CN212607458U - Automatic iron block pouring machine - Google Patents

Abstract

The utility model relates to an automatic material machine of falling of iron plate, including elevator unit, burring unit, climbing formula baffle unit and iron plate conveying component four bibliographic categories branch. The lifting unit comprises a support frame, a driving assembly and a lifting hopper, wherein the driving assembly is arranged on the support frame; the deburring unit comprises a rotatable roller, the roller is a regular polygon body, and one surface of the roller is provided with an opening; the climbing type clapboard unit comprises a horizontal initial section and a climbing section inclined at a preset angle, wherein the initial section is positioned under the roller. The automatic material pouring lifter controls the motor to rotate forward and backward through chain transmission, and drives the hopper to lift and descend. When the hopper is in the low level, in the manual work pours the iron plate into the hopper, accomplish the back, the hopper promotes to the high level and can pour the iron plate into hexagonal burr-grinding machine automatically, rolls the burr treatment by the burr-grinding machine to the iron plate after that, has replaced the manual work of falling material, burring to the iron plate of tradition, has improved work efficiency.

Description

Automatic iron block pouring machine

Technical Field

The utility model relates to a material letter sorting field, concretely relates to automatic material machine of falling of iron plate.

Background

In the production of iron block parts, a large iron plate is generally cut into iron blocks with various shapes and specifications by a laser cutting machine, then the iron block parts with the same thickness are manually put together, and the iron blocks are deburred by a simple deburring machine device. This operation will inevitably affect the efficiency of the overall sorting system.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides an automatic material machine that falls of iron plate to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: an automatic iron block pouring machine comprises four parts, namely a lifting unit, a deburring unit, a climbing type partition plate unit and an iron block conveying assembly.

The lifting unit comprises a support frame, a driving assembly and a lifting hopper, wherein the driving assembly is arranged on the support frame;

the deburring unit comprises a rotatable roller, the roller is a regular polygon body, and one surface of the roller is provided with an opening;

the climbing type clapboard unit comprises a horizontal starting section and a climbing section inclined at a preset angle, wherein the starting section is positioned right below the roller;

the iron block conveying assembly comprises a pull plate chain conveyor unit, a telescopic plate chain conveyor unit, a buffer shunting partition plate unit and a shunting plate chain conveyor unit which are sequentially connected with the tail end of the climbing type partition plate unit.

In a further embodiment, the driving assembly further comprises a speed reducing motor mounted at the lower part of the supporting frame, and the output end of the speed reducing motor is connected with the first rotating shaft; the upper portion of support frame rotates and is provided with the second pivot, the both ends of first pivot and second pivot all are equipped with the sprocket, cup joint the drive belt of meshing with it between two corresponding sprockets on first pivot and the second pivot. The automatic material pouring lifter controls the motor to rotate forward and backward through chain transmission, and drives the hopper to lift and descend. When the hopper is in the low position, the iron blocks are manually poured into the hopper, the quantity of the iron blocks poured into the hopper at most is 1T, and after the iron blocks are poured into the hopper, the hopper is lifted to the high position and can automatically pour the iron blocks into the hexagonal deburring machine.

In a further embodiment, the hopper comprises an open space, one end of which is connected with a guide part; articulated arms are arranged on two side walls of the hopper, the articulated arms are fixedly connected with one side of the transmission belt, and the articulated arms are articulated with the hopper.

In a further embodiment, the inlet of the deburring machine interfaces with the hopper at a predetermined location; the opening part of the roller is provided with a door plate which can be pushed and pulled. The deburring machine drives the hexagonal roller to rotate forwards and backwards through the forward and reverse rotation of the motor. Hexagonal cylinder opening when up, pull open the lid by the cylinder, automatic material elevator of falling can pour the iron plate into wherein this moment, accomplish the back, close the lid by the cylinder, the motor starts, roll the burr to the iron plate and handle, accomplish the back, detect by proximity switch, make hexagonal cylinder opening stop up, the cylinder pulls open the lid, accomplish the back, the motor starts and rotates at a slow speed, make the iron plate slowly fall on first climbing formula baffle transfer chain automatically, stop when rotating the opening and down, the iron plate also can all fall out this moment, the motor reversal makes the opening carry out next feeding up once more, with this circulation.

In a further embodiment, the climbing type partition board unit comprises a plurality of middle partition boards which are arranged in parallel and side baffle boards which are arranged on two sides. The climbing type partition plate unit adopts a plate chain conveying mode and is provided with a middle partition plate and side baffle plates, the middle partition plate is used for separating and distributing falling iron plates, and the side baffle plates are used for preventing iron blocks from falling out. When the hexagonal drum continuously drops iron blocks, the climbing type clapboard unit also slowly carries the iron blocks to the tail end of the high position and then automatically drops to the pull plate chain conveying line.

In a further embodiment, the starting end of the pull plate chain conveyor unit is in butt joint with the tail end of the climbing section of the climbing clapboard unit, and the conveying speed of the pull plate chain conveyor unit is 2 times or more than that of the climbing clapboard unit; the iron blocks fall on the telescopic plate chain conveyor unit from the tail end of the pull plate chain conveyor unit; the telescopic plate chain conveyor unit comprises a telescopic plate chain conveying part which is controlled by an air cylinder to do front and back telescopic motion. The function of the pull speed plate chain conveyor set is to pull the iron blocks falling on the plate chain quickly, so that the stacking of the iron blocks is reduced. When the iron blocks are conveyed to the tail end, the iron blocks fall onto the telescopic plate chain unit. The telescopic plate chain conveyor set adopts a plate chain conveying mode, the conveying part can be wholly controlled by the air cylinder to perform front and back telescopic movement and perform telescopic movement at regular time, so that the iron blocks fall on the buffer conveying line to be dispersed into 2 conveying paths, and the stacking condition is reduced.

In a further embodiment, the buffer lane separator set is divided into two lanes, and two sides of the buffer lane separator set are provided with height-adjustable correlation photoelectric sensors; the flow distribution plate chain conveyor unit comprises a flow distribution plate chain conveying part controlled by an air cylinder to move up and down. The buffer memory lane partition plate unit adopts a plate chain conveying mode, the conveying line is divided into 2 lanes, the dispersion of iron blocks is facilitated, the correlation photoelectric sensors are arranged on two sides of the conveying line, the height of the transmission line is adjustable, the iron blocks are stacked and identified, if the stacked iron blocks are identified, the iron blocks can be shunted through the shunt chain plate conveying line to return to the pull-speed plate chain conveying line, and the circulation is performed in such a way so as to achieve the condition that the iron blocks are not stacked; if there is no stacked iron block, it is normally transferred to the subsequent station.

Has the advantages that: the utility model relates to an automatic material machine of falling of iron plate, automatic material lift of falling pass through chain drive, and control motor is just reversing, drives the hopper promotion and descends. When the hopper is in the low level, in the manual work pours the iron plate into the hopper, accomplish the back, the hopper promotes to the high level and can pour the iron plate into hexagonal burr-grinding machine automatically, rolls the burr treatment by the burr-grinding machine to the iron plate after that, has replaced the manual work of falling material, burring to the iron plate of tradition, has improved work efficiency.

Drawings

Fig. 1 is a perspective view of an intelligent iron block sorting system.

Fig. 2 is a top view of the intelligent iron block sorting system.

FIG. 3 is a material flow diagram of an iron block intelligent sorting system from a top view.

Fig. 4 is a perspective view of a deburring machine in the intelligent iron block sorting system.

Fig. 5 is a perspective view and a partial enlarged view of an automatic material pouring elevator set in the intelligent iron block sorting system.

Fig. 6 is another perspective view of the deburring machine in the intelligent iron block sorting system and an enlarged layout view of the deburring machine.

Fig. 7 is a perspective view of the iron block marking and sorting assembly in the intelligent iron block sorting system.

The figures are numbered: the automatic material pouring lifting unit 1, the support frame 101, the articulated arm 102, the hopper 103, the transmission belt 104, the chain wheel 105, the first rotating shaft 106, the second rotating shaft 107, the deburring machine 2, the roller 201, the opening part 202, the door panel 203, the air cylinder 204, the speed reducing motor 205, the detection point 206, the proximity switch 207, the telescopic plate chain conveyor unit 3, the return plate chain conveyor unit 4, the shunt plate chain conveyor unit 5, the iron block marking and sorting assembly 6, the truss section plate chain conveyor unit 601, the burning section plate chain conveyor unit 602, the truss robot 603, the industrial camera 604, the laser burning machine 605, the electromagnet clamp A606, the pushing mechanism 7, the material frame 8, the mesh belt conveyor unit 9, the pulling plate chain conveyor unit 10, the single-layer conveyor line 11, the double-layer chain conveyor line 12, the iron block stacking assembly 13, the electromagnet clamp B1301, the tail end plate chain conveyor unit 14 and the iron block 15.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

Referring to the attached drawing 5, the utility model discloses an automatic material machine of falling of iron plate, this automatic material machine of falling can use in iron plate intelligence letter sorting system, see fig. 1 to 7, make concrete explanation to this automatic material machine of falling's use scene through the embodiment below:

the sorting system is mainly divided into several parts: the iron block feeding part, the iron block conveying part, the iron block backflow part, the iron block marking part, the iron block sorting part with the groove and the iron block stacking part.

The iron plate feeding part mainly comprises: the automatic dumping elevator set 1 → the hexagonal deburring machine 2 set → the climbing clapboard set A.

The iron block conveying part mainly comprises: the drag chain conveyor set 10 → the telescopic chain conveyor set 3 → the buffer lane dividing partition set → the shunt chain conveyor set 5.

The iron block backflow part mainly comprises: and (4) a return plate chain unit → a climbing clapboard unit B.

The iron block marking part mainly comprises: the truss robot 603 and the electromagnet clamp A606 → the truss segment plate chain conveyor group 601 → the burning segment plate chain conveyor group 602 → the laser marking machine.

The iron block sorting part with the groove mainly comprises: eight meters mesh belt conveyor set 9 → pushing mechanism 7 → six meters plate chain conveyor set.

The iron block stacking part mainly comprises: the robot arm and electromagnet clamp B1301 → the double-layer chain conveying line 12 → the single-layer chain conveying line a → the single-layer chain conveying line B.

Specifically, the automatic material pouring elevator group 1 further comprises a support frame 101 with a triangular or trapezoidal cross section, a speed reducing motor 205 is arranged at the lower part of the support frame 101, and the output end of the speed reducing motor 205 is connected with the first rotating shaft 106; a second rotating shaft 107 is rotatably arranged at the upper part of the support frame 101, chain wheels 105 are arranged at two ends of the first rotating shaft 106 and the second rotating shaft 107, and a transmission belt 104 meshed with the two corresponding chain wheels 105 on the first rotating shaft 106 and the second rotating shaft 107 is sleeved between the two chain wheels 105; the automatic material pouring elevator set 1 further comprises a liftable hopper 103, the hopper 103 comprises an opening space, and one end of the opening space is connected with a guide part; two side walls of the hopper 103 are provided with hinge arms 102, the hinge arms 102 are fixedly connected with one side of the driving belt 104, and the hinge arms 102 are hinged with the hopper 103. The automatic material pouring lifter controls the motor to rotate forward and backward through chain transmission, and drives the hopper 103 to lift and descend. When the hopper 103 is in the low position, the iron blocks 15 are manually poured into the hopper 103, the quantity of the iron blocks 15 poured at one time is 1T at most, and after the iron blocks are completely poured, the hopper 103 is lifted to the high position and can automatically pour the iron blocks 15 into the hexagonal deburring machine 2.

The hexagonal deburring machine 2 comprises a rotatable roller 201, wherein the roller 201 is a regular polygonal body, one surface of the roller 201 is provided with an opening, and a door panel 203 which can be pushed and pulled is arranged at the opening part 202; the climbing type separator unit A comprises a horizontal initial section and a climbing section inclined at a preset angle, wherein the initial section is positioned right below the roller 201. The hexagonal deburring machine 2 drives the hexagonal drum 201 to rotate forward and backward through the forward and backward rotation of the motor. Hexagonal cylinder 201 opening when up, pull open the lid by cylinder 204, automatic material elevator of falling this moment can pour iron plate 15 into wherein, accomplish the back, close the lid by cylinder 204, the motor starts, roll burr treatment to iron plate 15, accomplish the back, detect by proximity switch 207, correspond by check point 206, make hexagonal cylinder 201 opening stop up, cylinder 204 pulls open the lid, accomplish the back, the motor starts and rotates at a slow speed, make iron plate 15 slowly drop on climbing formula baffle transfer chain A automatically, stop when rotating the opening and down, iron plate 15 also can all fall out this moment, the motor reversal makes the opening carry out next time's feeding up once more, with this circulation.

The climbing type partition plate unit A is in a plate chain conveying mode and is provided with a middle partition plate and side baffle plates, the middle partition plate is used for separating and distributing falling iron plates, and the side baffle plates are used for preventing the iron blocks 15 from sliding out. When the iron blocks 15 continuously fall off from the hexagonal roller 201, the climbing type clapboard unit A is also slowly conveyed and automatically falls onto the pull plate chain conveying line after being conveyed to the tail end of the high position.

The pull-up plate chain conveyor unit 10 adopts a plate chain conveying mode, the starting end of the pull-up plate chain conveyor unit 10 is in butt joint with the tail end of the climbing section of the climbing type clapboard unit A, and the conveying speed of the pull-up plate chain conveyor unit 10 is 2 times or more than that of the climbing type clapboard unit A; the function of the pull-speed plate chain conveyor unit 10 is to quickly pull the iron blocks 15 falling on the plate chain, so that the stacking of the iron blocks 15 is reduced. The iron blocks 15 fall from the end of the drag chain conveyor unit 10 onto the telescopic plate chain conveyor unit.

The telescopic plate chain conveyor unit 3 comprises a telescopic plate chain conveying part which is controlled by an air cylinder 204 to do front and back telescopic movement; the telescopic plate chain conveyor set 3 adopts a plate chain conveying mode, the whole conveying part can be controlled by the air cylinder 204 to perform front and back telescopic movement and perform telescopic movement at regular time, so that the iron blocks 15 fall on the cache conveying line to be dispersed into 2 conveying ways, and the stacking condition is reduced.

The buffer memory lane separator unit is divided into two lanes, and two sides of the buffer memory lane separator unit are provided with height-adjustable correlation photoelectric sensors. The buffer memory lane partition plate unit adopts a plate chain conveying mode, the conveying line is divided into 2 lanes, dispersion of iron blocks 15 is facilitated, the two sides of the conveying line are provided with the correlation photoelectric sensors, the height of each transmission line is adjustable, the iron blocks 15 are stacked and identified, if the stacked iron blocks 15 are identified, the iron blocks 15 can be shunted back to the pull-speed plate chain conveying line through the shunt chain plate conveying line, and the materials are cyclically shunted in such a way, so that the situation that the iron blocks 15 are not stacked is achieved; if there is no stacked iron piece 15, it is normally transferred to the subsequent station.

The splitter plate chain conveyor unit 5 comprises a splitter plate chain conveying part controlled by an air cylinder 204 to move up and down. The shunt plate chain conveyor unit 5 adopts a plate chain conveying mode, the whole conveying part can be controlled by the air cylinder 204 to move up and down, the function is to shunt the iron blocks 15, when the front end detects stacked products, the conveying line can automatically descend to a low position, and the stacked iron blocks 15 are conveyed to a return line; when the front end does not detect a stack of products, the conveyor line remains in the high position to convey the iron blocks 15 to the subsequent station.

The 15 iron block backflow assemblies comprise one section of backflow plate chain unit 4 vertically butted with the shunt plate chain conveyor unit 5, and a climbing type clapboard unit B which is butted with the tail end of the backflow plate chain unit 4 and has the same structure as the climbing type clapboard unit A in the 15 iron block feeding assembly.

The iron block marking part comprises a truss section plate chain conveyor set 601, a burning section plate chain conveyor set 602, a truss robot 603, an electromagnet clamp A606, a vision recognition system and a laser burning machine 605. The visual system is installed above the truss section plate chain conveyor, the laser recorder 605 is installed above the recording section plate chain conveyor line, and the air cylinder 204 controls the laser recorder 605 to move, so that interference with the truss gripper in the moving process is avoided, the correlation photoelectricity is installed at the tail end of the truss section plate chain conveyor line, when the iron block 15 is detected to pass through, the conveyor line stops, the upper vision identifies the information and the grabbing position of the iron block 15, the truss robot 603 moves to the position above the grabbing point of the iron block 15, the iron block 15 is grabbed and placed on the center line position of the recording section plate chain conveyor line through the electromagnet fixture A606, the truss gripper moves away, the laser recorder 605 is controlled by the air cylinder 204 to move to the position above the iron block 15, then, recording of the two-dimensional code on the iron block 15 is started, the conveyor line is started after the recording is completed, and the iron block 15 is conveyed backwards in.

Eight meters guipure conveyer 9 is double-deck chevron shape guipure transport mode, installs the encoder above the guipure, detects guipure conveying distance, and every interval 1.5 meters above the guipure is equipped with pushing equipment 7, totally 4 pushing equipment 7 to all install photoelectric detection in pushing equipment 7 department, conveyer one side is installed and is corresponded 4 spouts, and the spout below corresponds there is 4 material frames 8. The front end visually detects the information of the iron block 15, compares the information of the iron block 15 input into the system, and if the iron block 15 is judged to be required to be pushed into which material frame 8, when the iron block 15 is conveyed to the corresponding material pushing mechanism 7, the photoelectric detection of the iron block 15 causes the conveyor line to stop, the material pushing mechanism 7 pushes the iron block 15 into the corresponding material frame 8, and the finished product which is not required to be pushed into the material frame 8 is conveyed to the tail end and slides onto a six-meter plate chain conveyor through a small chute.

The tail end plate chain conveyor unit 14 adopts a plate chain conveying mode, a blocking mechanism and photoelectric detection are installed at the tail end of the conveying line, and a visual identification system and a code scanning gun are installed above the conveying line. When the iron blocks 15 are detected by photoelectricity, the conveying line stops, the vision system identifies the position information of the iron blocks 15, the code scanning gun scans codes, if the code scanning gun cannot identify the two-dimensional code information, the blocking mechanism ascends, the conveying line starts, and the iron blocks 15NG are discharged to fall into the material frame 8; and if the information of the iron blocks 15 is recognized, the robot grasps the information and stacks the information to a corresponding position.

Six meters plate link chain conveyor sets are plate link chain transport mode, and this transfer chain effect is buffer memory function, increases and carries length, avoids interfering on rear end pile up neatly region and the regional position of groove unloading.

The iron plate pile up neatly part includes robot base, arm and electro-magnet anchor clamps B1301, 4 sections double-deck chain transfer chain 12, 2 sections individual layer transfer chain 11, and has placed 1 material on every layer of transfer chain, total 10 material frames 8, and wherein the individual layer transfer chain 11 of terminal plate link transfer chain rear end is NG ejection of compact line, and this line can be automatic carry material frame 8 to end by artifical the tune away if detecting the full material of material frame 8. Sweep a yard rifle and sweep a yard back to iron plate 15 at the front end, judge which material frame 8 should put into, the robot just snatchs which material frame 8 is put into automatically to iron plate 15, until filling up certain material frame 8 or filling up certain position, the system reports to the police and carries the outside of transfer chain with material frame 8 is automatic, by the manual work with material frame 8 tune away, put new material frame 8, wherein double-deck chain transfer chain 12, the normal pile up neatly of robot piles up when detecting iron plate 15 and putting into upper material frame 8, if detect iron plate 15 when putting into lower floor's material frame 8, upper material frame 8 can reverse migration to the end, then the robot snatchs iron plate 15 and puts into in lower floor's material frame 8.

Based on the technical scheme, the specific working process of the invention is as follows:

1) preparation work: before the system is produced, all the information of the iron blocks 15 is input into the system and stored, and the subsequent vision can identify the iron blocks 15 and match the correct information; the thickness information of the iron block 15 needs to be confirmed before each batch of production, and the production can be started after the thickness information is input into the system before the production.

2) The method comprises the steps that before an iron block 15 which needs to be sorted and is arranged in an iron frame is manually hung to an automatic dumping elevator unit 1, when a hopper 103 of the automatic dumping elevator unit 1 is at the lowest position and is an empty hopper 103, the iron block 15 in the iron frame is manually dumped into the hopper 103, 1 ton of the iron block is dumped into the hopper 103 approximately at one time, if the iron block 15 in the iron frame has 3 tons, the iron block needs to be dumped into the hopper 103 in three times, and after the dumping is completed at one time, the automatic dumping elevator unit 1 is started. The automatic dumping elevator set 1 automatically lifts the hopper 103 with the iron blocks 15 to a high position, then automatically dumps the iron blocks 15 in the hopper 103, falls into the hexagonal deburring machine 2, and the hopper 103 automatically drops to a low position after dumping is completed to wait for manual loading, so that the process is repeated.

3) When the hopper 103 pours the iron block 15 into the hexagonal deburring machine 2, the opening of the deburring machine 2 faces upwards at the moment, the opening door plate 203 is automatically opened by the air cylinder 204, the opening door plate is opened to wait for the iron block 15 to fall into, after receiving a material pouring completion signal, the air cylinder 204 of the deburring machine 2 automatically closes the opening, the deburring machine 2 starts to automatically rotate for deburring, after rotating for a certain time, the deburring machine stops at the position with the opening facing upwards through detection of a sensor, the opening door plate 203 is waited to be opened by the air cylinder 204, after the completion, the deburring machine 2 starts to rotate at a low speed and rotates anticlockwise slowly, the opening rotates downwards slowly, when rotating to a certain position, the iron block 15 in the deburring machine 2 slides out, the slipped-out iron block 15 falls onto the climbing type clapboard unit A, when the iron block completely falls out, the opening faces downwards at the moment, the deburring machine rotates clockwise to the opening facing upwards to wait for the next, thus circulating.

4) When the iron blocks 15 continuously fall into the climbing type partition plate unit A, the partition plate unit is continuously conveyed at the moment, so that the iron blocks 15 are dispersed, and the iron blocks 15 can be lifted to high positions by climbing in batches due to the middle partition plates, conveyed to the tail end and then slide to the pull plate chain conveyor unit 10 through the sliding grooves.

5) The speed of the pull plate chain conveyor unit 10 is at least one time faster than that of a partition plate unit, so that the sliding iron blocks 15 are pulled away quickly to achieve the effect of dispersing the iron blocks 15, some iron blocks 15 can not be dispersed, the stacking phenomenon exists, and the dispersed iron blocks 15 and the non-dispersed iron blocks 15 can fall into the telescopic plate chain conveyor unit 3 after being conveyed to the tail end.

6) The speed of flexible flat link chain conveyor set 3 is unanimous with the speed of pull rate flat link chain conveyor set 10, and flexible flat link chain conveyor set 3 installs in the below of pull rate flat link chain conveyor set 10, and can realize concertina movement, and when iron plate 15 fell into flexible conveyor set on, flexible unit will stretch out and draw back according to certain frequency for carry and to obtain iron plate 15 and fall into different positions, can realize the dispersion of iron plate 15 again like this.

7) Iron plate 15 on the flexible plate chain conveyor unit 3 falls into on the buffer memory lane baffle unit, the direction of delivery of this lane unit is perpendicular with flexible plate chain direction of delivery, consequently, iron plate 15 on the flexible unit has just fallen into the both sides of lane unit and has transported forward, the correlation photoelectricity is installed on terminal skeleton both sides, the correlation height is decided through the board thickness of beginning input, make it detect piling up iron plate 15, the signal transmission who detects gives reposition of redundant personnel plate chain conveyor unit 5, no matter detect to pile up or not detect and pile up, iron plate 15 can all fall into on reposition of redundant personnel plate chain conveyor unit 5 at last.

8) When the shunting plate chain conveyor unit 5 receives a stacked signal, the unit is controlled to descend by the air cylinder 204, the iron blocks 15 are conveyed to the tail end to drop onto the backflow plate chain conveyor unit 4, when the signal is not received, the unit is kept at a high position, the air cylinder 204 is in a jacking state, and the iron blocks 15 at the moment can be conveyed to the truss section plate chain conveyor unit 601.

9) The backward flow plate chain direction of delivery is perpendicular with reposition of redundant personnel plate chain direction of delivery, on detecting that the iron plate 15 that piles up falls into backward flow plate chain unit 4, iron plate 15 is carried the end and falls into the horizontal segment on the climbing formula baffle unit B, the continuous transport of baffle unit this moment, iron plate transport that will fall into promotes to high-order end, slide to the pull speed plate chain conveyor unit 10 along the spout on, realize the dispersion of iron plate 15, form a circulation like this, iron plate 15 that can not disperse can the backward flow circulation, until iron plate 15 dispersion enters into the station of rear end.

10) The scattered iron blocks 15 are conveyed to a truss section plate chain conveyor unit 601, detection photoelectricity is installed at the position, close to the rear, of the unit, the unit which detects that materials are in place stops conveying, a truss robot 603 and an electromagnet clamp A606 are installed above the unit, a vision camera is further installed, the iron blocks 15 which are in place are subjected to vision identification and matched with the models of the iron blocks 15 stored in advance, the position information and the marking information of the iron blocks 15 are quickly identified, the position information is sent to the truss robot 603, and the marking information is sent to a laser marking machine. If the visually recognized information is not matched with the pre-stored information of the iron block 15, the iron block 15 does not perform subsequent laser recording of the two-dimensional code, and other normal transportation is performed.

After receiving the position information of the iron block 15, the truss robot 603 moves the electromagnet clamp B1301A606 to the position above the iron block 15, grabs the iron block 15, moves and places the iron block to a proper position of the burning section plate chain conveyor unit 602, after the completion, the laser marking machine head moves to the position above the iron block 15, finds the proper position to burn the two-dimensional code on the iron block 15, and after the completion, the conveyor unit is started. The burning process is performed on the iron blocks 15 one by one, and the process is repeated.

11) The iron block 15 with the recorded two-dimensional code is conveyed to the tail end and slides into an eight-meter mesh belt conveyor unit 9 through a small sliding groove in a transition mode, an encoder is installed above the eight-meter mesh belt conveyor unit and detects the conveying distance of a mesh belt, a material pushing mechanism 7 is installed above the mesh belt at intervals of 1.5 meters, 4 material pushing mechanisms 7 are arranged in total, photoelectric detection is installed at the material pushing mechanisms 7, 4 corresponding sliding grooves are installed on one side of the conveyor, and 4 material frames 8 are correspondingly arranged below the sliding grooves. The front end visually detects the information of the iron block 15, compares the information of the iron block 15 input into the system, and if the iron block 15 is judged to be required to be pushed into which material frame 8, when the iron block 15 is conveyed to the corresponding material pushing mechanism 7, the photoelectric detection of the iron block 15 causes the conveyor line to stop, the material pushing mechanism 7 pushes the iron block 15 into the corresponding material frame 8, and the finished product which is not required to be pushed into the material frame 8 is conveyed to the tail end and slides onto a six-meter plate chain conveyor through a small chute.

12) The six-meter plate chain conveyor unit conveys the iron blocks 15 to achieve the function of buffer conveying, and the iron blocks 15 are conveyed to the tail end and then slide into the tail end plate chain conveyor unit 14 through the small sliding groove.

13) The end plate chain conveyor is provided with a blocking mechanism at the end position, the air cylinder 204 controls the blocking mechanism to be opened and closed, under the normal condition, the blocking mechanism is in a closed state, a vision camera is further arranged above the unit, when the iron block 15 is conveyed to the blocking position, the conveying is stopped after photoelectric detection, the vision starts to identify the iron block 15, the position information and the variety information of the iron block 15 are rapidly identified, and the information is sent to the robot. When the information of the iron block 15 cannot be identified visually, the blocking mechanism is opened, and the conveyor is started to convey the iron block 15 out.

14) A single-layer chain conveyor A is arranged behind the tail end plate chain conveyor, a large iron block 15 material frame 8 is placed on the single-layer chain conveyor at a position close to the tail end plate chain conveyor, the material frame 8 is specially used for collecting iron blocks 15 which cannot be identified, when the iron blocks 15 are collected to a certain amount, the conveyor is started to convey the material frame 8 to the tail end, the manual travelling crane lifts away the material frame for processing, and a new empty material frame 8 is placed.

15) A single-layer chain conveyor A is arranged behind the tail end plate chain conveyor, a large iron block 15 material frame 8 is placed on the single-layer chain conveyor at a position close to the tail end plate chain conveyor, the material frame 8 is specially used for collecting iron blocks 15 which cannot be identified, when the iron blocks 15 are collected to a certain amount, the conveyor is started to convey the material frame 8 to the tail end, the manual travelling crane lifts away the material frame for processing, and a new empty material frame 8 is placed.

16) End plate chain conveyor one side is pile up neatly partial equipment, and this part includes robot base, robot and electromagnetism iron anchor clamps B1301, 4 double-deck chain transfer chain 12, 1 individual layer chain transfer chain, and the overall arrangement is with robot for central semicircular in shape, and has placed 1 big material frame 8 on every layer of transfer chain, totally 9 material frames 8. After the robot receives the position information and the variety information of the iron blocks 15, the robot automatically moves to the position above the iron blocks 15, the iron blocks 15 are grabbed by the electromagnet clamp B1301, the iron blocks 15 are automatically placed into the iron blocks 8, the iron blocks 15 placed into each material frame 8 are specified in advance and exist in a robot system, so the robot automatically places the iron blocks 15 into the material frames 8 with corresponding models, when the robot is placed in the material frames 8 below the double-layer chain line, the material frames 8 on the upper layer are output to a position farther away from the robot, the robot is prevented from placing the lower layer to interfere with the material frames 8 on the upper layer, after the completion, if the robot needs to place the upper layer next time, the material frames 8 on the upper layer are automatically conveyed to a fixed position close to the robot by the conveyor until a certain material frame 8 is placed or a certain point position is full, the system alarms and automatically conveys the material frames 8 to the outermost side, the material frame 8 is manually adjusted away, and a new material frame 8 is put on.

The whole automatic flow is circulated in this way.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides an automatic material machine that falls of iron plate which characterized by includes:

the lifting unit comprises a support frame, a driving assembly arranged on the support frame and a lifting hopper;

the deburring unit comprises a rotatable roller, the roller is a regular polygon body, and one surface of the roller is provided with an opening;

the climbing type clapboard unit comprises a horizontal starting section and a climbing section inclined at a preset angle, wherein the starting section is positioned right below the roller;

the iron block conveying assembly comprises a pull plate chain conveyor unit, a telescopic plate chain conveyor unit, a buffer lane division plate unit and a shunt plate chain conveyor unit, which are sequentially connected with the tail end of the climbing type partition plate unit.

2. The automatic iron block pouring machine according to claim 1, characterized in that: the driving assembly further comprises a speed reducing motor arranged at the lower part of the supporting frame, and the output end of the speed reducing motor is connected with the first rotating shaft; the upper portion of support frame rotates and is provided with the second pivot, the both ends of first pivot and second pivot all are equipped with the sprocket, cup joint the drive belt of meshing with it between two corresponding sprockets on first pivot and the second pivot.

3. The automatic iron block pouring machine according to claim 2, characterized in that: the hopper comprises an opening space, and one end of the opening space is connected with a guide part; articulated arms are arranged on two side walls of the hopper, the articulated arms are fixedly connected with one side of the transmission belt, and the articulated arms are articulated with the hopper.

4. The automatic iron block pouring machine according to claim 1, characterized in that: the inlet of the deburring machine is butted with the hopper at a preset position; the opening part of the roller is provided with a door plate which can be pushed and pulled.

5. The automatic iron block pouring machine according to claim 1, characterized in that: the climbing type partition plate unit comprises a plurality of middle partition plates which are arranged in parallel and side baffle plates arranged on two sides.

6. The automatic iron block pouring machine according to claim 1, characterized in that: the starting end of the pull plate chain conveyor unit is in butt joint with the tail end of the climbing section of the climbing type clapboard unit, and the conveying speed of the pull plate chain conveyor unit is 2 times or more than that of the climbing type clapboard unit; the iron blocks fall on the telescopic plate chain conveyor unit from the tail end of the pull plate chain conveyor unit; the telescopic plate chain conveyor unit comprises a telescopic plate chain conveying part which is controlled by an air cylinder to do front and back telescopic motion.

7. The automatic iron block pouring machine according to claim 1, characterized in that: the buffer memory lane separator set is divided into two lanes, and two sides of the buffer memory lane separator set are provided with height-adjustable correlation photoelectric sensors; the flow distribution plate chain conveyor unit comprises a flow distribution plate chain conveying part controlled by an air cylinder to move up and down.

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