheel (17) is connected with the power wheel (24) through a chain (25), two conveying side plates (26) above the lower rotating shaft (27) are respectively provided with a through lifting chute (18), a sliding block (19) is movably arranged in the lifting chute (18), the top of the sliding block (19) is vertically fixed with the guide pillars (20), the top of the guide pillars (20) upwards penetrates through the conveying side plates (26) to be connected with a limiting plate (21), buffer springs (22) are sleeved on the guide pillars (20) in the lifting chutes (18), the bottoms of the buffer springs (22) are abutted against the top of, the top of the buffer spring (22) is abutted against a conveying side plate (26) at the top of the lifting sliding groove (18), an upper rotating shaft (15) is movably mounted between the two sliding blocks (19), an upper conveying roller (23) is mounted on the upper rotating shaft (15), and the bottom of the upper conveying roller (23) after mounting is abutted against the top of a lower conveying roller (16).