CN201809410U - Automatic charging device for nonferrous metal tube annealing furnace - Google Patents

Abstract

The utility model discloses an automatic charging device for a nonferrous metal tube annealing furnace, which is characterized by comprising a control system, a conveyor line, a pickup placing device and a transfer device, wherein the conveyor line is arranged on one side of a feeding roller table of the annealing furnace, and the pickup placing device and the transfer device are sequentially arrayed between the conveyor line and the feeding roller table. Besides, the position of a transport component supporting fork in the pickup placing device corresponds to that of a workpiece of the conveyor line, the transport position of the transport component supporting fork after picking up the workpiece corresponds to the position of a bearing component carrier in the transfer device, the transferred position of the bearing component carrier corresponds to the position of the feeding roller table; and the conveyor line, the pickup placing device and the transfer device are respectively connected with the control system. The automatic charging device has the advantages of high automation degree, low production cost, less labor intensity of workers, high labor efficiency and stable product quality.

Description

Automatic loading device for nonferrous metal tube annealing furnace

Technical field

The utility model relates to robot brain tool device, specifically is automatic loading device for nonferrous metal tube annealing furnace.

Background technology

The copper pipe that the non-ferrous metal rolling processing is high-quality, as the sea water desaltination pipe, surface quality requires very strict, and the surfaces externally and internally clean, smooth does not allow defectives such as any scratch, scuffing, knock damage.The production technique of this product is taked to carry out clean annealing after the oil removing usually.The roller-way of annealing furnace is made up of a lot of rollers, the about 1300mm of the length of roller (being the roller-way width), and the wide about 1600mm of roller-way support, the same end of each roller all is equipped with a sprocket wheel, and under the drive of chain, all rollers rotate towards same direction simultaneously.Copper pipe moves with the rotation of roller on roller-way.In order to guarantee annealing evenly, the copper pipe annealing furnace adopts continuous streamline operration, an end continuously feeding, and continuous annealing, the continuous discharging of the other end, roller-way is evenly motion continuously.

At present, manual work is adopted in annealing furnace material loading operation: the bundled transhipment of the copper pipe after the oil removing (dolly fortune or driving are hung) → be stacked in is on the material supplier → artificial divide to pick expect lehr roller road → manually pave in every batch of number → manual material lift (or driving lifting) of advancing furnace annealing.

This mode of production need drop into great amount of manpower, and automatization level is low, production cost is high, and direct labor's labour intensity is big, and efficiency is low.In artificial go-no-go, material lift (lifting), the material loading process that tiles, because of factors such as people's mood, muscle power, attentions, produce knock damage, scuffing, spot sometimes, even copper pipe is curved song, can't guarantee constant product quality.

The utility model content

The purpose of this utility model is at the deficiencies in the prior art, and a kind of level of automation height is provided, production cost is low, direct labor's labour intensity is little, efficiency is high, the automatic loading device for nonferrous metal tube annealing furnace of constant product quality.

The technical scheme that realizes the utility model purpose is as follows:

A kind of automatic loading device for nonferrous metal tube annealing furnace, this device comprises Controlling System, be arranged on the transfer limes of feeding roller table one side of annealing furnace, and tactic apparatus for placing and the transfer device of picking up between this transfer limes and the feeding roller table, the position of the workpiece on described transhipment parts holder fork and the transfer limes that picks up in the apparatus for placing is corresponding, the position of the load bearing component carriage in the position of transporting behind the transhipment parts holder fork picking up work piece and the described transfer device is corresponding, position after the transhipment of load bearing component carriage is corresponding with the position of feeding roller table, described transfer limes, picking up apparatus for placing is connected with Controlling System respectively with transfer device.

Described transfer limes is parallel with the feeding roller table of annealing furnace, by the line slideway contact transfer limes and the transfer device that pick up in the apparatus for placing, one section below that is arranged on load bearing component of line slideway, by contact load bearing component of the circular guide in the transfer device and feeding roller table, one section below that is arranged on feeding roller table of circular guide, line slideway is arranged between load bearing component and the circular guide.

Described transfer limes comprises bracket I, transfer limes variable-frequency motor, reduction box and two groups of chain I, bracket I is provided with sprocket wheel and two groups of chain I are equipped, two groups of chain I be arranged in parallel, be interval with crosspiece between two groups of chain I, each crosspiece is provided with Y shape supporting fork, two groups of chain I are connected with the transfer limes variable-frequency motor by reduction box, and the transfer limes variable-frequency motor is connected with Controlling System.

The described apparatus for placing that picks up comprises bracket I I, holder fork, fork arm, holder fork cylinder, line slideway, slide block, odontoid belt, belt pulley, transmission shaft I and holder fork location servomotor, the output terminal of holder fork cylinder and the middle part of fork arm flexibly connect, the front end of fork arm is provided with the holder fork, rear end and fork arm seat flexibly connect, holder fork cylinder is arranged on the web plate that is connected two slide blocks with the fork arm seat, two slide blocks and line slideway are equipped, the lower surface of web plate is provided with pressure head and odontoid belt connects, and holder fork cylinder is connected with Controlling System; Transmission shaft I locatees the end that servomotor is connected and is arranged on by bearing support bracket I I with the holder fork, initiatively toothed belt wheel is fitted on the turning axle and is connected with transmission shaft I, initiatively toothed belt wheel is connected with the passive toothed belt wheel that is arranged on the bracket I I the other end by odontoid belt, line slideway is arranged on the top that is positioned at odontoid belt on the bracket I I and parallel with odontoid belt, and holder fork location servomotor is connected with Controlling System.

Described transfer device comprises hoisting appliance and slide mechanism, and hoisting appliance connects by being arranged on circular guide on the elevating bracket and the slide block in the slide mechanism.

Described hoisting appliance comprises hydraulic push rod, second stage arm shaft, bearing support, second stage connecting rod, first step arm shaft, connection piece, first step connecting rod, hydraulic push rod, first step master pendulum arm, the first step is from swing arm, the second stage master pendulum arm and the second stage are from swing arm, first step arm shaft is arranged on the base by bearing support, two first step master pendulum arms are set in the stage casing of first step arm shaft, article two, the termination of first step master pendulum arm is connected with an end of two first step connecting rods respectively, hydraulic push rod cylinder body horizontal direction is fixed on the base, be arranged between two first step connecting rods, the expansion link of hydraulic push rod is connected with two first step connecting rods, the two ends of first step arm shaft are provided with the first step respectively from swing arm, article two, the first step is connected with second stage master pendulum arm by second stage connecting rod respectively from swing arm, second stage master pendulum arm is connected with the second stage arm shaft that is arranged on by bearing support on the base, the second stage is set from swing arm on the arm shaft of the second stage, the second stage is connected with elevating bracket by connection piece from swing arm, and the hydraulic push rod motor is connected with Controlling System.

Described slide mechanism is made up of power set and running gear, and the chain II in the power set connects by the slide in connecting plate and the running gear.

Described power set comprises driving toothed gear, passive gear, chain II, carriage mobile motor, motor driving chain, motor sprocket, shaft gear and transmission shaft II, carriage mobile motor, chain II, driving toothed gear and passive gear are arranged on the elevating bracket, the carriage mobile motor is arranged on the elevating bracket by motor cabinet, and the motor sprocket that is provided with on its output revolving shaft is connected with shaft gear on being arranged on rotating shaft by the motor driving chain; Driving toothed gear is separately positioned on the below of circular guide with passive gear and is connected by chain II, driving toothed gear is connected with shaft gear by transmission shaft II, the carriage mobile motor is connected with Controlling System, circular guide is provided with the propelling limit switch near an end of annealing furnace, the other end is provided with and withdraws from limit switch, advances limit switch and withdraws from limit switch and be connected with Controlling System.

Described running gear comprises slide, slide block, carriage and connecting plate, and carriage is arranged on the slide, and slide connects by slide block and circular guide, and connecting plate is arranged on the bottom of slide.

That matches with carriage also comprises decline limit switch and rising limit switch, end near the annealing furnace feeding roller, carriage drops to and is lower than the feeding roller place decline limit switch is set, near transfer limes one end, carriage rises to and is higher than the feeding roller place rising limit switch is set, and the decline limit switch is connected with Controlling System respectively with the rising limit switch.

The automatic loading device for nonferrous metal tube annealing furnace of equipped said structure, when the workpiece of bringing on the transfer limes (being metal tube) arrived prescribed position, photoelectric sensor switch will be sensed, and generation switching value signal passes to the programmable logic controller in the Controlling System;

After programmable logic controller receives this signal, signal and open holder fork magnetic valve, holder fork cylinder is pushed to, and holder fork mechanism lifts, and pipe is taken out from transfer limes;

Servomotor control transmission shaft rotates, and the active toothed belt wheel drives odontoid belt on the transmission shaft, the web plate on the odontoid belt pulling slide block, thereby drive the holder fork and shift to carriage, by the position placement of programmed settings in advance, the holder fork returns, an arm is taken off in preparation, and the programmable logic controller counter adds 1;

When the programmable logic controller counter reaches regulation numerical value, be when putting the pipe of enough specified quantities on the carriage, programmable logic controller starts the carriage mobile motor and just changes, drive transmission shaft by the motor driving chain, a plurality of chain pitch wheels drive many group chain II pulling carriages and shift to the annealing furnace feeding roller table on the transmission shaft;

Advancing limit switch to detect carriage advances when putting in place, motor stops, the then motor of hydraulic push rod counter-rotating, the hydraulic push rod indentation, by two groups of connecting rods and a plurality of swing arm, the hydraulic push rod level moved right be delivered to many places and change into vertically downward motion, driven bracket descends, the roller that rolls that workpiece is annealed on the feeding roller table of stove is held, and breaks away from carriage;

The decline limit switch detects carriage and descends when putting (being lower than feeding roller) in place, starts the counter-rotating of carriage mobile motor, drives transmission shaft by the motor driving chain, and a plurality of chain pitch wheels drive many group chain II pulling carriages and leave the annealing furnace feeding roller table on the transmission shaft;

Withdrawing from limit switch detection carriage withdraws from when putting in place, the carriage mobile motor stops, then the motor of hydraulic push rod just changes, hydraulic push rod stretches out, and by two groups of connecting rods and a plurality of swing arm, the hydraulic push rod level is delivered to many places and changes into vertical ascending motion to left movement, driven bracket rises, carriage rising limit switch detects carriage and rises when putting (being higher than feeding roller) in place, and the motor of hydraulic push rod stops, and locking tray can not fall naturally;

Wait for the next batch workpiece.

The utility model has the advantages that the level of automation height, production cost is low, labor strength is little, efficiency is high, constant product quality.

Description of drawings

Fig. 1 is the utility model and annealing furnace and the equipped synoptic diagram that concerns of feeding roller table thereof;

Fig. 2 is the A-A view of Fig. 1, picks up the equipped structural representation of apparatus for placing and transfer device;

Fig. 3 picks up apparatus for placing plan structure synoptic diagram for the utility model;

Fig. 4 looks synoptic diagram for the master of Fig. 3;

Fig. 5 is the A-A view of Fig. 4;

Fig. 6 is the hoisting appliance plan structure synoptic diagram in the utility model transfer device;

Fig. 7 looks synoptic diagram for the master of Fig. 6;

Fig. 8 is the slide mechanism plan structure synoptic diagram in the utility model transfer device;

Fig. 9 looks synoptic diagram for the master of Fig. 8;

Figure 10 looks synoptic diagram for the left side of Fig. 9;

Figure 11 is a Controlling System block diagram of the present utility model.

Embodiment

Below in conjunction with drawings and Examples the utility model content is done further indefiniteness explanation.

Embodiment:

With reference to Fig. 1 Fig. 2, a kind of automatic loading device for nonferrous metal tube annealing furnace of the utility model, this device comprises Controlling System, be arranged on the transfer limes of feeding roller table one side of annealing furnace, and tactic apparatus for placing and the transfer device of picking up between this transfer limes and the feeding roller table, the position of the workpiece on described transhipment parts holder fork 701 and the transfer limes that picks up in the apparatus for placing is corresponding, it is corresponding that the position of the load bearing component carriage 503 in the position transported behind 701 picking up work piece and the described transfer device is pitched in transhipment parts holder, position after 503 transhipments of load bearing component carriage is corresponding with the position of feeding roller table, described transfer limes, picking up apparatus for placing is connected with Controlling System respectively with transfer device.

Feeding roller 901 is arranged on the feeding roller table support 902 and forms feeding roller table, transfer limes is parallel with feeding roller table, by line slideway 605 contact transfer limes and the transfer devices that pick up in the apparatus for placing, one section below that is arranged on load bearing component of line slideway 605, by 302 contact load bearing component and the feeding roller tables of the circular guide in the transfer device, one section below that is arranged on feeding roller table of circular guide 302, line slideway 605 is arranged between load bearing component and the circular guide 302.

Transfer limes comprises bracket I 801, transfer limes variable-frequency motor 806, reduction box 807 and two groups of chain I 803, on bracket I 801, be provided with sprocket wheel 802 and two groups of chain I 803 are equipped, two groups of chain I 803 be arranged in parallel, be interval with crosspiece 804 between two groups of chain I 803, each crosspiece 804 is provided with a supporting fork 805, two groups of chain I 803 are connected with transfer limes variable-frequency motor 806 by reduction box 807, and transfer limes variable-frequency motor 806 is connected with conveying motor frequency conversion device in the Controlling System.

Supporting fork 805 is a Y shape.

With reference to Fig. 2～Fig. 5, pick up apparatus for placing and comprise bracket I I 604, holder fork 701, fork arm, holder fork cylinder 702, line slideway 605, slide block 606, odontoid belt 603, belt pulley, transmission shaft I and holder fork location servomotor 611, transhipment parts in this example are holder fork 701, the middle part of holder fork cylinder 702 output terminals and fork arm flexibly connects, the front end of fork arm is provided with holder fork 701, rear end and fork arm seat 703 flexibly connect, holder fork cylinder 702 is arranged on the web plate 607 that is connected two slide blocks 606 with fork arm seat 703, two slide blocks 606 are equipped with line slideway 605, the lower surface of web plate 607 is provided with pressure head 608 and connects with odontoid belt 603, and holder fork cylinder 702 is connected with source of the gas.

Transmission shaft I locatees the end that servomotor 611 is connected and is arranged on by bearing support 609 bracket I I 604 with the holder fork, initiatively toothed belt wheel 601 is fitted on the turning axle and is connected with transmission shaft I, initiatively toothed belt wheel 601 is connected with the passive toothed belt wheel 602 that is arranged on bracket I I 604 the other ends by odontoid belt 603, line slideway 605 is arranged on the top that is positioned at odontoid belt 603 on the bracket I I 604 and parallel with odontoid belt 603, and holder fork location servomotor 611 is connected with motor servo driver in the Controlling System.

With reference to Fig. 3 Fig. 4, workpiece 001 is a long strip shape, therefore need at least two identical apparatus for placing that pick up to work asynchronously and finish picking up and placing to workpiece 001, a plurality of apparatus for placing that pick up are connected with adjacent turning axle by coupling shaft 610, and each line slideway 605 that picks up in the placement is arranged in parallel.

With reference to Fig. 2, Fig. 6～Figure 10, transfer device comprises hoisting appliance and slide mechanism, and hoisting appliance connects with slide block 502 in the slide mechanism by the circular guide 302 that is arranged on the elevating bracket 301.

With reference to Fig. 2, Fig. 6, Fig. 7, hoisting appliance is installed on the base 101, hoisting appliance is by the hydraulic push rod 207 that produces lifting power, two-stage connecting rod and two-stage swing arm transmission shaft are formed, hydraulic push rod 207 cylinder body horizontal directions are fixed on the base 101, and the swing arm transmission shaft is installed on the base 101 by bearing support 202.Hydraulic push rod 207 flexible first step connecting rod 206 horizontal motion that drive, first step connecting rod 206 connects first step master pendulum arm 208, and two homophases at first step arm shaft 204 two ends connect two-way second stage connecting rod 203 horizontal motion respectively from swing arm.On two-way second stage connecting rod 203, be associated with the second stage master pendulum arm 210 of several second stage arm shafts 201, level pulling connecting rod is from swing arm pendulum upwards, promote connecting rod from swing arm to the bottom.The second stage of second stage arm shaft 201 connects the elevating bracket 301 of shears 503 by connection piece 205 from swing arm 211.When the expansion link 212 of hydraulic push rod 207 stretched out, elevating bracket 301 rose, and when expansion link 212 indentations, elevating bracket 301 descends; Elevating bracket 301 links by connection piece 205 and hoisting appliance, parallel some the circular guides 302 that are equipped with on the elevating bracket 301, and the carriage of installing by slide block 502 503 can slide into the feeding roller table that skids off annealing furnace 903 on circular guide 302.

Particularly, hoisting appliance comprises hydraulic push rod 207, second stage arm shaft 201, bearing support 202, second stage connecting rod 203, first step arm shaft 204, connection piece 205, first step connecting rod 206, hydraulic push rod 207, first step master pendulum arm 208, the first step is from swing arm 209, the second stage master pendulum arm 210 and the second stage are from swing arm 211, first step arm shaft 204 is arranged on the base 101 by bearing support 202, two first step master pendulum arms 208 are set in the stage casing of first step arm shaft 204, article two, the termination of first step master pendulum arm 208 is connected with an end of two first step connecting rods 206 respectively, hydraulic push rod 207 cylinder body horizontal directions are fixed on the base 101, be arranged between two first step connecting rods 206, the expansion link 212 of hydraulic push rod 207 is connected with two first step connecting rods 206, the two ends of first step arm shaft 204 are provided with the first step respectively from swing arm 209, article two, the first step is connected with second stage master pendulum arm 210 by second stage connecting rod 203 respectively from swing arm 209, second stage master pendulum arm 210 is connected with the second stage arm shaft 201 that is arranged on the base 101 by bearing support 202, the second stage is set from swing arm 211 on the second stage arm shaft 201, the second stage is connected with elevating bracket 301 by connection piece 205 from swing arm 211, and hydraulic push rod 207 motors are connected with Controlling System.

With reference to Fig. 8～Figure 10, slide mechanism is made up of power set and running gear, and the chain II 403 in the power set connects by the slide 501 in connecting plate 504 and the running gear.

Power set comprises driving toothed gear 401, passive gear 402, chain II 403, carriage mobile motor 405, motor driving chain 407, motor sprocket 408, shaft gear 409 and transmission shaft II 410, carriage mobile motor 405, chain II 403, driving toothed gear 401 and passive gear 402 are arranged on the elevating bracket 301 by bearing 404 respectively, carriage mobile motor 405 is arranged on the elevating bracket 301 by motor cabinet 406, and the motor sprocket 408 that is provided with on its output revolving shaft is connected with shaft gear 409 on being arranged on rotating shaft by motor driving chain 407; Driving toothed gear 401 is separately positioned on the below of circular guide 302 with passive gear 402 and is connected by chain II 403, driving toothed gear 401 is connected with shaft gear 409 by transmission shaft II 410, carriage mobile motor 405 is connected with Controlling System, circular guide 302 is provided with the propelling limit switch near an end of annealing furnace 903, and the other end is provided with and withdraws from limit switch.

Running gear comprises slide 501, slide block 502, carriage 503 and connecting plate 504, load bearing component in this example is a carriage 503, carriage 503 is arranged on the slide 501, slide 501 connects by slide block 502 and circular guide 302, slide 501 connects with chain II 403 by the connecting plate 504 that is arranged on its bottom, and carriage 503 can be provided with a plurality of according to producing needs.

That matches with carriage 503 also comprises decline limit switch and rising limit switch, end near annealing furnace feeding roller 901, carriage 503 drops to and is lower than feeding roller 901 places the decline limit switch is set, near transfer limes one end, carriage 503 rises to and is higher than feeding roller 901 places the rising limit switch is set, and the decline limit switch is connected with Controlling System respectively with the rising limit switch.

Figure 11 shows that the square frame connection diagram of Controlling System; Controlling System comprises programmable logic controller (PLC) and connected transformer I; photoelectric sensor switch; on-the-spot button box; the display screen operation push-button; the rising limit switch; the decline limit switch; advance limit switch and move back limit switch; transformer I is connected with the display screen operation push-button by switch power supply; carry the motor frequency conversion device; carriage advances contactor; carriage is pulled out contactor; the carriage contactor for hoisting; carriage decline contactor; motor servo driver is connected with programmable logic controller by rly. respectively with holder fork magnetic valve; carry the motor frequency conversion device; carriage advances contactor and carriage to pull out contactor; carriage contactor for hoisting and carriage decline contactor; motor servo driver and holder fork magnetic valve are connected with power supply by protection switch respectively; the protection switch that is connected with motor servo driver is connected with power supply by transformer II; carry the motor frequency conversion device to be connected with transfer limes variable-frequency motor 806; carriage propelling contactor is pulled out contactor with carriage and is connected with carriage mobile motor 405; the carriage contactor for hoisting is connected with the motor of hydraulic push rod 207 with carriage decline contactor; motor servo driver is connected with holder fork location servomotor 611; holder fork magnetic valve is connected with stopping valve, and holder fork cylinder 702 is connected with source of the gas by stopping valve.

Working process of the present utility model is summarized as follows:

1, when the workpiece of bringing on the transfer limes 001 arrives prescribed position, photoelectric sensor switch generation switching value signal passes to the programmable logic controller in the Controlling System, and the programmable logic controller output signal stops transfer limes variable-frequency motor 806;

2, programmable logic controller signals and opens holder fork magnetic valve, and holder fork cylinder 702 is pushed to, and holder fork 701 is picked up workpiece 001 is taken out from the supporting fork 805 on the transfer limes;

3, servomotor 611 control holder forks 701 in holder fork location are shifted to carriage 503, by the position placement of programmed settings in advance, holder fork cylinder 702 is downward, holder fork 701 is placed on workpiece 001 on the carriage 503, servomotor 611 control holder forks 701 in holder fork location return then, prepare to take off a workpiece, and the programmable logic controller counter adds 1, so repeatedly, workpiece 001 proper alignment is on carriage 503;

4, reach regulation numerical value when the programmable logic controller counter, be when putting the workpiece of enough specified quantities on the carriage 503, programmable logic controller starts carriage mobile motor 405 and is just changeing, drive transmission shaft 410 by motor driving chain 407, a plurality of chain pitch wheels drive many group chain II 403 pulling carriages 503 and shift to annealing furnace 903 feeding roller tables on the transmission shaft 410;

5, advancing limit switch to detect carriage 503 advances when putting (top that arrives feeding roller table) in place, carriage mobile motor 405 stops, and locking tray 503 does not allow and moves forward and backward, then expansion link 212 indentations of hydraulic push rod 207, driven bracket 503 descends, and workpiece is annealed stove feeding roller 901 and holds;

6, decline limit switch detection carriage 503 descends when putting (being lower than feeding roller table) in place, start 405 counter-rotatings of carriage mobile motor, drive transmission shaft 410 by motor driving chain 407, a plurality of chain pitch wheels drive many group chain II 403 pulling carriages 503 and leave annealing furnace 903 loading bays on the transmission shaft 410;

7, withdraw from limit switch detection carriage 503 and withdraw from when putting in place, carriage mobile motor 405 stops, and locking tray 503 does not allow and moves forward and backward;

8, the expansion link 212 of hydraulic push rod 207 stretches out driven bracket 503 risings, and the rising limit switch detects carriage 503 and rises when putting (being higher than feeding roller table) in place, and hydraulic push rod 207 stops, and waits for the next batch workpiece.

Claims (10)

1. automatic loading device for nonferrous metal tube annealing furnace, it is characterized in that: this device comprises Controlling System, be arranged on the transfer limes of feeding roller table one side of annealing furnace, and tactic apparatus for placing and the transfer device of picking up between this transfer limes and the feeding roller table, the position of the workpiece on described transhipment parts holder fork (701) and the transfer limes that picks up in the apparatus for placing is corresponding, the position of the load bearing component carriage (503) in the position of transporting behind transhipment parts holder fork (701) picking up work piece and the described transfer device is corresponding, position after load bearing component carriage (503) transhipment is corresponding with the position of feeding roller table, described transfer limes, picking up apparatus for placing is connected with Controlling System respectively with transfer device.

2. automatic charging device according to claim 1, it is characterized in that: described transfer limes is parallel with the feeding roller table of annealing furnace, by line slideway (605) the contact transfer limes and the transfer device that pick up in the apparatus for placing, one section below that is arranged on load bearing component of line slideway (605), by the circular guide in the transfer device (302) contact load bearing component and feeding roller table, one section below that is arranged on feeding roller table of circular guide (302), line slideway (605) are arranged between load bearing component and the circular guide (302).

3. automatic charging device according to claim 1 and 2, it is characterized in that: described transfer limes comprises bracket I (801), transfer limes variable-frequency motor (806), reduction box (807) and two groups of chain I (803), it is equipped with two groups of chain I (803) that bracket I (801) is provided with sprocket wheel (802), two groups of chain I (803) be arranged in parallel, be interval with crosspiece (804) between two groups of chain I (803), each crosspiece (804) is provided with Y shape supporting fork (805), two groups of chain I (803) are connected with transfer limes variable-frequency motor (806) by reduction box (807), and transfer limes variable-frequency motor (806) is connected with Controlling System.

4. automatic charging device according to claim 1, it is characterized in that: the described apparatus for placing that picks up comprises bracket I I (604), holder fork (701), fork arm, holder fork cylinder (702), line slideway (605), slide block (606), odontoid belt (603), belt pulley, transmission shaft I and holder fork location servomotor (611), the output terminal of holder fork cylinder (702) and the middle part of fork arm flexibly connect, the front end of fork arm is provided with holder fork (701), rear end and fork arm seat (703) flexibly connect, holder fork cylinder (702) is arranged on the web plate (607) that is connected two slide blocks (606) with fork arm seat (703), two slide blocks (606) are equipped with line slideway (605), the lower surface of web plate (607) is provided with pressure head (608) and connects with odontoid belt (603), and holder fork cylinder (702) is connected with Controlling System; Transmission shaft I locatees the end that servomotor (611) is connected and is arranged on by bearing support (609) bracket I I (604) with the holder fork, initiatively toothed belt wheel (601) is fitted on the turning axle and is connected with transmission shaft I, initiatively toothed belt wheel (601) is connected with the passive toothed belt wheel (602) that is arranged on bracket I I (604) the other end by odontoid belt (603), line slideway (605) is arranged on the top that is positioned at odontoid belt (603) on the bracket I I (604) and parallel with odontoid belt (603), and holder fork location servomotor (611) is connected with Controlling System.

5. automatic charging device according to claim 1 is characterized in that: described transfer device comprises hoisting appliance and slide mechanism, and hoisting appliance connects by the slide block (502) that is arranged in circular guide (302) and the slide mechanism on the elevating bracket (301).

6. automatic charging device according to claim 5, it is characterized in that: described hoisting appliance comprises hydraulic push rod (207), second stage arm shaft (201), bearing support (202), second stage connecting rod (203), first step arm shaft (204), connection piece (205), first step connecting rod (206), hydraulic push rod (207), first step master pendulum arm (208), the first step is from swing arm (209), the second stage master pendulum arm (210) and the second stage are from swing arm (211), first step arm shaft (204) is arranged on the base (101) by bearing support (202), in the stage casing of first step arm shaft (204) two first step master pendulum arms (208) are set, article two, the termination of first step master pendulum arm (208) is connected with an end of two first step connecting rods (206) respectively, hydraulic push rod (207) cylinder body horizontal direction is fixed on the base (101), be arranged between two first step connecting rods (206), the expansion link (212) of hydraulic push rod (207) is connected with two first step connecting rods (206), the two ends of first step arm shaft (204) are provided with the first step respectively from swing arm (209), article two, the first step is connected with second stage master pendulum arm (210) by second stage connecting rod (203) respectively from swing arm (209), second stage master pendulum arm (210) is connected with the second stage arm shaft (201) that is arranged on the base (101) by bearing support (202), the second stage is set from swing arm (211) on the second stage arm shaft (201), the second stage is connected with elevating bracket (301) by connection piece (205) from swing arm (211), and hydraulic push rod (207) motor is connected with Controlling System.

7. automatic charging device according to claim 5 is characterized in that: described slide mechanism is made up of power set and running gear, and the chain II (403) in the power set connects by the slide (501) in connecting plate (504) and the running gear.

8. automatic charging device according to claim 7, it is characterized in that: described power set comprises driving toothed gear (401), passive gear (402), chain II (403), carriage mobile motor (405), motor driving chain (407), motor sprocket (408), shaft gear (409) and transmission shaft II (410), carriage mobile motor (405), chain II (403), driving toothed gear (401) and passive gear (402) are arranged on the elevating bracket (301), carriage mobile motor (405) is arranged on the elevating bracket (301) by motor cabinet (406), and the motor sprocket that is provided with on its output revolving shaft (408) is connected with shaft gear (409) on being arranged on rotating shaft by motor driving chain (407); Driving toothed gear (401) is separately positioned on the below of circular guide (302) with passive gear (402) and is connected by chain II (403), driving toothed gear (401) is connected with shaft gear (409) by transmission shaft II (410), carriage mobile motor (405) is connected with Controlling System, circular guide (302) is provided with the propelling limit switch near an end of annealing furnace (903), the other end is provided with and withdraws from limit switch, advances limit switch and withdraws from limit switch and be connected with Controlling System.

9. automatic charging device according to claim 7, it is characterized in that: described running gear comprises slide (501), slide block (502), carriage (503) and connecting plate (504), carriage (503) is arranged on the slide (501), slide (501) connects by slide block (502) and circular guide (302), and connecting plate (504) is arranged on the bottom of slide (501).

10. automatic charging device according to claim 9, it is characterized in that: that matches with carriage (503) also comprises decline limit switch and rising limit switch, end near annealing furnace feeding roller (901), carriage (503) drops to and is lower than feeding roller (901) and locates to be provided with the decline limit switch, near transfer limes one end, carriage (503) rises to and is higher than feeding roller (901) and locates to be provided with the rising limit switch, and the decline limit switch is connected with Controlling System respectively with the rising limit switch.

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