CN205254340U - Light guide plate processing equipment - Google Patents

Abstract

The utility model discloses a light guide plate processing equipment, including cutting mechanism, clamping machine structure, transfer mechanism, pulling mechanism, transfer mechanism, vertical and cross feed mechanism. Clamping machine constructs the below that is arranged in the cutting mechanism laser head, and transfer mechanism is located the side that clamping machine constructs rear end department, pulling mechanism is located cutting mechanism's rear and connects cutting mechanism and transfer mechanism, vertical conveying mechanism links up at the rear of transfer mechanism, and horizontal conveying mechanism is located the side of transfer mechanism. In clamping machine constructs and the completion will be cut in transfer mechanism's cooperation ya keli board moved the charging tray to the pulling mechanism on, pulling mechanism transferred the charging tray to transfer mechanism, was passed on to vertical conveying mechanism through the yakeli board that is up to the standards, and unqualified yakeli board is passed on to horizontal conveying mechanism. Through the technical solution, the utility model discloses a ya keli board that automatic mode of carrying finishes the measuring has improved work efficiency according to qualifiedly whether carrying out automatic reposition of redundant personnel, has reduced intensity of labour.

Description

A kind of LGP process unit

Technical field:

The utility model relates to LGP processing technique field, in particular to a kind of LGP process unit.

Background technology:

The material of LGP is acrylic board, and in the work flow of LGP, it is primary operation that acrylic board is carried out to sawing sheet. After sawing sheet, the detection that staff carries out outward appearance and size to cut acrylic board is the second operation in LGP work flow. But in prior art, staff moves to other relevant devices by cut acrylic board by the mode of a dead lift and detects from laser cutting device, then move to other equipment and carry out postorder processing detecting complete acrylic board.

Utility model content:

The technical problem that the utility model solves: in prior art, staff moves to other relevant devices by cut acrylic board by the mode of a dead lift and detects from laser cutting device, again the complete acrylic board of detection is moved to other equipment and carry out postorder processing, operating efficiency is low and labour intensity is large.

For solving the problems of the technologies described above, the utility model provides following technical scheme:

A kind of LGP process unit, comprises cutting mechanism, clamping mechanism, transfer mechanism, La Liao mechanism, transfer mechanism, longitudinal translating device associated, transverse conveying mechanism;

Described cutting mechanism comprise a pair of left and right frame plate is set, across the crossbeam of pair of frame plate, be arranged on laser frame on crossbeam, be arranged on the laser head on laser frame; Described pair of frame plate is provided with Y-direction slideway, and described crossbeam is provided with X to slideway, and the both ends of described crossbeam are slidably fitted on the Y-direction slideway of pair of frame plate, and the X that described laser frame is slidably fitted in crossbeam is on slideway; Described laser head is connected with laser generator by reflection unit;

Described clamping mechanism is positioned at the below of laser head; Clamping mechanism comprises longitudinal moving mechanism, is arranged on the fixture on longitudinal moving mechanism;

Described longitudinal moving mechanism comprises fixture installing plate, longitudinal adjustable plate, longitudinal screw, longitudinal inner thread part; Described fixture is fixedly mounted on fixture installing plate, longitudinal chute is offered in the bottom of fixture installing plate, described longitudinal adjustable plate is provided with the longitudinal sliding block coordinating with longitudinal chute, described longitudinal screw is articulated on longitudinal adjustable plate, described longitudinal inner thread part is screwed onto on longitudinal screw, and longitudinal inner thread part is fixedly connected with fixture installing plate;

Described fixture comprises stake body, locking body, fixed base frame;

Described stake body comprises base, support plate, pillar; Described pillar is vertically arranged on base, and described support plate is horizontally set on pillar;

Described locking body comprises the first lifting chassis, the first double-screw bolt, the first latch segment; The first guiding slot port is offered on described the first lifting chassis, and described the first guiding slot port and pillar are slidably matched; Described the first double-screw bolt is vertically arranged on the first lifting chassis, offers the first through hole on described support plate, and the first double-screw bolt is through the first through hole; Described the first latch segment is arranged on the top of the first double-screw bolt;

Described fixed base frame comprises the second lifting chassis, the second double-screw bolt, fixed disk; The second guiding slot port is offered on described the second lifting chassis, and described the second guiding slot port and pillar are slidably matched; Described the second double-screw bolt is vertically arranged on the second lifting chassis, and the second lifting chassis is positioned at the below on the first lifting chassis; The second through hole is offered on described the first lifting chassis, on described support plate, offers third through-hole, and described the second double-screw bolt is upward through the second through hole and third through-hole; Described fixed disk level is arranged on the top of the second double-screw bolt, on described fixed disk, offers fourth hole, and described the first double-screw bolt is through fourth hole, and described the first latch segment is positioned at the top of fixed disk;

Described stake body also comprises gear wheel, the second middle gear, the first pinion, power transmission shaft, worm gear and worm screw; The centre on described the first lifting chassis is offered fifth hole, the centre on described the second lifting chassis is offered the 6th through hole, and described power transmission shaft vertically arranges, and the bottom of power transmission shaft is articulated on base, the top of power transmission shaft is articulated on support plate, and power transmission shaft is through fifth hole and the 6th through hole; Described gear wheel is arranged on power transmission shaft, and gear wheel is between support plate and the first lifting chassis; Described the second middle gear is articulated in the third through-hole of support plate, the second middle gear is between support plate and the first lifting chassis, the centre of the second middle gear is offered screwed hole, and the second double-screw bolt is screwed onto in the screwed hole of the second middle gear, and the second middle gear engages with gear wheel; Described the first pinion is articulated in the first through hole of support plate, the first pinion is between support plate and the first lifting chassis, the centre of the first pinion is offered screwed hole, and the first double-screw bolt is screwed onto in the screwed hole of the first pinion, and the first pinion engages with the second middle gear; Described worm gear is arranged on the bottom of power transmission shaft, and described worm screw is horizontally disposed with, and worm screw is articulated on base, worm gear and worm engaging;

Described transfer mechanism is positioned at the side of clamping mechanism rear end; Described transfer mechanism comprises horizontal linear drive unit, be arranged on column on horizontal linear drive unit, be arranged on straight line lift cylinder on column, be arranged on straight line lift cylinder piston and horizontally disposed rod member, be arranged on rod member and horizontally disposed straight line Rodless cylinder, be arranged on the 5th sucker on the piston of straight line Rodless cylinder; The driving direction of described horizontal linear drive unit is vertical with the driving direction of straight line Rodless cylinder;

Described La Liao mechanism is positioned at the rear of cutting mechanism; Described La Liao mechanism comprises draws material frame platform, is slidably fitted in drawing material module, be arranged on and draw on material frame platform for driving the drive unit that draws material module level to move back and forth, being arranged on a pair of charging tray guide rail on the table top that draws material frame platform on the table top that draws material frame platform; The described material module of drawing is between a pair of charging tray guide rail, draw material module to comprise to be slidably fitted in drawing flitch, be arranged on and draw first on flitch end face to draw material cylinder, be arranged on first and draw first plug-in unit on material cylinder piston rod top on the table top that draws material frame platform, the first plug-in unit is cylindric;

On described a pair of charging tray guide rail, be placed with charging tray, charging tray is provided with and is cylindraceous by draw piece away from a side of cutting mechanism, and the external diameter of described the first plug-in unit is less than by the internal diameter of draw piece;

Described transfer mechanism comprises a pair of transfer guide-rail plate, transfer roller frame, two groups of transfer rollers, roller frame lift cylinder; Described transfer roller frame comprises a pair of cant board, connects the horizonal base plate of a pair of cant board, one group of transfer roller is arranged on the top of one of a pair of cant board cant board, another group transfer roller is arranged on the top of the opposite side riser of a pair of cant board, described roller frame lift cylinder is arranged on the below of horizonal base plate, and the piston rod of roller frame lift cylinder is fixedly connected with the bottom of horizonal base plate; Described transfer roller machine chord position is between a pair of transfer guide-rail plate, and the top of transfer guide-rail plate is provided with the transfer guide rail being connected with the charging tray guide rail in La Liao mechanism, described in draw material frame platform rear end part in transfer roller frame between a pair of cant board;

Described longitudinal translating device associated is positioned at the rear of transfer mechanism, and longitudinal translating device associated comprises the longitudinal conveying being connected with the upper transduction rail of transfer guide-rail plate;

Described transverse conveying mechanism is positioned at left side or the right side of transfer mechanism, and transverse conveying mechanism is provided with the lateral transfer guide rail vertical with the upper transduction rail of transfer guide-rail plate.

By technique scheme, the operation principle of LGP process unit described in the utility model is as follows:

First, staff is positioned at acrylic board to be cut on the fixture of clamping mechanism, particularly: servomotor or the rotation of manual drive worm screw, the rotation of worm drive worm gear, worm gear drives power transmission shaft rotation, and power transmission shaft drives gear wheel rotation, and gear wheel drives the second middle gear rotation, the second double-screw bolt that the rotary actuation of the second middle gear and its screwed hole are spirally connected rises, and the rising of the second double-screw bolt drives the rising of fixed disk; When gear wheel drives the second middle gear rotation, the second middle gear drives the first pinion rotation, under the first double-screw bolt that the rotary actuation of the first pinion and its screwed hole are spirally connected, rises, and the decline of the first double-screw bolt drives the decline of latch segment; So, being placed on be fixed dish and latch segment of acrylic board on fixed disk clamps up and down.

The second, by crossbeam, the displacement on the Y-direction slideway on pair of frame plate realizes Y-direction displacement to laser head, and by laser frame, the X on crossbeam realizes X to displacement to the displacement on slideway to laser head; At X, under the cooperation of displacement and Y-direction displacement, laser head carries out laser cutting to the acrylic board on fixed disk.

The 3rd, after having cut, the longitudinal moving mechanism action in clamping mechanism, the cooperation of longitudinal screw and longitudinal inner thread part drives fixture installing plate to vertically move, fixture installing plate drives fixture to vertically move, and so, the acrylic board having cut on fixture rearward moves.

The 4th, horizontal linear drive unit in transfer mechanism drives column horizontal linear to move to the side of acrylic board, straight line Rodless cylinder drive the 5th sucker transverse horizontal move to acrylic board on fixed disk directly over; Afterwards, straight line lift cylinder drives rod member to decline, and rod member drives the 5th sucker to decline, the 5th sucker absorption acrylic board; Afterwards, horizontal linear drive unit drives the horizontally vertically move side of the charging tray to a pair of charging tray guide rail in La Liao mechanism of column, and under the driving of straight line Rodless cylinder and straight line lift cylinder, the 5th sucker is thrown in the acrylic board on it to charging tray.

The 5th, drive unit in La Liao mechanism drives the side that draws flitch to move to charging tray, draws first on flitch to draw material cylinder to stretch, the first plug-in unit insert on charging tray by draw piece; Afterwards, under the driving of drive unit, draw material module that charging tray is pulled to the rear end of expecting frame platform from the front end that draws material frame platform; In the above-mentioned material module of drawing, charging tray is pulled in the process of the rear end of expecting frame platform from the front end that draws material frame platform, charging tray is entered the transfer guide rail of transfer mechanism by charging tray guide rail.

The 6th, in the above-mentioned material module of drawing, charging tray is pulled in the process of the rear end of expecting frame platform from the front end that draws material frame platform, staff can carry out outward appearance and size detection to the acrylic board in charging tray; Also can be in the time that charging tray enter and rest on transfer guide rail, staff carries out outward appearance and size detection to the acrylic board in charging tray.

The 7th, after testing, cut acrylic board is qualified, staff continues driving and draws material module that charging tray is rearward moved to certain distance along transfer guide rail, longitudinal conveying of longitudinal translating device associated is contacted with charging tray, and then longitudinal translating device associated continues to be rearward delivered to next predetermined station by charging tray.

The 8th, after testing, cut acrylic board is defective, staff's driving rolls frame lift cylinder, roller frame lift cylinder lifting transfer roller frame, two groups of transfer rollers in transfer roller frame contact with charging tray bottom and charging tray are therefrom transduceed on rail and lifted, and two groups of transfer rollers are lateral transfer guide rail to transverse conveying mechanism by the charging tray lateral transfer on it, by transverse conveying mechanism, underproof acrylic board is delivered to predetermined station.

Pass through technique scheme, the utility model adopts the mode of automatic transport that acrylic board cut on cutting mechanism is moved on La Liao mechanism or transfer mechanism and detected, to detect complete acrylic board by the whether qualified automatic shunt that carries out again, not only improve operating efficiency, and, reduce labour intensity.

One explanation as the utility model to cutting mechanism, described pair of frame plate comprises left frame plate and right frame plate, and described left frame plate is provided with the first Y-direction slideway, and right frame plate is provided with the second Y-direction slideway; On described the first Y-direction slideway, offer cross section and be the first trapezoidal Y-direction chute, on described the second Y-direction slideway, offer cross section and be the second trapezoidal Y-direction chute; The left part of described crossbeam is provided with cross section and is the first trapezoidal slide block, and the right part of crossbeam is provided with cross section and is the second trapezoidal slide block; Described the first slide block coordinates with the first Y-direction chute, and the second slide block coordinates with the second Y-direction chute; The left part of described crossbeam is provided with the first Y-direction drive unit, described the first Y-direction drive unit comprise be arranged on crossbeam left part the first side plate, be articulated in the first driven wheel on the first side plate, be arranged on the first drive motors connecting on the first side plate and with the first driven wheel; On the sidewall of described left frame plate, offer the first groove, the roof of the first groove is provided with the first tooth bar, and described the first driven wheel is positioned at the first groove, and the first driven wheel engages with the first tooth bar; The right part of described crossbeam is provided with the second Y-direction drive unit, described the second Y-direction drive unit comprise be arranged on crossbeam right part the second side plate, be articulated in the second driven wheel on the second side plate, be arranged on the second drive motors connecting on the second side plate and with the second driven wheel; On the sidewall of described right frame plate, offer the second groove, the roof of the second groove is provided with the second tooth bar, and described the second driven wheel is positioned at the second groove, and the second driven wheel engages with the second tooth bar.

As described above, the first drive motors drives the first driven wheel rotation, because the first driven wheel engages with the first tooth bar, and the first tooth bar is arranged in the first groove of left frame plate, therefore, move along the first Y-direction slideway on left frame plate the left part of the first driving gear drives crossbeam of rotation, and particularly, the first slide block on crossbeam moves in the first Y-direction chute of the first Y-direction slideway; In like manner, by the second drive motors driving, move along the second Y-direction slideway on right frame plate the right part of the second driving gear drives crossbeam of rotation, and particularly, the second slide block on crossbeam moves in the second Y-direction chute of the second Y-direction slideway. So, action can synchronously drive crossbeam to move as Y-direction on left frame plate and right frame plate when the first drive motors and the second drive motors.

One explanation as the utility model to cutting mechanism, described X is trapezoidal X to chute to offering cross section on slideway, and described laser frame is provided with cross section and is the 3rd trapezoidal slide block; Described the 3rd slide block coordinates to chute with X; Described laser frame is provided with X to drive unit, and described X comprises the 3rd side plate that is arranged on laser frame, is articulated in the 3rd driven wheel on the 3rd side plate, is arranged on the 3rd drive motors connecting on the 3rd side plate and with the 3rd driven wheel to drive unit; On the sidewall of described crossbeam, offer the 3rd groove, the roof of the 3rd groove is provided with the 3rd tooth bar, and described the 3rd driven wheel is positioned at the 3rd groove, and the 3rd driven wheel engages with the 3rd tooth bar.

As described above, the 3rd drive motors drives the 3rd driven wheel rotation, because the 3rd driven wheel engages with the 3rd tooth bar, and the 3rd tooth bar is arranged in the 3rd groove of crossbeam, therefore, the 3rd driving gear drives laser frame of rotation moves to slideway along the X on crossbeam, and particularly, the 3rd slide block on laser frame moves to the X of slideway at X in chute.

One explanation as the utility model to transfer mechanism, described horizontal linear drive unit comprises horizontally disposed rectangular base, the first threaded rod, the 4th drive motors; Described rectangular base is offered the straight line chute of strip, the bottom of described column is engaged in straight line chute, screwed hole is offered in the bottom of column, described screwed hole coordinates with the first threaded rod, the first threaded rod is positioned at straight line chute, the both ends of the first threaded rod are articulated on rectangular base, and one end of the first threaded rod connects with the 4th drive motors. As described above, the 4th drive motors drives the first threaded rod rotation, and the first threaded rod drives column to move forward and backward in the straight line chute of rectangular base, column moves forward, the side that is positioned at clamping mechanism rear end, column moves backward, is positioned at the side that draws material frame platform loading plate.

One explanation as the utility model to clamping mechanism, on described the second lifting chassis, be vertically provided with the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt, described the second double-screw bolt, the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt are uniformly distributed along the second the circumferential of lifting chassis; Described the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt are upward through the first lifting chassis and support plate; Described fixed disk is arranged on the top of the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt; On described support plate, be articulated with the 4th middle gear, the 6th middle gear, the 8th middle gear, the 4th middle gear, the 6th middle gear, the 8th middle gear are between support plate and the first lifting chassis, the centre of the 4th middle gear, the 6th middle gear, the 8th middle gear is all offered screwed hole, the 4th double-screw bolt is screwed onto in the screwed hole of the 4th middle gear, the 4th middle gear engages with gear wheel, the 6th double-screw bolt is screwed onto in the screwed hole of the 6th middle gear, and the 6th middle gear engages with gear wheel; The 8th double-screw bolt is screwed onto in the screwed hole of the 8th middle gear, and the 8th middle gear engages with gear wheel. As described above, the rotation of gear wheel drives the second middle gear, the 4th middle gear, the 6th middle gear, the 8th middle gear rotation simultaneously, the rotation of the second middle gear, the 4th middle gear, the 6th middle gear, the 8th middle gear drives respectively the second double-screw bolt, the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt synchronously to rise, and synchronous the second double-screw bolt rising, the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt drive fixed disk steadily to rise.

Based on above-mentioned explanation, the further illustrating clamping mechanism as the utility model, on described the first lifting chassis, be vertically provided with the 3rd double-screw bolt, described the 3rd double-screw bolt is upward through support plate, and the 3rd double-screw bolt and the first double-screw bolt are symmetrical about the center line on the first lifting chassis; On described support plate, be articulated with third pinion, third pinion is between support plate and the first lifting chassis, and the centre of third pinion is offered screwed hole, and the 3rd double-screw bolt is screwed onto in the screwed hole of third pinion, and third pinion engages with the 6th middle gear; The top of described the 3rd double-screw bolt is provided with the 3rd latch segment. By above-mentioned improvement, when gear wheel drives the second middle gear, the 4th middle gear, the 6th middle gear, the 8th middle gear to rotate simultaneously, the second middle gear wherein and the 6th middle gear drive respectively the first pinion and third pinion rotation, the rotation of the first pinion and third pinion drives respectively the first double-screw bolt and the 3rd double-screw bolt synchronously to decline, and synchronous the first double-screw bolt and the 3rd double-screw bolt declining drives respectively the first latch segment and the 3rd latch segment synchronously to decline.

One explanation as the utility model to clamping mechanism, described the second middle gear comprises the second gear part, the second articulated section with the coaxial setting of the second gear part; The centre of described the second gear part and the second articulated section is provided with the screwed hole that connects the second gear part and the second articulated section; Described the second articulated section is articulated in the third through-hole of support plate.

One explanation as the utility model to clamping mechanism, described the first pinion comprises the first gear part, the first articulated section with the coaxial setting of the first gear part; The centre of described the first gear part and the first articulated section is provided with the screwed hole that connects the first gear part and the first articulated section; Described the first articulated section is articulated in the first through hole of support plate.

One explanation as the utility model to La Liao mechanism, described in draw the table top of material frame platform to be provided with a pair of material guide rail that draws, described in draw the bottom surface of flitch be provided with draw that material guide rail coordinates draw material slide block. Describedly draw flitch end face to be provided with second to draw material cylinder, second draws the piston rod top of material cylinder that the second plug-in unit is installed, and the second plug-in unit is cylindric, and the external diameter of the second plug-in unit is less than by the internal diameter of draw piece; Described the first plug-in unit and the second plug-in unit arrange in opposite directions. As described above, when La Liao mechanism wants to draw charging tray, the first plug-in unit and the second plug-in unit are positioned at charging tray by the both sides of draw piece, draw under the driving of material cylinder first, the first plug-in unit is from being inserted by draw piece by the left end of draw piece, draw under the driving of material cylinder second, the second plug-in unit is from being inserted by draw piece by the right-hand member of draw piece.

One explanation as the utility model to La Liao mechanism, described drive unit comprises the second motor, be articulated in the 3rd Timing Belt wheel shaft on the table top that draws material frame platform, be arranged on the 3rd synchronous pulley on the 3rd Timing Belt wheel shaft, be articulated in the 4th Timing Belt wheel shaft on the table top that draws material frame platform, be arranged on the 4th synchronous pulley on the 4th Timing Belt wheel shaft, connect the second Timing Belt of the 3rd synchronous pulley and the 4th synchronous pulley; Described the second motor connects with the 3rd Timing Belt wheel shaft or the 4th Timing Belt wheel shaft, and described the 3rd Timing Belt wheel shaft and the 4th Timing Belt wheel shaft are vertically arranged on the table top that draws material frame platform; Described top of drawing flitch to be positioned at the second Timing Belt, draws the bottom of flitch to be fixedly connected with the second Timing Belt; Before and after described the 3rd synchronous pulley and the 4th synchronous pulley, be arranged on and draw on material frame platform. The level of La Liao mechanism draws material to adopt synchronous pulley mechanism to complete, simple in structure, reduces costs.

One explanation as the utility model to transfer mechanism, one group of transfer roller is arranged on the first power transmission shaft according to the order of sequence, the first power transmission shaft is articulated in the top of one of a pair of cant board cant board, another group transfer roller is arranged on second driving shaft according to the order of sequence, and second driving shaft is articulated in the top of the opposite side riser of a pair of cant board; The rear end of the first power transmission shaft is provided with the 5th synchronous pulley, and the 6th coaxial synchronous pulley and the 7th synchronous pulley are installed on the rear end face of described horizonal base plate, the 6th synchronous pulley and the 7th synchronous pulley be positioned at the 5th synchronous pulley under; The rear end of second driving shaft is provided with the 8th synchronous pulley, the bottom of described horizonal base plate is provided with the 5th drive motors, the 9th coaxial synchronous pulley and the tenth synchronous pulley are installed on the output shaft of the 5th drive motors, the 9th synchronous pulley and the tenth synchronous pulley be positioned at the 8th synchronous pulley under; Described the 9th synchronous pulley is connected with the 8th synchronous pulley by the 9th Timing Belt, and described the tenth synchronous pulley is connected with the 7th synchronous pulley by the tenth Timing Belt, and described the 6th synchronous pulley is connected with the 5th synchronous pulley by the 6th Timing Belt.

As described above, the 5th drive motors drives the 8th synchronous pulley rotation by the 9th synchronous pulley, and the 8th synchronous pulley drives one group of transfer roller rotation by second driving shaft; The 5th drive motors drives the 7th synchronous pulley rotation by the tenth synchronous pulley, the 7th synchronous pulley and the 6th synchronous pulley coaxial rotating, and the 6th synchronous pulley drives another group transfer roller rotation by the first power transmission shaft.

One explanation as the utility model to longitudinal translating device associated, described longitudinal translating device associated comprises a pair of longitudinal conveying plate, described longitudinal conveying is arranged on the top of a pair of longitudinal conveying plate; In a pair of longitudinal conveying plate, on arbitrary longitudinal conveying plate, be articulated with the longitudinal feeding axle of a row, one end of arbitrary longitudinal feeding axle is provided with longitudinal delivery wheel, the other end of arbitrary longitudinal feeding axle is provided with longitudinal sprocket wheel, longitudinally delivery wheel is positioned at the inner side of longitudinal conveying plate, and longitudinally sprocket wheel is positioned at the outside of longitudinal conveying plate; Longitudinal drive sprocket is installed on the lateral wall of described longitudinal conveying plate, and longitudinally drive sprocket connects with motor; Described longitudinal drive sprocket is connected with the longitudinal sprocket wheel of a row by chain.

As described above, motor drives longitudinal drive sprocket rotation, and longitudinally drive sprocket is arranged longitudinal sprocket wheel rotation by chain drive one, and then drives the longitudinal delivery wheel rotation of a row.

One explanation as the utility model to transverse conveying mechanism, described transverse conveying mechanism comprises a pair of lateral transfer guide-rail plate, described lateral transfer guide rail is arranged on the top of a pair of lateral transfer guide-rail plate; In a pair of lateral transfer guide-rail plate, on arbitrary lateral transfer guide-rail plate, be articulated with row's lateral transfer wheel shaft, one end of arbitrary lateral transfer wheel shaft is provided with lateral transfer wheel, the other end of arbitrary lateral transfer wheel shaft is provided with horizontal sprocket wheel, lateral transfer wheel is positioned at the inner side of lateral transfer guide-rail plate, and laterally sprocket wheel is positioned at the outside of lateral transfer guide-rail plate; Horizontal drive sprocket is installed on the lateral wall of described lateral transfer guide-rail plate, and laterally drive sprocket connects with motor; Described horizontal drive sprocket is connected with the horizontal sprocket wheel of a row by chain.

As described above, motor drives horizontal drive sprocket rotation, and laterally drive sprocket is arranged horizontal sprocket wheel rotation by chain drive one, and then drives row's lateral transfer wheel rotation.

Brief description of the drawings:

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is the structural representation of a kind of LGP cutting machine of the utility model;

Fig. 2 is the structural representation of cutting mechanism 10 in Fig. 1;

Fig. 3 is the structural representation from another view cutting mechanism 10 gained in Fig. 2;

Fig. 4 is the structural representation of transfer mechanism 30 in Fig. 1;

Fig. 5 is the structural representation of Tu1Zhong Laliao mechanism 20;

Fig. 6 is the structural representation from another view La Liao mechanism 20 gained in Fig. 5;

Fig. 7 is the structural representation of transfer mechanism 50 described in Fig. 1;

Fig. 8 is the structural representation from another view transfer mechanism 50 gained in Fig. 7;

Fig. 9 is the structural representation of longitudinal translating device associated 60 in Fig. 1;

Figure 10 is the structural representation of transverse conveying mechanism 70 in Fig. 1;

Figure 11 is the structural representation of clamping mechanism b in Fig. 1;

Figure 12 is the structural representation of fixture b1 in Figure 11;

Figure 13 is the planar structure schematic diagram of observing fixture b1 gained in Figure 12 from left side;

Figure 14 be in Figure 12 fixture b1 at B-B place by the perspective view of gained after cuing open;

Figure 15 is that in Figure 14, the second middle gear b152 is articulated in the structural representation on support plate b12.

Symbol description in figure:

10, cutting mechanism; 12, frame plate; 121, the first Y-direction slideway; 122, the first Y-direction chute; 123, the first groove; 124, the first tooth bar; 13, crossbeam; 131, the first slide block; 132, X is to chute; 133, the 3rd groove; 134, the 3rd tooth bar; 14, laser frame; 141, the 3rd slide block; 15, laser head; 16, the first Y-direction drive unit; 161, the first side plate; 162, the first driven wheel; 163, the first drive motors; 17, X is to drive unit; 171, the 3rd side plate; 172, the 3rd driven wheel; 173, the 3rd drive motors;

20, La Liao mechanism; 21, draw material frame platform; 212, draw material guide rail; 22, draw material module; 221, draw flitch; 223, first draw material cylinder; 225, the first plug-in unit; 226, second draw material cylinder; 23, drive unit; 231, the 3rd synchronous pulley; 232, the second Timing Belt; 24, charging tray guide rail;

30, transfer mechanism; 31, column; 32, straight line lift cylinder; 33, straight line Rodless cylinder; 34, rod member; 35, the 5th sucker; 36, rectangular base; 37, the first threaded rod;

40, charging tray; 41, by draw piece;

50, transfer mechanism; 51, transfer guide-rail plate; 510, transfer guide rail; 52, transfer roller frame; 521, cant board; 522, horizonal base plate; 53, transfer roller; 531, the first power transmission shaft; 532, second driving shaft; 54, roller frame lift cylinder; 555, the 5th synchronous pulley; 556, the 6th synchronous pulley; 557, the 7th synchronous pulley; 558, the 8th synchronous pulley; 559, the 9th synchronous pulley; 550, the tenth synchronous pulley; 56, the 5th drive motors;

60, longitudinal translating device associated; 61, longitudinal conveying plate; 610, longitudinal conveying; 62, longitudinal delivery wheel; 63, longitudinal sprocket wheel; 64, longitudinal drive sprocket;

70, transverse conveying mechanism; 71, lateral transfer guide-rail plate; 710, lateral transfer guide rail; 72, lateral transfer wheel; 73, horizontal sprocket wheel; 74, horizontal drive sprocket;

B, clamping mechanism;

B1, fixture;

B10, stake body; B11, base; B12, support plate; B13, pillar; B14, gear wheel; B152, the second middle gear; B1521, the second gear part; B1522, the second articulated section; B1523, screwed hole; B154, the 4th middle gear; B156, the 6th middle gear; B158, the 8th middle gear; B161, the first pinion; B163, third pinion; B17, power transmission shaft; B181, worm gear; B182, worm screw; B20, locking body; B21, the first lifting chassis; B220, threaded rod; B221, the first double-screw bolt; B223, the 3rd double-screw bolt; B231, the first latch segment; B233, the 3rd latch segment; B24, upper locking nut; B25, upper locking nut; B201, the first guiding slot port; B30, fixed base frame; B31, the second lifting chassis; B32, the second double-screw bolt; B33, fixed disk; B34, the 4th double-screw bolt; B36, the 6th double-screw bolt; B38, the 8th double-screw bolt; B301, the second guiding slot port;

B5, longitudinal moving mechanism; B51, fixture installing plate; B52, longitudinal adjustable plate; B520, longitudinal sliding block; B53, longitudinal screw; B54, longitudinal inner thread part.

Detailed description of the invention:

As Fig. 1, a kind of LGP process unit, comprises cutting mechanism 10, clamping mechanism b, transfer mechanism 30, La Liao mechanism 20, transfer mechanism 50, longitudinal translating device associated 60, transverse conveying mechanism 70.

In conjunction with Fig. 2, Fig. 3, described cutting mechanism 10 comprise a pair of left and right frame plate 12 is set, across the crossbeam 13 of pair of frame plate, be arranged on laser frame 14 on crossbeam, be arranged on the laser head 15 on laser frame; Described pair of frame plate is provided with Y-direction slideway, and described crossbeam is provided with X to slideway, and the both ends of described crossbeam are slidably fitted on the Y-direction slideway of pair of frame plate, and the X that described laser frame is slidably fitted in crossbeam is on slideway; Described laser head is connected with laser generator by reflection unit.

In cutting mechanism 10, described pair of frame plate 12 comprises left frame plate and right frame plate, and described left frame plate is provided with the first Y-direction slideway 121, and right frame plate is provided with the second Y-direction slideway; On described the first Y-direction slideway, offer cross section and be the first trapezoidal Y-direction chute 122, on described the second Y-direction slideway, offer cross section and be the second trapezoidal Y-direction chute; The left part of described crossbeam 13 is provided with cross section and is the first trapezoidal slide block 131, and the right part of crossbeam is provided with cross section and is the second trapezoidal slide block; Described the first slide block coordinates with the first Y-direction chute, and the second slide block coordinates with the second Y-direction chute. The left part of described crossbeam is provided with the first Y-direction drive unit 16, described the first Y-direction drive unit comprise be arranged on crossbeam left part the first side plate 161, be articulated in the first driven wheel 162 on the first side plate, be arranged on the first drive motors 163 connecting on the first side plate and with the first driven wheel; The roof of offering the first groove 123, the first grooves on the sidewall of described left frame plate is provided with the first tooth bar 124, and described the first driven wheel is positioned at the first groove, and the first driven wheel engages with the first tooth bar. The right part of described crossbeam is provided with the second Y-direction drive unit, described the second Y-direction drive unit comprise be arranged on crossbeam right part the second side plate, be articulated in the second driven wheel on the second side plate, be arranged on the second drive motors connecting on the second side plate and with the second driven wheel; On the sidewall of described right frame plate, offer the second groove, the roof of the second groove is provided with the second tooth bar, and described the second driven wheel is positioned at the second groove, and the second driven wheel engages with the second tooth bar.

In cutting mechanism 10, described X is trapezoidal X to chute 132 to offering cross section on slideway, and described laser frame 14 is provided with cross section and is the 3rd trapezoidal slide block 141; Described the 3rd slide block coordinates to chute with X. Described laser frame is provided with X to drive unit 17, and described X comprises the 3rd side plate 171 that is arranged on laser frame, is articulated in the 3rd driven wheel 172 on the 3rd side plate, is arranged on the 3rd drive motors 173 connecting on the 3rd side plate and with the 3rd driven wheel to drive unit; The roof of offering the 3rd groove 133, the three grooves on the sidewall of described crossbeam 13 is provided with the 3rd tooth bar 134, and described the 3rd driven wheel is positioned at the 3rd groove, and the 3rd driven wheel engages with the 3rd tooth bar.

In conjunction with Fig. 1, Fig. 2, described clamping mechanism b is positioned at the below of laser head; As Figure 11, clamping mechanism comprises longitudinal moving mechanism b5, is arranged on the fixture b1 on longitudinal moving mechanism.

In clamping mechanism, described longitudinal moving mechanism comprises fixture installing plate b51, longitudinal adjustable plate b52, longitudinal screw b53, longitudinal inner thread part b54; Described fixture is fixedly mounted on fixture installing plate, longitudinal chute is offered in the bottom of fixture installing plate, described longitudinal adjustable plate is provided with the longitudinal sliding block b520 coordinating with longitudinal chute, described longitudinal screw is articulated on longitudinal adjustable plate, described longitudinal inner thread part is screwed onto on longitudinal screw, and longitudinal inner thread part is fixedly connected with fixture installing plate.

In clamping mechanism, in conjunction with Figure 12 to Figure 15, described fixture comprises stake body b10, locking body b20, fixed base frame b30; Described stake body comprises base b11, support plate b12, pillar b13; Described pillar is vertically arranged on base, and described support plate is horizontally set on pillar; Described locking body comprises the first lifting chassis b21, the first double-screw bolt b221, the first latch segment b231; The first guiding slot port b201 is offered on described the first lifting chassis, and described the first guiding slot port and pillar are slidably matched; Described the first double-screw bolt is vertically arranged on the first lifting chassis, offers the first through hole on described support plate, and the first double-screw bolt is through the first through hole; Described the first latch segment is arranged on the top of the first double-screw bolt; Described fixed base frame comprises the second lifting chassis b31, the second double-screw bolt b32, fixed disk b33; The second guiding slot port b301 is offered on described the second lifting chassis, and described the second guiding slot port and pillar are slidably matched; Described the second double-screw bolt is vertically arranged on the second lifting chassis, and the second lifting chassis is positioned at the below on the first lifting chassis; The second through hole is offered on described the first lifting chassis, on described support plate, offers third through-hole, and described the second double-screw bolt is upward through the second through hole and third through-hole; Described fixed disk level is arranged on the top of the second double-screw bolt, on described fixed disk, offers fourth hole, and described the first double-screw bolt is through fourth hole, and described the first latch segment is positioned at the top of fixed disk.

In clamping mechanism, in conjunction with Figure 12 to Figure 15, described stake body also comprises gear wheel b14, the second middle gear b152, the first pinion b161, power transmission shaft b17, worm gear b181 and worm screw b182; The centre on described the first lifting chassis is offered fifth hole, the centre on described the second lifting chassis is offered the 6th through hole, and described power transmission shaft vertically arranges, and the bottom of power transmission shaft is articulated on base, the top of power transmission shaft is articulated on support plate, and power transmission shaft is through fifth hole and the 6th through hole; Described gear wheel is arranged on power transmission shaft, and gear wheel is between support plate and the first lifting chassis; Described the second middle gear is articulated in the third through-hole of support plate, the second middle gear is between support plate and the first lifting chassis, the centre of the second middle gear is offered screwed hole, and the second double-screw bolt is screwed onto in the screwed hole of the second middle gear, and the second middle gear engages with gear wheel; Described the first pinion is articulated in the first through hole of support plate, the first pinion is between support plate and the first lifting chassis, the centre of the first pinion is offered screwed hole, and the first double-screw bolt is screwed onto in the screwed hole of the first pinion, and the first pinion engages with the second middle gear; Described worm gear is arranged on the bottom of power transmission shaft, and described worm screw is horizontally disposed with, and worm screw is articulated on base, worm gear and worm engaging;

In clamping mechanism, in conjunction with Figure 12 to Figure 15, on described the second lifting chassis b31, be vertically provided with the 4th double-screw bolt b34, the 6th double-screw bolt b36, the 8th double-screw bolt b38, described the second double-screw bolt b32, the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt are uniformly distributed along the second the circumferential of lifting chassis; Described the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt are upward through the first lifting chassis b21 and support plate b12; Described fixed disk b33 is arranged on the top of the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt; On described support plate, be articulated with the 4th middle gear b154, the 6th middle gear b156, the 8th middle gear b158, the 4th middle gear, the 6th middle gear, the 8th middle gear are between support plate and the first lifting chassis, the centre of the 4th middle gear, the 6th middle gear, the 8th middle gear is all offered screwed hole, the 4th double-screw bolt is screwed onto in the screwed hole of the 4th middle gear, the 4th middle gear engages with gear wheel b14, the 6th double-screw bolt is screwed onto in the screwed hole of the 6th middle gear, and the 6th middle gear engages with gear wheel; The 8th double-screw bolt is screwed onto in the screwed hole of the 8th middle gear, and the 8th middle gear engages with gear wheel; On described the first lifting chassis b21, be vertically provided with the 3rd double-screw bolt b223, described the 3rd double-screw bolt is upward through support plate b12, and the 3rd double-screw bolt and the first double-screw bolt b221 are symmetrical about the center line on the first lifting chassis; On described support plate, be articulated with third pinion b163, third pinion is between support plate and the first lifting chassis, the centre of third pinion is offered screwed hole, and the 3rd double-screw bolt is screwed onto in the screwed hole of third pinion, and third pinion engages with the 6th middle gear b156; The top of described the 3rd double-screw bolt is provided with the 3rd latch segment b233.

In clamping mechanism, in conjunction with Figure 12 to Figure 15, described the second middle gear b152 comprises the second gear part b1521, the second articulated section b1522 with the coaxial setting of the second gear part; The centre of described the second gear part and the second articulated section is provided with the screwed hole b1523 that connects the second gear part and the second articulated section; Described the second articulated section is articulated in the third through-hole of support plate b12.

In clamping mechanism, in conjunction with Figure 13 to Figure 15, described the first pinion b161 comprises the first gear part, the first articulated section with the coaxial setting of the first gear part; The centre of described the first gear part and the first articulated section is provided with the screwed hole that connects the first gear part and the first articulated section; Described the first articulated section is articulated in the first through hole of support plate b12.

As Fig. 4, described transfer mechanism 30 is positioned at the side of clamping mechanism b rear end; Described transfer mechanism comprises horizontal linear drive unit, be arranged on column 31 on horizontal linear drive unit, be arranged on straight line lift cylinder 32 on column, be arranged on straight line lift cylinder piston and horizontally disposed rod member 34, be arranged on rod member and horizontally disposed straight line Rodless cylinder 33, be arranged on the 5th sucker 35 on the piston of straight line Rodless cylinder; The driving direction of described horizontal linear drive unit is vertical with the driving direction of straight line Rodless cylinder.

In transfer mechanism 30, described horizontal linear drive unit comprises horizontally disposed rectangular base 36, the first threaded rod 37, the 4th drive motors; Described rectangular base is offered the straight line chute of strip, the bottom of described column 31 is engaged in straight line chute, screwed hole is offered in the bottom of column, described screwed hole coordinates with the first threaded rod, the first threaded rod is positioned at straight line chute, the both ends of the first threaded rod are articulated on rectangular base, and one end of the first threaded rod connects with the 4th drive motors.

In conjunction with Fig. 5, Fig. 6, described La Liao mechanism 20 is positioned at the rear of cutting mechanism; Described La Liao mechanism comprises draws material frame platform 21, is slidably fitted in drawing material module 22, be arranged on and draw on material frame platform for driving the drive unit 23 that draws material module level to move back and forth, being arranged on a pair of charging tray guide rail 24 on the table top that draws material frame platform on the table top that draws material frame platform; The described material module of drawing is between a pair of charging tray guide rail, draw material module to comprise to be slidably fitted in drawing flitch 221, be arranged on and draw first on flitch end face to draw material cylinder 223, be arranged on first and draw first plug-in unit 225, the first plug-in units on material cylinder piston rod top to be cylindric on the table top that draws material frame platform. On described a pair of charging tray guide rail, be placed with charging tray 40, charging tray is provided with and is cylindraceous by draw piece 41 away from a side of cutting mechanism, and the external diameter of described the first plug-in unit is less than by the internal diameter of draw piece.

In La Liao mechanism 20, described in draw the table top of material frame platform 21 to be provided with a pair of material guide rail 212 that draws, described in draw the bottom surface of flitch 221 be provided with draw that material guide rail coordinates draw material slide block. Described draw flitch 221 end faces be provided with second draw material cylinder 226, the second draw material cylinder piston rod top the second plug-in unit is installed, the second plug-in unit is cylindric, the external diameter of the second plug-in unit is less than by the internal diameter of draw piece 31; Described the first plug-in unit 225 and the second plug-in unit arrange in opposite directions.

In La Liao mechanism 20, described drive unit 23 comprises the second motor, be articulated in the 3rd Timing Belt wheel shaft on the table top that draws material frame platform 21, be arranged on the 3rd synchronous pulley 231 on the 3rd Timing Belt wheel shaft, be articulated in the 4th Timing Belt wheel shaft on the table top that draws material frame platform, be arranged on the 4th synchronous pulley on the 4th Timing Belt wheel shaft, connect the second Timing Belt 232 of the 3rd synchronous pulley and the 4th synchronous pulley; Described the second motor connects with the 3rd Timing Belt wheel shaft or the 4th Timing Belt wheel shaft, and described the 3rd Timing Belt wheel shaft and the 4th Timing Belt wheel shaft are vertically arranged on the table top that draws material frame platform; Described top of drawing flitch 221 to be positioned at the second Timing Belt, draws the bottom of flitch to be fixedly connected with the second Timing Belt; Before and after described the 3rd synchronous pulley and the 4th synchronous pulley, be arranged on and draw on material frame platform.

In conjunction with Fig. 7, Fig. 8, described transfer mechanism 50 comprises a pair of transfer guide-rail plate 51, transfer roller frame 52, two groups of transfer rollers 53, roller frame lift cylinder 54; Described transfer roller frame comprises a pair of cant board 521, connects the horizonal base plate 522 of a pair of cant board, one group of transfer roller is arranged on the top of one of a pair of cant board cant board, another group transfer roller is arranged on the top of the opposite side riser of a pair of cant board, described roller frame lift cylinder is arranged on the below of horizonal base plate, and the piston rod of roller frame lift cylinder is fixedly connected with the bottom of horizonal base plate; Described transfer roller machine chord position is between a pair of transfer guide-rail plate, and the top of transfer guide-rail plate is provided with the transfer guide rail 510 being connected with the charging tray guide rail in La Liao mechanism, described in draw material frame platform rear end part in transfer roller frame between a pair of cant board.

In transfer mechanism 50, one group of transfer roller 53 is arranged on the first power transmission shaft 531 according to the order of sequence, the first power transmission shaft is articulated in the top of one of a pair of cant board 521 cant board, another group transfer roller is arranged on second driving shaft 532 according to the order of sequence, and second driving shaft is articulated in the top of the opposite side riser of a pair of cant board; The rear end of the first power transmission shaft is provided with the 5th synchronous pulley 555, on the rear end face of described horizonal base plate 522, be provided with the 6th coaxial synchronous pulley 556 and the 7th synchronous pulley 557, the six synchronous pulleys and the 7th synchronous pulley be positioned at the 5th synchronous pulley under; The rear end of second driving shaft is provided with the 8th synchronous pulley 558, the bottom of described horizonal base plate is provided with the 5th drive motors 56, on the output shaft of the 5th drive motors, be provided with the 9th coaxial synchronous pulley 559 and the tenth synchronous pulley 550, the nine synchronous pulleys and the tenth synchronous pulley be positioned at the 8th synchronous pulley under; Described the 9th synchronous pulley is connected with the 8th synchronous pulley by the 9th Timing Belt, and described the tenth synchronous pulley is connected with the 7th synchronous pulley by the tenth Timing Belt, and described the 6th synchronous pulley is connected with the 5th synchronous pulley by the 6th Timing Belt.

As Fig. 9, described longitudinal translating device associated 60 is positioned at the rear of transfer mechanism, and longitudinal translating device associated comprises the longitudinal conveying 610 being connected with the upper transduction rail of transfer guide-rail plate.

Above-mentioned longitudinal translating device associated 60 comprises a pair of longitudinal conveying plate 61, and described longitudinal conveying 610 is arranged on the top of a pair of longitudinal conveying plate; In a pair of longitudinal conveying plate, on arbitrary longitudinal conveying plate, be articulated with the longitudinal feeding axle of a row, one end of arbitrary longitudinal feeding axle is provided with longitudinal delivery wheel 62, the other end of arbitrary longitudinal feeding axle is provided with longitudinal sprocket wheel 63, longitudinally delivery wheel is positioned at the inner side of longitudinal conveying plate, and longitudinally sprocket wheel is positioned at the outside of longitudinal conveying plate; Longitudinal drive sprocket 64 is installed on the lateral wall of described longitudinal conveying plate, and longitudinally drive sprocket connects with motor; Described longitudinal drive sprocket is connected with the longitudinal sprocket wheel of a row by chain.

As Figure 10, described transverse conveying mechanism 70 is positioned at left side or the right side of transfer mechanism, and transverse conveying mechanism is provided with the lateral transfer guide rail 710 vertical with the upper transduction rail of transfer guide-rail plate.

Above-mentioned transverse conveying mechanism 70 comprises a pair of lateral transfer guide-rail plate 71, and described lateral transfer guide rail 710 is arranged on the top of a pair of lateral transfer guide-rail plate; In a pair of lateral transfer guide-rail plate, on arbitrary lateral transfer guide-rail plate, be articulated with row's lateral transfer wheel shaft, one end of arbitrary lateral transfer wheel shaft is provided with lateral transfer wheel 72, the other end of arbitrary lateral transfer wheel shaft is provided with horizontal sprocket wheel 73, lateral transfer wheel is positioned at the inner side of lateral transfer guide-rail plate, and laterally sprocket wheel is positioned at the outside of lateral transfer guide-rail plate; Horizontal drive sprocket 74 is installed on the lateral wall of described lateral transfer guide-rail plate, and laterally drive sprocket connects with motor; Described horizontal drive sprocket is connected with the horizontal sprocket wheel of a row by chain.

By technique scheme, the workflow of LGP process unit described in the utility model is as follows:

First, staff is positioned at acrylic board to be cut on the fixture b1 of clamping mechanism b, particularly: servomotor or manual drive worm screw b182 rotation, worm drive worm gear b181 rotation, worm gear drives power transmission shaft b17 rotation, power transmission shaft drives gear wheel b14 rotation, gear wheel drives the second middle gear b152, the 4th middle gear b154, the 6th middle gear b156, the 8th middle gear b158 rotates simultaneously, the second middle gear, the 4th middle gear, the 6th middle gear, the second double-screw bolt b32 that the rotary actuation of the 8th middle gear and its screwed hole are spirally connected, the 4th double-screw bolt b34, the 6th double-screw bolt b36, the 8th double-screw bolt b38 rises, the second double-screw bolt, the 4th double-screw bolt, the 6th double-screw bolt, the rising of the 8th double-screw bolt drives fixed disk b33 to rise, when gear wheel b14 drives the second middle gear b152 and the 6th gear b156 rotation, the second middle gear drives the first pinion b161 rotation, the 6th middle gear drives third pinion b163 rotation, under the first double-screw bolt b221 that the rotary actuation of the first pinion and its screwed hole are spirally connected, rise, under the 3rd double-screw bolt b223 that the rotary actuation of third pinion and its screwed hole are spirally connected, rise, the decline of the first double-screw bolt drives the first latch segment b231 to decline, and the decline of the 3rd double-screw bolt drives the 3rd latch segment b233 to decline, so, being placed on be fixed dish and latch segment of workpiece on fixed disk clamps up and down.

The second, by crossbeam 13, the displacement on the Y-direction slideway on pair of frame plate 12 realizes Y-direction displacement to laser head 15, and by laser frame 14, the X on crossbeam 13 realizes X to displacement to the displacement on slideway to laser head; At X, under the cooperation of displacement and Y-direction displacement, laser head 15 carries out laser cutting to the acrylic board on fixed disk b33.

The 3rd, after having cut, the longitudinal moving mechanism b5 action in clamping mechanism b, the cooperation of longitudinal screw b53 and longitudinal inner thread part b54 drives fixture installing plate b51 to vertically move, fixture installing plate drives fixture b1 to vertically move, and so, the template of having cut on fixture rearward moves.

The 4th, horizontal linear drive unit in transfer mechanism 30 drives column 31 horizontal linears to move to the side of acrylic board, straight line Rodless cylinder 33 drive the 5th sucker 35 transverse horizontal move to the upper acrylic board of fixed disk b33 directly over; Afterwards, straight line lift cylinder 32 drives rod member 34 to decline, and rod member drives the 5th sucker 35 to decline, the 5th sucker absorption acrylic board; Afterwards, horizontal linear drive unit drives the horizontally vertically move side of the charging tray 40 to a pair of charging tray guide rail 24 in La Liao mechanism 20 of column 31, under the driving of straight line Rodless cylinder 33 and straight line lift cylinder 32, the 5th sucker 35 is thrown in the acrylic board on it to charging tray 40.

The 5th, drive unit in La Liao mechanism 20 23 drives the side that draws flitch 221 to move to charging tray 40, draws first on flitch 221 to draw material cylinder 223 to stretch, the first plug-in unit 225 insert on charging tray 40 by draw piece 41; Afterwards, under the driving of drive unit, draw material module 22 that charging tray 40 is pulled to the rear end of expecting frame platform from the front end that draws material frame platform 21; In the above-mentioned material module 22 of drawing, charging tray 40 is pulled in the process of the rear end of expecting frame platform from the front end that draws material frame platform 21, charging tray 40 is entered the transfer guide rail 510 of transfer mechanism 50 by charging tray guide rail 24.

The 6th, in the above-mentioned material module 22 of drawing, charging tray 40 is pulled in the process of the rear end of expecting frame platform from the front end that draws material frame platform 21, staff can carry out outward appearance and size detection to the acrylic board in charging tray 40; Also can be in the time that charging tray 40 enter and rest on transfer guide rail 510, staff carries out outward appearance and size detection to the acrylic board in charging tray.

The 7th, after testing, cut acrylic board is qualified, staff continues driving and draws material module 22 that charging tray 40 is rearward moved to certain distance along transfer guide rail 510, longitudinal conveying 610 of longitudinal translating device associated 60 is contacted with charging tray 40, and then longitudinal translating device associated continues to be rearward delivered to next predetermined station by charging tray.

The 8th, after testing, cut acrylic board is defective, staff's driving rolls frame lift cylinder 54, roller frame lift cylinder lifting transfer roller frame 52, two groups of transfer rollers 53 in transfer roller frame contact with charging tray 40 bottoms and charging tray are therefrom transduceed on rail 510 and lifted, and two groups of transfer rollers 53 are lateral transfer guide rail 710 to transverse conveying mechanism 70 by the charging tray lateral transfer on it, by transverse conveying mechanism 70, underproof acrylic board is delivered to predetermined station.

Above content is only preferred embodiments of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (9)

1. a LGP process unit, comprise cutting mechanism (10), clamping mechanism (b), transfer mechanism (30), La Liao mechanism (20),Transfer mechanism (50), longitudinal translating device associated (60), transverse conveying mechanism (70);

Described cutting mechanism (10) comprise a pair of left and right frame plate (12) is set, across the crossbeam (13) of pair of frame plate, be arranged on crossbeamOn laser frame (14), be arranged on the laser head (15) on laser frame; Described pair of frame plate is provided with Y-direction slideway, on described crossbeam, establishesHave X to slideway, the both ends of described crossbeam are slidably fitted on the Y-direction slideway of pair of frame plate, and described laser frame is slidably fitted in crossbeamX is on slideway; Described laser head is connected with laser generator by reflection unit; It is characterized in that:

Described clamping mechanism (b) is positioned at the below of laser head; Clamping mechanism comprises longitudinal moving mechanism (b5), is arranged on longitudinal moving mechanismOn fixture (b1);

Described longitudinal moving mechanism comprises fixture installing plate (b51), longitudinal adjustable plate (b52), longitudinal screw (b53), longitudinal inner thread part(b54); Described fixture is fixedly mounted on fixture installing plate, and longitudinal chute is offered in the bottom of fixture installing plate, on described longitudinal adjustable plate, establishesHave the longitudinal sliding block (b520) coordinating with longitudinal chute, described longitudinal screw is articulated on longitudinal adjustable plate, and described longitudinal inner thread part is spirally connectedOn longitudinal screw, longitudinal inner thread part is fixedly connected with fixture installing plate;

Described fixture comprises stake body (b10), locking body (b20), fixed base frame (b30);

Described stake body comprises base (b11), support plate (b12), pillar (b13); Described pillar is vertically arranged on base, described support plateBe horizontally set on pillar;

Described locking body comprises the first lifting chassis (b21), the first double-screw bolt (b221), the first latch segment (b231); At the bottom of described the first liftingDish is offered the first guiding slot port (b201), and described the first guiding slot port and pillar are slidably matched; Described the first double-screw bolt is vertically arranged on first literFall on chassis, offer the first through hole on described support plate, the first double-screw bolt is through the first through hole; Described the first latch segment is arranged on the top of the first double-screw boltPortion;

Described fixed base frame comprises the second lifting chassis (b31), the second double-screw bolt (b32), fixed disk (b33); Open on described the second lifting chassisIf the second guiding slot port (b301), described the second guiding slot port and pillar are slidably matched; At the bottom of described the second double-screw bolt is vertically arranged on the second liftingOn dish, the second lifting chassis is positioned at the below on the first lifting chassis; The second through hole is offered on described the first lifting chassis, offers on described support plateThree through holes, described the second double-screw bolt is upward through the second through hole and third through-hole; Described fixed disk level is arranged on the top of the second double-screw bolt, described inOn fixed disk, offer fourth hole, described the first double-screw bolt is through fourth hole, and described the first latch segment is positioned at the top of fixed disk;

Described stake body also comprises gear wheel (b14), the second middle gear (b152), the first pinion (b161), power transmission shaft (b17), snailWheel (b181) and worm screw (b182); The centre on described the first lifting chassis is offered fifth hole, the centre on described the second lifting chassisOffer the 6th through hole, described power transmission shaft vertically arranges, and the bottom of power transmission shaft is articulated on base, and the top of power transmission shaft is articulated on support plate, passesMoving axis is through fifth hole and the 6th through hole; Described gear wheel is arranged on power transmission shaft, and gear wheel is between support plate and the first lifting chassis;Described the second middle gear is articulated in the third through-hole of support plate, the second middle gear between support plate and the first lifting chassis, the second middle gearCentre is offered screwed hole, and the second double-screw bolt is screwed onto in the screwed hole of the second middle gear, and the second middle gear engages with gear wheel; Described first littleGear is articulated in the first through hole of support plate, and the first pinion is between support plate and the first lifting chassis, and the centre of the first pinion is offeredScrewed hole, the first double-screw bolt is screwed onto in the screwed hole of the first pinion, and the first pinion engages with the second middle gear; Described worm gear is arranged on biographyThe bottom of moving axis, described worm screw is horizontally disposed with, and worm screw is articulated on base, worm gear and worm engaging;

Described transfer mechanism (30) is positioned at the side of clamping mechanism rear end; Described transfer mechanism comprises horizontal linear drive unit, is arranged onColumn (31) on horizontal linear drive unit, be arranged on straight line lift cylinder (32) on column, be arranged on straight line lift cylinder pistonAnd horizontally disposed rod member (34), be arranged on rod member and horizontally disposed straight line Rodless cylinder (33), be arranged on the work of straight line Rodless cylinderThe 5th sucker (35) beyond the Great Wall; The driving direction of described horizontal linear drive unit is vertical with the driving direction of straight line Rodless cylinder;

Described La Liao mechanism (20) is positioned at the rear of cutting mechanism; Described La Liao mechanism comprises draws material frame platform (21), is slidably fitted in and drawsDrawing on the table top of material frame platform expected module (22), is arranged on and draws on material frame platform for driving the driving dress that draws material module level to move back and forthPut (23), be arranged on a pair of charging tray guide rail (24) on the table top that draws material frame platform; Described drawing expects that module is between a pair of charging tray guide rail,Draw material module to comprise to be slidably fitted in drawing flitch (221), be arranged on and draw first on flitch end face to draw material cylinder on the table top that draws material frame platform(223), be arranged on first draw material cylinder piston rod top the first plug-in unit (225), the first plug-in unit is cylindric;

On described a pair of charging tray guide rail, be placed with charging tray (40), charging tray is provided with and is cylindraceous by draw piece (41) away from a side of cutting mechanism,The external diameter of described the first plug-in unit is less than by the internal diameter of draw piece;

Described transfer mechanism (50) comprises a pair of transfer guide-rail plate (51), transfer roller frame (52), two groups of transfer rollers (53), rollsWheel frame lift cylinder (54); Described transfer roller frame comprises a pair of cant board (521), connects the horizonal base plate (522) of a pair of cant board,One group of transfer roller is arranged on the top of one of a pair of cant board cant board, and another group transfer roller is arranged on the opposite side riser of a pair of cant boardTop, described roller frame lift cylinder is arranged on the below of horizonal base plate, the piston rod of roller frame lift cylinder and the end of horizonal base platePortion is fixedly connected with; Described transfer roller machine chord position between a pair of transfer guide-rail plate, the top of transfer guide-rail plate be provided with La Liao mechanism in materialThe transfer guide rail (510) that dish guide rail is connected, described in draw material frame platform rear end part in transfer roller frame between a pair of cant board;

Described longitudinal translating device associated (60) is positioned at the rear of transfer mechanism, and longitudinal translating device associated comprises with the upper transduction rail of transfer guide-rail plate and being connectedLongitudinal conveying (610);

Described transverse conveying mechanism (70) is positioned at left side or the right side of transfer mechanism, and transverse conveying mechanism is provided with and the upper transduction of transfer guide-rail plateThe lateral transfer guide rail (710) that rail is vertical.

2. a kind of LGP process unit as claimed in claim 1, is characterized in that: in cutting mechanism (10), and described pair of framePlate (12) comprises left frame plate and right frame plate, and described left frame plate is provided with the first Y-direction slideway (121), and right frame plate is provided with secondY-direction slideway; On described the first Y-direction slideway, offer cross section and be the first trapezoidal Y-direction chute (122), on described the second Y-direction slideway, offerCross section is the second trapezoidal Y-direction chute; The left part of described crossbeam (13) is provided with cross section and is trapezoidal the first slide block (131), crossbeamRight part be provided with cross section and be the second trapezoidal slide block; Described the first slide block coordinates with the first Y-direction chute, and the second slide block and the second Y-direction are slidingGroove coordinates;

The left part of described crossbeam is provided with the first Y-direction drive unit (16), and described the first Y-direction drive unit comprises and is arranged on crossbeam left partThe first side plate (161), be articulated in the first driven wheel (162) on the first side plate, be arranged on the first side plate and with the first driven wheelThe first drive motors (163) connecting; On the sidewall of described left frame plate, offer the first groove (123), the roof of the first groove is provided withOne tooth bar (124), described the first driven wheel is positioned at the first groove, and the first driven wheel engages with the first tooth bar;

The right part of described crossbeam is provided with the second Y-direction drive unit, and described the second Y-direction drive unit comprises and is arranged on second of crossbeam right partSide plate, be articulated in the second driven wheel on the second side plate, be arranged on the second drive motors connecting on the second side plate and with the second driven wheel;On the sidewall of described right frame plate, offer the second groove, the roof of the second groove is provided with the second tooth bar, and described the second driven wheel is positioned at secondIn groove, the second driven wheel engages with the second tooth bar;

In cutting mechanism (10), described X is trapezoidal X to chute (132), on described laser frame (14) to offering cross section on slidewayBe provided with cross section and be the 3rd trapezoidal slide block (141); Described the 3rd slide block coordinates to chute with X;

Described laser frame is provided with X to drive unit (17), described X to drive unit comprise the 3rd side plate (171) that is arranged on laser frame,Be articulated in the 3rd driven wheel (172) on the 3rd side plate, be arranged on the 3rd drive motors connecting on the 3rd side plate and with the 3rd driven wheel(173); On the sidewall of described crossbeam (13), offer the 3rd groove (133), the roof of the 3rd groove is provided with the 3rd tooth bar (134), instituteState the 3rd driven wheel and be positioned at the 3rd groove, the 3rd driven wheel engages with the 3rd tooth bar.

3. a kind of LGP process unit as claimed in claim 1, is characterized in that:

In clamping mechanism, on described the second lifting chassis (b31), be vertically provided with the 4th double-screw bolt (b34), the 6th double-screw bolt (b36), the 8thDouble-screw bolt (b38), described the second double-screw bolt (b32), the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt are along circumferential even point of the second lifting chassisCloth; Described the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt are upward through the first lifting chassis (b21) and support plate (b12); Described fixed disk(b33) be arranged on the top of the 4th double-screw bolt, the 6th double-screw bolt, the 8th double-screw bolt; On described support plate, be articulated with the 4th middle gear (b154),Six middle gears (b156), the 8th middle gear (b158), the 4th middle gear, the 6th middle gear, the 8th middle gear are positioned at support plate and the first liftingBetween chassis, the centre of the 4th middle gear, the 6th middle gear, the 8th middle gear is all offered screwed hole, and the 4th double-screw bolt is screwed onto tooth in the 4thIn the screwed hole of wheel, the 4th middle gear engages with gear wheel (b14), and the 6th double-screw bolt is screwed onto in the screwed hole of the 6th middle gear, in the 6thGear engages with gear wheel; The 8th double-screw bolt is screwed onto in the screwed hole of the 8th middle gear, and the 8th middle gear engages with gear wheel;

On described the first lifting chassis (b21), be vertically provided with the 3rd double-screw bolt (b223), described the 3rd double-screw bolt is upward through support plate (b12),The 3rd double-screw bolt and the first double-screw bolt (b221) are symmetrical about the center line on the first lifting chassis; On described support plate, be articulated with third pinion(b163), third pinion is between support plate and the first lifting chassis, and the centre of third pinion is offered screwed hole, the 3rd double-screw bolt spiral shellBe connected in the screwed hole of third pinion, third pinion engages with the 6th middle gear (b156); The top of described the 3rd double-screw bolt is provided withThree latch segments (b233);

In clamping mechanism, described the second middle gear (b152) comprise the second gear part (b1521), with the second gear part coaxial arrange secondArticulated section (b1522); The centre of described the second gear part and the second articulated section is provided with the screwed hole that connects the second gear part and the second articulated section(b1523); Described the second articulated section is articulated in the third through-hole of support plate (b12);

In clamping mechanism, described the first pinion (b161) comprises the first gear part, the first articulated section with the coaxial setting of the first gear part;The centre of described the first gear part and the first articulated section is provided with the screwed hole that connects the first gear part and the first articulated section; Described the first articulated sectionBe articulated in the first through hole of support plate (b12).

4. a kind of LGP process unit as claimed in claim 1, is characterized in that: in transfer mechanism (30), and described horizontal linearDrive unit comprises horizontally disposed rectangular base (36), the first threaded rod (37), the 4th drive motors; Described rectangular base is offered rectangularThe straight line chute of shape, the bottom of described column (31) is engaged in straight line chute, and screwed hole is offered in the bottom of column, described screwed hole andOne threaded rod coordinates, and the first threaded rod is positioned at straight line chute, and the both ends of the first threaded rod are articulated on rectangular base, the first threaded rodOne end connects with the 4th drive motors.

5. a kind of LGP process unit as claimed in claim 1, is characterized in that:

In La Liao mechanism (20), described in draw material frame platform (21) table top be provided with a pair of draw material guide rail (212), described in draw flitch (221)Bottom surface be provided with draw that material guide rail coordinates draw material slide block;

Described draw flitch (221) end face be provided with second draw material cylinder (226), second draw material cylinder piston rod top be provided with second insertPart, the second plug-in unit is cylindric, and the external diameter of the second plug-in unit is less than by the internal diameter of draw piece (31); Described the first plug-in unit (225) and second is insertedPart arranges in opposite directions.

6. a kind of LGP process unit as claimed in claim 1, is characterized in that:

In La Liao mechanism (20), described drive unit (23) comprises the second motor, be articulated in the on the table top that draws material frame platform (21)Three Timing Belt wheel shafts, be arranged on the 3rd synchronous pulley (231) on the 3rd Timing Belt wheel shaft, be articulated in the 4th on the table top that draws material frame platformTiming Belt wheel shaft, be arranged on the 4th synchronous pulley on the 4th Timing Belt wheel shaft, connect the 3rd synchronous pulley and the 4th synchronous pulley second withStep band (232); Described the second motor connects with the 3rd Timing Belt wheel shaft or the 4th Timing Belt wheel shaft, and described the 3rd Timing Belt wheel shaft and the 4th togetherStep belt shaft is vertically arranged on the table top that draws material frame platform; Described top of drawing flitch (221) to be positioned at the second Timing Belt, the end of drawing flitchPortion is fixedly connected with the second Timing Belt; Before and after described the 3rd synchronous pulley and the 4th synchronous pulley, be arranged on and draw on material frame platform.

7. a kind of LGP process unit as claimed in claim 1, is characterized in that: in transfer mechanism (50), and one group of transfer roller(53) be arranged on according to the order of sequence the first power transmission shaft (531) above, the first power transmission shaft is articulated in the top of one of a pair of cant board (521) cant board,It is upper that another group transfer roller is arranged on second driving shaft (532) according to the order of sequence, and second driving shaft is articulated in the top of the opposite side riser of a pair of cant boardPortion; The rear end of the first power transmission shaft is provided with the 5th synchronous pulley (555), is provided with coaxial on the rear end face of described horizonal base plate (522)The 6th synchronous pulley (556) and the 7th synchronous pulley (557), the 6th synchronous pulley and the 7th synchronous pulley are just being positioned at the 5th synchronous pulleyBelow; The rear end of second driving shaft is provided with the 8th synchronous pulley (558), and the bottom of described horizonal base plate is provided with the 5th drive motors (56),The 9th coaxial synchronous pulley (559) and the tenth synchronous pulley (550) are installed, the 9th synchronous pulley on the output shaft of the 5th drive motorsWith the tenth synchronous pulley be positioned at the 8th synchronous pulley under; Described the 9th synchronous pulley connects by the 9th Timing Belt and the 8th synchronous pulleyConnect, described the tenth synchronous pulley is connected with the 7th synchronous pulley by the tenth Timing Belt, and described the 6th synchronous pulley passes through the 6th Timing Belt and theFive synchronous pulleys connect.

8. a kind of LGP process unit as claimed in claim 1, is characterized in that: described longitudinal translating device associated (60) comprises a pair ofLongitudinally conveying plate (61), described longitudinal conveying (610) is arranged on the top of a pair of longitudinal conveying plate;

In a pair of longitudinal conveying plate, on arbitrary longitudinal conveying plate, be articulated with the longitudinal feeding axle of a row, one of arbitrary longitudinal feeding axleEnd is provided with longitudinal delivery wheel (62), and the other end of arbitrary longitudinal feeding axle is provided with longitudinal sprocket wheel (63), and longitudinally delivery wheel is positioned at longitudinallyThe inner side of conveying plate, longitudinally sprocket wheel is positioned at the outside of longitudinal conveying plate; On the lateral wall of described longitudinal conveying plate, be provided with verticalTo drive sprocket (64), longitudinally drive sprocket connects with motor; Described longitudinal drive sprocket is connected with the longitudinal sprocket wheel of a row by chain.

9. a kind of LGP process unit as claimed in claim 1, is characterized in that: described transverse conveying mechanism (70) comprises a pair ofLateral transfer guide-rail plate (71), described lateral transfer guide rail (710) is arranged on the top of a pair of lateral transfer guide-rail plate;

In a pair of lateral transfer guide-rail plate, on arbitrary lateral transfer guide-rail plate, be articulated with row's lateral transfer wheel shaft, arbitrary lateral transfer wheel shaftOne end is provided with lateral transfer wheel (72), and the other end of arbitrary lateral transfer wheel shaft is provided with horizontal sprocket wheel (73), and lateral transfer wheel is positioned atThe inner side of lateral transfer guide-rail plate, laterally sprocket wheel is positioned at the outside of lateral transfer guide-rail plate; On the lateral wall of described lateral transfer guide-rail plate, pacifyHorizontal drive sprocket (74) is housed, and laterally drive sprocket connects with motor; Described horizontal drive sprocket connects by chain and the horizontal sprocket wheel of a rowConnect.