CN112247241A

CN112247241A - Mechanical automatic processing device for chain

Info

Publication number: CN112247241A
Application number: CN202011067519.3A
Authority: CN
Inventors: 沈古震
Original assignee: Individual
Current assignee: Jiangsu Songtian Electronic Technology Co ltd
Priority date: 2020-10-06
Filing date: 2020-10-06
Publication date: 2021-01-22
Anticipated expiration: 2040-10-06
Also published as: CN112247241B

Abstract

The invention discloses a mechanical automatic processing device of a chain, belonging to the field of chain processing, comprising a shearing table, wherein the top end of the shearing table is fixedly provided with two propelling guide rails, a sliding block is arranged on the propelling guide rail and is connected with the propelling guide rail in a sliding way, a sliding table is fixedly arranged at the top ends of the two sliding blocks together, a vertical plate is fixedly arranged at the top end of the sliding table, two shaft seats are fixedly arranged on one side of the vertical plate, and the top end of the shaft seat is provided with a cutting disc which is rotationally connected with the shaft seat, the two cutting discs are connected through a fretsaw, one of the cutting disks is installed on the output end of the cutting motor, the output end of the cutting motor penetrates through one of the shaft seats and is fixedly connected with the cutting disk, an elastic sheet is fixedly installed on one side of the vertical plate, a ball head is installed at the output end of the propelling cylinder, and a ball shell matched with the ball head is arranged on one side of the propelling sliding block. The invention can automatically and mechanically treat the waste chains.

Description

Mechanical automatic processing device for chain

Technical Field

The invention relates to the field of chain processing, in particular to a mechanical automatic processing device for a chain.

Background

With the development of industrial technology, modern mechanical industrial technology develops more and more perfectly, so that a chain or a belt is required to transmit power in the aspect of mechanical transmission, the belt transmission can be conveniently detached, but the belt and a roller are easy to slide during the belt transmission, relative motion is easy to generate between two transmission wheels, if linkage is required to be kept between the two transmission wheels, the chain is required to be used for transmission, and when the chain is in transmission, the two transmission wheels synchronously run, so that deviation is not easy to occur; the chain is made of metal, so that the chain needs to be replaced with a new chain after long-term use, the waste chain is difficult to process, the waste chain is difficult to recycle, the maintenance cost is even higher than that of purchasing a new chain, the waste chain needs to be processed, and the waste processing of the chain is not mechanically automated.

Disclosure of Invention

The invention aims to provide a mechanical automatic processing device of a chain, which aims to overcome the defects of the prior art, when the device is used, a waste chain penetrates through a square pipe, then a finger clamping cylinder clamps the end of the chain, a pull-down cylinder drives the finger clamping cylinder and the end of the chain to move downwards for a certain distance, then a locking cylinder locks the other end of the chain, a cutting motor drives a wire saw to operate, a pushing cylinder drives a vertical plate to advance forwards until the wire saw contacts the chain, the automatic cutting function is realized, then chopped chain fragments fall into a bin, an alternating current is supplied to a spiral coil, metal materials in the bin can be melted, an opening and closing cylinder drives a rotating plate to twist, and then metal liquid falls into a cooling bin, so that the function of automatically processing the waste chain is realized.

In order to solve the above problems, the present invention provides the following technical solutions: a mechanical automatic processing device of a chain comprises a shearing table, wherein two pushing guide rails are fixedly mounted at the top end of the shearing table, sliding blocks are mounted on the pushing guide rails and are in sliding connection with the pushing guide rails, a sliding table is fixedly mounted at the top ends of the two sliding blocks together, a vertical plate is fixedly mounted at the top end of the sliding table, two shaft seats are fixedly mounted on one side of the vertical plate, cutting discs are mounted at the top ends of the shaft seats and are in rotating connection with the shaft seats, the two cutting discs are connected with each other through a wire saw, one cutting disc is mounted at the output end of a cutting motor, the output end of the cutting motor penetrates through one shaft seat and is fixedly connected with the cutting disc, a spring plate is fixedly mounted on one side of the vertical plate and is attached to one side of the wire saw, a pushing slide block is mounted on the other side of the vertical, the propelling device comprises a propelling sliding block, a propelling cylinder, a fixing block, a ball head, a ball shell matched with the ball head, and a vertical plate, wherein the propelling sliding block is connected with the rectangular groove on one side of the vertical plate in a sliding manner, the propelling cylinder is installed on one side of the propelling sliding block, the fixing block is arranged at the bottom end of the propelling cylinder, the fixing block is fixedly connected with the top surface of the shearing table, the ball head is installed at the output end of the propelling cylinder, the ball.

Further, one side fixed mounting of riser has the square pole, and one side of square pole is provided with square pipe, and the top of square pole is provided with the fixed pulley, one side fixed mounting of square pole has the locking cylinder, and the block rubber is installed to the output of locking cylinder, the side of the side laminating square pole of block rubber, the below fixed mounting of square pole has drop-down cylinder, and the clamp indicates the cylinder is installed to drop-down cylinder's output, and the fixing base is installed to the bottom of square pole.

Further, the below fixed mounting of shearing platform has the feed bin, and the outside winding of feed bin has spiral coil, and two ends of spiral coil are provided with the connection end, and the one end of connecting the end all is connected with one side of alternating current fishplate bar, and the bottom of feed bin is provided with the unloading pipe.

Further, the rotor plate is installed to the inboard of unloading pipe, the centre of rotor plate is provided with the interlude pole, interlude pole and unloading pipe swivelling joint, be provided with on the unloading pipe with interlude pole assorted trompil, the one end of interlude pole is provided with the bending arm, the cylinder that opens and shuts is installed to the bottom of shearing platform, the one end of the cylinder that opens and shuts is provided with fixed articulated piece, fixed articulated piece is articulated with the cylinder that opens and shuts, the bottom fixed connection of fixed articulated piece and shearing platform, the output pipe box is installed to the output of the cylinder that opens and shuts, output pipe box and bending arm swivelling joint.

Further, fixed guide rail is fixedly mounted below the feed bin, fixed guide rail is provided with two, and the last slip table that installs of fixed guide rail, slip table and fixed guide rail sliding connection, the cooling bin is installed on the top of slip table, and the centre in cooling bin is provided with the shrink block, and the bottom of fortune platform is provided with two shrink cylinders, and the output of shrink cylinder passes fortune platform and shrink block connection.

Further, one side fixed mounting of fortune microscope carrier has the plane axle bed, and the bottom of plane axle bed installs the toothed disc, toothed disc and plane axle bed swivelling joint, and reduction gear is installed to one side of toothed disc, and reduction gear and toothed disc intermeshing, reduction gear install on gear motor's output, and reduction motor fixed mounting, toothed disc's bottom are provided with notch frame, and the bottom of fortune microscope carrier is provided with the ejector beam, and the ejector beam alternates in the inboard of notch frame, ejector beam and notch frame sliding connection.

Further, one side of fortune platform is provided with the elevating platform, and the bottom of elevating platform is provided with the centre gripping subassembly, and the centre gripping subassembly includes double-end cylinder, and the output pole of buckling is all installed to two output of double-end cylinder, is provided with the flange on the output pole of buckling, and the spring is installed to one side of flange, the other end and the double-end cylinder fixed connection of spring, and the bottom fixed mounting of the output pole of buckling has the arc piece.

Further, the top fixed mounting of elevating platform has hydraulic cylinder, and the lift output pole is installed to hydraulic cylinder's output, the bottom of lift output pole and the top surface fixed connection of elevating platform, and the diaphragm is installed to hydraulic cylinder's bottom, and the both ends of diaphragm all are provided with the pipe box, and the top of elevating platform is provided with and the vertical pole of pipe box assorted, and vertical pole alternates in the inboard of pipe box, vertical pole and pipe box sliding connection, one side of shearing station and hydraulic cylinder assorted reservation mouth.

The invention has the beneficial effects that:

one of them, the device is when using, wear out old and useless chain from square pipe, then press from both sides the end that indicates the cylinder to carry the chain, drop-down cylinder drives and presss from both sides and indicates cylinder and chain end displacement one section distance downwards, then the locking cylinder pins the other end of chain, the cutting motor drives the coping saw operation, it drives the riser and impels forward until coping saw contact chain so to impel the cylinder, the function of automatic cutout has been realized, then the garrulous chain fragment can fall into the feed bin, put through the alternating current for helical coil, the metal material in the feed bin can be by the hot melt so, the cylinder that opens and shuts can drive the rotor plate and twist reverse, then the metal liquid can fall into the cooling bin, the function of automatic processing old and useless chain has been realized.

Two, gear motor passes through reduction gear and drives the toothed disc motion, the toothed disc passes through notch frame drive transport microscope carrier reciprocating motion, the below that the liquid outlet can be arrived in turn to the cooling bin on delivery platform top so, the automatic station of changing of being convenient for, the shrink piece in the feed bin that the cooling is good can the lapse, so two arc pieces of centre gripping subassembly can inject in refrigerated annular iron, two outputs of double-end cylinder stretch and drive the arc piece and fall into the material, hydraulic cylinder drives the material and proposes, the function of automatic discharging has been realized.

Drawings

Fig. 1 is a front view of a mechanical automated processing unit for chains.

FIG. 2 is a schematic side view of a mechanical automated processing unit for chains.

Fig. 3 is a schematic cross-sectional view of a mechanical automated processing unit for chains.

FIG. 4 is a schematic view of a mechanical automated processing unit shear table of the chain.

FIG. 5 is a schematic view of a second perspective of the cutting station of the automated mechanical handling unit for chains.

Fig. 6 is a schematic view of an opening and closing cylinder of the mechanical automatic processing device of the chain.

FIG. 7 is a schematic bottom view of the carrier stage of the automated mechanical processing unit for chains.

FIG. 8 is a schematic view of a mechanical automated processing unit clamping assembly for a chain.

Description of reference numerals:

1-a shearing table, 101-a square tube, 102-a square rod, 103-a fixed pulley, 104-a fixed seat, 105-a pushing guide rail, 106-a reserved opening, 107-a locking cylinder, 108-a rubber block, 109-a pull-down cylinder, 110-a clamping finger cylinder, 111-a sliding block, 112-a sliding table, 2-a lifting table, 201-a lifting hydraulic cylinder, 202-a transverse plate, 203-a pipe sleeve, 204-a vertical round rod, 205-a lifting output rod, 3-a conveying table, 301-a contraction cylinder, 302-a pushing rod, 4-a spiral coil, 401-a storage bin, 402-an alternating current electric connecting plate, 403-a connecting end, 404-a blanking round tube, 5-a fixed guide rail, 6-a sliding table, 7-a cooling bin and 701-a contraction block, 8-plane shaft seat, 801-gear disc, 802-reduction gear, 803-reduction motor, 804-notch frame, 9-clamping assembly, 901-double-head cylinder, 902-bending output rod, 903-flange, 904-arc block, 905-spring, 10-opening and closing cylinder, 1001-fixed hinge block, 1002-output pipe sleeve, 1003-bending arm, 1004-rotating plate, 1005-inserting rod, 11-vertical plate, 12-pushing sliding block, 1201-spherical shell, 13-pushing cylinder, 1301-fixed block, 1302-ball head, 14-shaft seat, 15-cutting motor, 16-cutting disc, 17-wire saw and 18-elastic sheet.

Detailed Description

Referring to fig. 1 to 8, a mechanical automatic processing device for a chain, for example, a mechanical automatic processing device for a waste chain, includes a cutting table 1, two pushing guide rails 105 are fixedly installed at a top end of the cutting table 1, each pushing guide rail 105 is installed with a sliding block 111, the sliding block 111 is slidably connected with the pushing guide rail 105, top ends of the two sliding blocks 111 are jointly and fixedly installed with a sliding table 112, a top end of the sliding table 112 is fixedly installed with a vertical plate 11, one side of the vertical plate 11 is fixedly installed with two shaft seats 14, the two shaft seats 14 are respectively located at two opposite ends of the vertical plate 11, and a top end of each shaft seat 14 is installed with a cutting disc 16, the cutting disc 16 is rotatably connected with the shaft seat 14, the two cutting discs 16 are connected by a wire saw 17, one cutting disc 16 is installed at an output end of a cutting motor 15, an output end of the cutting motor 15 passes through one shaft seat 14 and is, an elastic sheet 18 is fixedly mounted on one side of the vertical plate 11 and located between the two shaft seats 14, the elastic sheet 18 is attached to one side of the wire saw 17, a pushing sliding block 12 is mounted on one side, away from the elastic sheet, of the vertical plate 11, a rectangular groove matched with the pushing sliding block 12 is concavely arranged on the vertical plate 11, the pushing sliding block 12 is in sliding connection with the rectangular groove of the vertical plate 11, a pushing cylinder 13 is mounted on one side of the pushing sliding block 12, a fixing block 1301 is arranged at the bottom end of the pushing cylinder 13, the fixing block 1301 is fixedly connected with the top surface of the shearing table 1, a ball head 1302 is mounted at the output end of the pushing cylinder 13, a ball shell 1201 matched with the ball head 1302 is arranged on one side of. Because the fixed block is fixedly connected, the propulsion cylinder 13 cannot rotate, the output end of the propulsion cylinder 13 stretches to drive the vertical plate 11 to propel forwards, the propulsion sliding block 12 slides up and down in the rectangular groove on one side of the vertical plate 11 at the moment, the cutting motor 15 drives the wire saw 17 to operate through the cutting disc 16, the wire saw 17 propels forwards while operating, automatic cutting is facilitated, labor cost is saved, and safety is improved.

A square rod 102 is fixedly mounted on one side of the vertical plate 11, a square tube 101 is arranged on one side of the square rod 102, a fixed pulley 103 is arranged at the top end of the square rod 102, a locking cylinder 107 is fixedly mounted on one side of the square rod 102, a rubber block 108 is mounted at the output end of the locking cylinder 107, the side face of the rubber block 108 is attached to the side face of the square rod 102, a pull-down cylinder 109 is fixedly mounted below the square rod 102, a clamping finger cylinder 110 is mounted at the output end of the pull-down cylinder 109, a fixing seat 104 is mounted at the bottom end of the square rod 102, a chain to be processed is placed in the square tube 101, then the clamping finger cylinder 110 can clamp the end of the chain, the pull-down cylinder 109 can drive the clamping finger cylinder 110 and the chain to move downwards for a certain distance, then the rubber block 108 at the output end of the locking cylinder 107 can press the chain to realize the function of.

Shearing table 1's below fixed mounting has feed bin 4, and the outside winding of feed bin 4 has spiral coil 401, and two ends of spiral coil 401 are provided with connection end 403 respectively, and two connection ends are connected respectively alternating current fishplate bar 402's relative both ends, and the bottom of feed bin 4 is provided with unloading pipe 404, and feed bin 4 can be fallen into to the garrulous chain, gives spiral coil 401 and last alternating current, and the metal material in the feed bin 4 can be melted. For example, in one embodiment, the magazine 4 is provided with a metal melting assembly for melting metal.

Rotor plate 1004 is installed to the inboard of unloading pipe 404, the centre of rotor plate 1004 is provided with interlude pole 1005, interlude pole 1005 and unloading pipe 404 swivelling joint, be provided with on the unloading pipe 404 with interlude pole 1005 assorted trompil, the one end of interlude pole 1005 is provided with bending arm 1003, open and shut cylinder 10 is installed to the bottom of shearing platform 1, the one end of opening and shutting cylinder 10 is provided with fixed articulated piece 1001, fixed articulated piece 1001 is articulated with opening and shutting cylinder 10, the bottom fixed connection of fixed articulated piece 1001 and shearing platform 1, output pipe sleeve 1002 is installed to opening and shutting cylinder 10's output, output pipe sleeve 1002 and bending arm 1003 swivelling joint, the output of opening and shutting cylinder 10 stretches out or the shrink and all can drive bending arm 1003 rotatory, bending arm can drive interlude pole 1005 and rotor plate 1004 rotatory, the material in the unloading pipe 404 can flow down this moment.

Fixed guide rail 5 is installed to the below of feed bin 4, fixed guide rail 5 is provided with two, install two slip tables 6 on every fixed guide rail 5, slip table 6 and fixed guide rail 5 sliding connection, the common fixed mounting in top of four slip tables has transport platform 3, install two cooling warehouses 7 on the transport platform 3, the centre of every cooling warehouse 7 is provided with shrink block 701, the bottom of transport platform 3 is provided with two shrink cylinders 301, shrink cylinder 301's output passes transport platform 3 and is connected with the shrink block 701 that corresponds, the material of unloading pipe 404 can fall into one of them cooling warehouse 7 immediately, after the material cold in the cooling warehouse 7 has gone, shrink cylinder 301 can drive shrink block 701 and fall down.

One side fixed mounting of transport platform 3 has plane axle bed 8, and gear disc 801 is installed to the bottom of plane axle bed 8, gear disc 801 and plane axle bed 8 swivelling joint, reduction gear 802 is installed to one side of gear disc 801, reduction gear 802 and gear disc 801 intermeshing, reduction gear 802 installs on gear motor 803's output, gear motor 803 fixed mounting, gear disc 801's bottom is provided with notch frame 804, the bottom of delivery platform 3 is provided with ejector beam 302, ejector beam 302 alternates in notch frame 804, ejector beam 302 and notch frame 804 sliding connection, gear motor 803 drives gear disc 801 rotatory through reduction gear 802, notch frame 804 of gear disc 801 bottom can drive two cooling warehouses 7 and connect the material to move the below of unloading pipe 404 by turns.

One side of transport platform 3 is provided with elevating platform 2, the bottom of elevating platform 2 is provided with clamping component 9, clamping component 9 includes double-end cylinder 901, bending output pole 902 is all installed to two outputs of double-end cylinder 901, be provided with flange 903 on every bending output pole 902, spring 905 is installed to one side of every flange 903, the one end and the double-end cylinder 901 fixed connection of flange 903 are kept away from to spring 905, every bending output pole 902's bottom fixed mounting has arc piece 904, after the metal liquid cooling in the cooling chamber 7, double-end cylinder 901's bending output pole 902 stretches to the outside and compresses tightly the inner wall of metal piece up to arc piece 904, double-end cylinder 901's output loosens the load, spring 905 can drive two bending output poles 902 and fold to the inboard.

The top end of the lifting platform 2 is fixedly provided with a lifting hydraulic cylinder 201, the output end of the lifting hydraulic cylinder 201 is provided with a lifting output rod 205, the bottom end of the lifting output rod 205 is fixedly connected with the top surface of the lifting platform 2, the bottom end of the lifting hydraulic cylinder 201 is provided with a transverse plate 202, two ends of the transverse plate 202 are respectively provided with a pipe sleeve 203, the top end of the lifting platform 2 is provided with a vertical round rod 204 matched with the two pipe sleeves 203, the two vertical round rods 204 are respectively inserted in the inner sides of the two pipe sleeves 203, the vertical round rod 204 is slidably connected with the pipe sleeves 203, one side of the shearing platform 1 and a reserved opening 106 matched with the lifting hydraulic cylinder 201, when the clamping assembly 9 clamps a metal block, the bottom end of the lifting hydraulic cylinder 201 is used for clamping the clamping assembly 9 and the metal block to be lifted, then the conveying platform 3 is moved away from the lower.

When the chain fixing device is used, the output end of the propelling cylinder 13 stretches to drive the vertical plate 11 to propel forwards, the propelling slide block 12 can slide in the rectangular groove on one side of the vertical plate 11 at the moment, the cutting motor 15 drives the wire saw 17 to run through the cutting disc 16, the wire saw 17 also propels forwards while running, automatic cutting is facilitated, labor cost is saved, safety is improved, a chain to be processed is placed in the square pipe 101, then the finger clamping cylinder 110 clamps the end of the chain, the pull-down cylinder 109 drives the finger clamping cylinder 110 and the chain to move downwards for a certain distance, then the rubber block 108 at the output end of the locking cylinder 107 can press the chain to realize the function of self-fixing the chain, after the chain is fixed, the wire saw 17 can propel the chain to cut, the cut chain can fall into the storage bin 4, alternating current is supplied to the spiral coil pipe 401, metal materials in the storage bin 4 can be melted, the output end of the opening and closing cylinder 10 can drive the arm 1003 to rotate after stretching or contracting, the bending arm 1003 drives the inserting rod 1005 and the rotating plate 1004 to rotate, at this time, the material in the circular blanking tube 404 flows down, the material in the circular blanking tube 404 falls into the cooling bin 7, after the material in the cooling bin 7 is cooled down, the contraction cylinder 301 will drive the contraction block 701 to fall down, the reduction motor 803 will drive the gear plate 801 to rotate through the reduction gear 802, the notch frame 804 at the bottom of the gear plate 801 will drive the two cooling bins 7 to move alternately to the lower part of the blanking circular tube 404 to receive material, after the metal liquid in the cooling bins 7 is cooled, the bending output rods 902 of the double-head cylinder 901 extend outwards until the arc-shaped blocks 904 compress the inner walls of the metal blocks, the output ends of the double-head cylinder 901 loose loads, the springs 905 can drive the two bending output rods 902 to fold inwards, and when the clamping assembly 9 clamps the metal blocks, the clamping assembly 9 at the bottom end of the lifting hydraulic cylinder 201 and the metal blocks are lifted. Then, the carrying platform 3 moves away from the lower part of the clamping assembly 9, the clamping assembly 9 loosens the metal block and falls down, and the automatic blanking function is realized.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides a mechanical automated processing device of chain which characterized in that: comprises a shearing table (1), two propelling guide rails (105) are fixedly installed at the top end of the shearing table (1), a sliding block (111) is installed on each propelling guide rail (105), the sliding block (111) is in sliding connection with the propelling guide rails (105), a sliding table (112) is jointly and fixedly installed at the top ends of the two sliding blocks (111), a vertical plate (11) is fixedly installed at the top end of the sliding table (112), two shaft seats (14) are fixedly installed at one side of the vertical plate (11), the two shaft seats are respectively located at two opposite ends of the vertical plate 11, a cutting disc (16) is installed at the top end of each shaft seat (14), the cutting disc (16) is rotatably connected with the shaft seats (14), the two cutting discs (16) are connected through a wire saw (17), one cutting disc (16) is installed at the output end of a cutting motor (15), the output end of the cutting motor (15) penetrates through one shaft seat (14) and is fixedly connected with the cutting disc, one side fixed mounting of riser (11) has shell fragment (18), the shell fragment is located between two axle beds 14, one side of coping saw (17) of shell fragment (18), one side that riser (11) deviates from the shell fragment is installed and is impeld slider (12), riser (11) are gone up the concave rectangular channel that is equipped with and impels slider (12) assorted, impel the rectangular channel sliding connection of slider (12) and riser (11), impel slider (12) one side and install and impel cylinder (13), the bottom of impeling cylinder (13) is provided with fixed block (1301), the top surface fixed connection of fixed block (1301) and shearing table (1), bulb (1302) are installed to the output of impeling cylinder (13), one side of impeling slider (12) is provided with and bulb (1302) assorted spherical shell (1201), bulb (1302) alternate in the inside of spherical shell (1302).

2. The device according to claim 1, characterized in that it comprises: one side fixed mounting of riser (11) has square bar (102), and one side of square bar (102) is provided with square pipe (101), the top of square bar (102) is provided with fixed pulley (103), one side fixed mounting of square bar (102) has locking cylinder (107), rubber block (108) are installed to the output of locking cylinder (107), the side of rubber block (108) laminating square bar (102), the below fixed mounting of square bar (102) has drop-down cylinder (109), press from both sides finger cylinder (110) are installed to the output of drop-down cylinder (109), fixing base (104) are installed to the bottom of square bar (102).

3. The device according to claim 2, characterized in that it comprises: the lower part of the shearing table (1) is fixedly provided with a stock bin (4), the outer side of the stock bin (4) is wound with a spiral coil (401), two ends of the spiral coil (401) are respectively provided with a connecting end (403), the two connecting ends (403) are respectively connected with two opposite ends of an alternating current connecting plate (402), and the bottom end of the stock bin (4) is provided with a blanking circular tube (404).

4. A mechanical automatic processing device of chains according to claim 3, characterized in that: the rotary plate (1004) is installed to the inboard of unloading pipe (404), the centre of rotary plate (1004) is provided with interlude pole (1005), interlude pole (1005) and unloading pipe (404) swivelling joint, be provided with on unloading pipe (404) with interlude pole (1005) assorted trompil, the one end of interlude pole (1005) is provided with bending arm (1003), the cylinder (10) that opens and shuts is installed to the bottom of shearing table (1), the one end of opening and shutting cylinder (10) is provided with fixed articulated piece (1001), fixed articulated piece (1001) is articulated with the cylinder (10) that opens and shuts, the bottom fixed connection of fixed articulated piece (1001) and shearing table (1), output pipe sleeve (1002) is installed to the output of opening and shutting cylinder (10), output pipe sleeve (1002) and bending arm (1003) swivelling joint.

5. The device according to claim 4, characterized in that it comprises: fixed guide (5) are installed to the below of feed bin (4), fixed guide (5) are provided with two, install two slip tables (6) on every fixed guide (5), slip table (6) and fixed guide (5) sliding connection, be fixed with the delivery platform jointly on four slip tables, install two cooling bin (7) on the delivery platform, the centre of every cooling bin (7) is provided with shrink piece (701), the bottom of delivery platform (3) is provided with two shrink cylinder (301), the output of shrink cylinder (301) passes delivery platform (3) and is connected with shrink piece (701) that correspond.

6. The device according to claim 5, characterized in that it comprises: one side fixed mounting of fortune platform (3) has plane axle bed (8), and gear disc (801) are installed to the bottom of plane axle bed (8), gear disc (801) and plane axle bed (8) swivelling joint, reduction gear (802) are installed to one side of gear disc (801), reduction gear (802) and gear disc (801) intermeshing, reduction gear (802) are installed on the output of gear motor (803), gear motor (803) fixed mounting, the bottom of gear disc (801) is provided with notch frame (804), the bottom of fortune platform (3) is provided with ejector beam (302), ejector beam (302) alternate the inboard in notch frame (804), ejector beam (302) and notch frame (804) sliding connection.

7. The device according to claim 6, characterized in that it comprises: one side of fortune microscope carrier (3) is provided with elevating platform (2), the bottom of elevating platform (2) is provided with clamping component (9), clamping component (9) include double-end cylinder (901), bending output pole (902) are all installed to two outputs of double-end cylinder (901), every bending output pole (902) is last to be provided with flange (903), spring (905) are installed to one side of every flange (903), the one end and double-end cylinder (901) fixed connection of flange are kept away from in spring (905), the bottom fixed mounting of every bending output pole (902) has arc piece (904).

8. The device according to claim 7, characterized in that it comprises: lifting output pole (205) are installed to the top fixed mounting of elevating platform (2), the top surface fixed connection of the bottom of lifting output pole (205) and elevating platform (2), diaphragm (202) are installed to the bottom of lifting output pole (201), the both ends of diaphragm (202) all are provided with pipe box (203), the top of elevating platform (2) be provided with two vertical round bar (204) of pipe box (203) assorted, two vertical round bar (204) alternate the inboard in two pipe box (203) respectively, vertical round bar (204) and pipe box (203) sliding connection, one side and lifting hydraulic cylinder (201) assorted reservation mouth (106) of shearing platform (1).