CN214640538U

CN214640538U - Automatic cutting, feeding and forming system

Info

Publication number: CN214640538U
Application number: CN202022315905.1U
Authority: CN
Inventors: 梁军; 孙曙光
Original assignee: Changzhou Runbang Mould Technology Co ltd
Current assignee: Changzhou Runbang Mould Technology Co ltd
Priority date: 2020-10-18
Filing date: 2020-10-18
Publication date: 2021-11-09
Anticipated expiration: 2030-10-18

Abstract

The utility model discloses an automatic material loading forming system cuts, which comprises a supporting table, the last surface mounting of brace table has the control box, the one end electricity of control box is connected with electric energy savings equipment, the last surface mounting of electric energy savings equipment has the regulation and control case, the welding has the bulge piece on the right wall of regulation and control case. This automatic material loading forming system cuts, control box function, can drive the displacement about the cavity box, and the bottom of cavity box is fixed with the one end of magnetism subassembly of inhaling, when the cavity box upwards displacement, can promote the iron plate of absorption, and the horizontal slip through controlling the case, break away from a supporting bench to the iron plate of absorption, through this material loading forming system, accomplish the automation at the in-process of moulding plastics and cut, the process of automatic feeding, reduce the manpower, and can keep the stable production of cycle, bury the shaping cycle length that forming die took place at the in-process of moulding plastics to present iron part, the productivity is low, these problems of unstable quality, make effectual improvement.

Description

Automatic cutting, feeding and forming system

Technical Field

The utility model relates to a field specifically is an automatic material loading forming system cuts.

Background

Traditional automatic material loading forming system that cuts at present on the market, because the restriction of product function, have some products to put into the ironware shaping, the semi-automatic tool of preparation leans on the manual work to put into the mould with the ironware, and rethread manipulator absorbs and to put into the mould in can produce many manpower extravagantly to and place the in-process of ironware at the manual work, phenomenons such as can appear putting by mistake lead to the problem production that the mould crushed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic material loading forming system cuts to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an automatic material loading forming system cuts, includes a supporting bench, its characterized in that: the upper surface of the supporting table is provided with a first control box, one end of the first control box is electrically connected with an electric energy storage device, the upper surface of the electric energy storage device is provided with a regulating and controlling box, the right wall of the regulating and controlling box is welded with a convex block, the upper surface of the convex block is provided with a transverse tool box, the power input end of the transverse tool box is provided with a screw rod controller, the bottom end of the transverse tool box is provided with a bearing installation cylinder, the left side and the right side of the upper surface of the transverse tool box are both provided with first sliding grooves, the left wall of the transverse tool box is welded with an outward-protruding welding sheet by the lower part, the outward-protruding welding sheet is welded with the upper surface of the convex block, the notch of each first sliding groove is internally connected with a first sliding groove block in a sliding manner, the first sliding groove block is arranged on the upper surface of the positioning sliding block, the upper surface of the first sliding groove block is provided with a control box, and the upper surface of the supporting table is provided with a mold assembly by the right part, the welding of the upper plate left and right sides of mould assembly has the bracing piece, the bottom of bracing piece and the upper surface of brace table lean on right position welding, the roof upper surface mounting of bracing piece has cylinder one, the telescopic link is installed to the drive end of cylinder one, the roof upper surface of bracing piece leans on preceding position welding to have the connecting plate, the lower surface of mould assembly leans on preceding position welding to have second L shape connection piece, the bottom welding of second L shape connection piece has the roof, the below of roof is provided with decides moulds the board.

As a further aspect of the present invention: the upper surface left and right sides of deciding to mould the board has been seted up to the perforation, and to installing the telescopic link in the perforation, and the top of telescopic link all welds with the bottom and has the butt joint pole, the top of butt joint pole and the lower surface welding of roof, the below the bottom of butt joint pole and the operation frock platform upper surface welding of mould assembly.

As a further aspect of the present invention: the lower surface mounting of telescopic link has cylinder two, the actuating lever is installed to the bottom of cylinder two, the left and right sides of actuating lever is provided with the grip block, the lower surface of grip block with mould the upper surface welding of board surely, the preceding facade welding of moulding the board surely has the backplate.

As a further aspect of the present invention: the plastic plate fixing device is characterized in that a placing plate is arranged below the plastic plate, a mold groove is formed in the upper surface of the placing plate, supporting plates are welded on the left side and the right side of the mold groove, concave connecting plates are welded at the bottom ends of the two groups of supporting plates, and a second motor is arranged on the right wall of each supporting plate.

As a further aspect of the present invention: the welding of the position of leaning on left of the preceding facade of mould assembly has the mounting panel, the front of mounting panel leans on the lower part welding to have the second spout piece, the upper surface sliding connection of second spout piece has the slider, the preceding facade of mounting panel leans on the left position to install motor one, the drive shaft is installed to the drive end of motor one, the transmission is connected with the belt on the outer wall of drive shaft, first L shape connection piece is installed to the preceding facade of slider, the cooling spouts the ware to the horizontal board of first L shape connection piece is installed, the cooling spouts the ware to be in the top of placing the board.

As a further aspect of the present invention: the welding has the horizontal trend subassembly on the control box right wall, the right wall that transversely moves towards the subassembly is provided with lifting control mechanism, the below that transversely moves towards the subassembly is provided with magnetism and inhales the subassembly, magnetism is inhaled the subassembly including cylinder three and installation roof, the bottom of cylinder three and the lower surface welding that transversely moves towards the subassembly, push away the pole is installed to the drive end of cylinder three, the clamp splice is installed to push away the bottom of pole, it is connected with the rocking arm to rotate between the centre gripping mouth of clamp splice, the bottom of rocking arm is through the top welding of swing splice and installation roof, the lower surface of installation roof all welds all around has the telescopic link, installation frame box is installed to the lower surface middle part of installation roof, the bottom welding of installation frame box has the buttcover plate.

As a further aspect of the present invention: including the mounting box, the centre gripping arm is installed by preceding position to the upper surface of installation frame box, the notch of centre gripping arm is connected with the mounting disc, the front of butt joint board is run through to the bottom of mounting disc to fixedly connected with spring beam, the bottom welding of spring beam has the stationary blade, the disk is all installed to the lower surface left and right sides of stationary blade.

As a further aspect of the present invention: the last surface mounting who transversely moves towards the subassembly has the base plate, the last surface mounting of base plate has the lift control frame, the preceding facade of lift control frame is leaned on upper portion position to install the fixed block, the second spout has all been seted up to the left and right sides of lift control frame, the notch sliding connection of second spout has the chute board, the welding has the gear on the outer wall of chute board, the one end welding of gear has the cavity box.

As a further aspect of the present invention: the left wall mounting of fixed block has lift control mechanism, the second control box is installed to lift control mechanism's bottom, the upper surface at the base plate is fixed to the second control box, the baffle is installed on the right side of cavity box, install the gear in the inner chamber of cavity box.

As a further aspect of the present invention: the utility model discloses a cutting machine, including connecting plate, cylinder, blade two, connecting plate, cutter mounting plate, blade two, vertical board, cylinder five, blade two, blade, lower part, and lower part, and lower part, and lower part.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, connect and transversely move towards subassembly cooperation on the right wall of electric energy savings equipment and inhale the subassembly and use, it is specific: the operation of the cylinder III is controlled, the pushing and retracting rod can be stretched, the iron blocks can be picked up by the stretching of the pushing and retracting rod, when the pushing and retracting rod moves downwards, the rocker arm can be driven to rotate between the clamping blocks, the mounting top plate is controlled to turn over and turn over to be in the same vertical plane with the cylinder III, the clamping arm, the fixing plate and the magnetic disk are matched to absorb the iron blocks, otherwise, when the pushing and retracting rod moves upwards, the control rocker arm rotates again at the opening part of the clamping blocks, the mounting top plate can be driven to fold after rising to a certain position and is vertical to the cylinder III, the absorbed iron blocks can be absorbed, the magnetic attraction component after absorbing the iron blocks is L-shaped, the control box operates to drive the cavity box to move up and down, and the bottom end of the cavity box is fixed with one end of the magnetic attraction component, when cavity box upwards displacement, can promote the iron plate of absorption to through the horizontal slip of controlling the case, break away from the brace table to the iron plate of absorption, through this material loading forming system, accomplish the automation at the in-process of moulding plastics and cut, automatic feeding's process reduces the manpower, and can keep the stable production of cycle, buries the shaping cycle length that forming die takes place at the in-process of moulding plastics to present ironware, the productivity is low, these problems of unstable quality, make effectual improvement.

The utility model discloses, connect and dock in the upper surface of electric energy saving equipment by the evagination soldering lug on the cooperation of the installed protrusion piece at right position, realize the support to the evagination soldering lug, and one side of evagination soldering lug is fixed with the left wall of horizontal frock box, wherein the power of horizontal frock box lies in controlling the screw controller function, and will drive inside slide-tube function after the screw controller function, can carry out the horizontal slip to the control case of spout notch department installation, control the case when the slip about, can realize the flow of unloading.

The utility model, when a melting piece is placed, the melting piece is conveyed by the conveying platform, the melting piece to be cut is cut by the first blade, the cutting is carried out by the second blade, the first blade is cut into one piece, the cutting of the second blade transversely cuts the melting piece, so as to form a plurality of blocks again, the melting piece is discharged into the die groove opening on the upper surface of the placing plate by the discharging plate, the operation of the first cylinder is controlled, the telescopic rod can be driven, the second cylinder connected with the surface of the telescopic rod is used for driving the driving rod to push downwards, the outer wall of the driving rod is fixed by the clamping block, meanwhile, the lower surface of the clamping block is butted with the fixed plastic plate, so as to push the fixed plastic plate to move towards the upper surface of the placing plate, and extrude the melting piece placed in the die groove, so as to melt the melting piece, and the installed telescopic rod is used for adjusting the left and right displacement of the second cylinder, so that the iron blocks in the die groove are in the optimal state to assist in melting.

Drawings

Fig. 1 is a schematic structural diagram of an automatic cutting, feeding and forming system.

FIG. 2 is an overall diagram of a mold in an automatic cutting, feeding and molding system.

FIG. 3 is a right side view of a support table in an automatic trimming, feeding and forming system;

FIG. 4 is an enlarged view of FIG. 1 at B in an automatic trimming, feeding and forming system;

FIG. 5 is an enlarged view of the portion A of FIG. 1 of an automatic trimming, feeding and forming system;

FIG. 6 is a block diagram of a slicer in an automatic trimming, feeding and forming system;

FIG. 7 is a top view of a support platform in an automatic cutting, loading and forming system.

In the figure: the device comprises a support table 1,

first control boxes

2 and 3, an electric energy storage device 4, a regulating and controlling box 5, an outer convex welding sheet 6, a screw rod controller 7, a transverse tooling box 8, a first chute 9, a belt 10, a control box 11, a mold assembly 12, an installation frame box 13, a bearing installation barrel 14, a first chute block 15, a positioning slider 16, a first cylinder 17, a second cylinder 18, a driving rod 19, a telescopic rod 20, a connecting plate 21, a protective plate 22, a first L-shaped connecting plate 23, an installation plate 24, a slider 25, a first motor 26, a driving shaft 27, a second chute block 28, a belt 29, a cooling sprayer 30, a discharging plate 31, a placing plate 32, a mold groove 33, a concave connecting plate 34, a support plate 35, a second motor 36, a connecting plate 37, a third motor 38, a mold plate 39, a butt joint rod 40, a slicing machine 41, a support rod 42, a fixed plastic plate 43, a top plate 44, a clamping block 45, a second L-shaped connecting plate 46, a transverse component 47, The magnetic suction assembly 48, the lifting control mechanism 49, the first blade 50, the butt joint plate 51, the spring rod 52, the magnetic disc 53, the fixing plate 54, the mounting disc 55, the clamping arm 56, the butt joint bolt 57, the third cylinder 58, the push-receiving rod 59, the clamping block 60, the rocker arm 61, the mounting top plate 62, the baffle 63, the gear 64, the cavity box 65, the welding plate 66, the base plate 67, the second control box 68, the chute plate 69, the lifting control frame 70, the fixing block 71, the second chute 72, the fourth cylinder 73, the cutter mounting plate 74, the fixing mechanism 75, the second blade 76, the conveying table 77, the fifth cylinder 78 and the vertical plate 79.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 7, in the embodiment of the present invention, an automatic cutting, feeding and forming system includes a supporting table 1, a first control box 2 is mounted on the upper surface of the supporting table 1, one end of the first control box 2 is electrically connected to an electric energy storage device 4, a regulating and controlling box 5 is mounted on the upper surface of the electric energy storage device 4, a convex block is welded on the right wall of the regulating and controlling box 5, a transverse tool box 8 is mounted on the upper surface of the convex block, a lead screw controller 7 is mounted at the power input end of the transverse tool box 8, a bearing mounting tube 14 is mounted at the bottom end of the transverse tool box 8, first sliding grooves 9 are respectively formed on the left side and the right side of the upper surface of the transverse tool box 8, an outer convex welding sheet 6 is welded on the lower portion of the left wall of the transverse tool box 8, the outer convex welding sheet 6 is welded on the upper surface of the convex block, a first sliding groove block 15 is slidably connected in the notch of the first sliding groove 9, a first sliding block 15 is mounted on the upper surface of a positioning slider 16, the upper surface of the first sliding groove block 15 is provided with a control box 11, the upper surface of the support table 1 is provided with a mould assembly 12 close to the right part, the left and right sides of the upper plate of the mould assembly 12 are welded with support rods 42, the bottom ends of the support rods 42 are welded with the right part of the upper surface of the support table 1, the upper surface of the top plate of the support rods 42 is provided with a first air cylinder 17, the driving end of the first air cylinder 17 is provided with a telescopic rod 20, the upper surface of the top plate of the support rods 42 is welded with a connecting plate 21 close to the front part, the lower surface of the mould assembly 12 is welded with a second L-shaped connecting plate 46, the bottom end of the second L-shaped connecting plate 46 is welded with a top plate 44, a fixed plastic plate 43 is arranged below the top plate 44, the left and right sides of the upper surface of the fixed plastic plate 43 are provided with through holes, the telescopic rods are arranged in the through holes, the butt rods 40 are welded at the top ends and the bottom ends of the butt rods 40, and the bottom surface of the top plate 44 is welded with the bottom plate 44, the bottom end of a lower butt joint rod 40 is welded with the upper surface of an operation tool table of a mold assembly 12, the lower surface of a telescopic rod 20 is provided with a cylinder II 18, the bottom end of the cylinder II 18 is provided with a driving rod 19, the left side and the right side of the driving rod 19 are provided with clamping blocks 45, the lower surfaces of the clamping blocks 45 are welded with the upper surfaces of fixed plastic plates 43, the front vertical surfaces of the fixed plastic plates 43 are welded with a protection plate 22, the lower portions of the fixed plastic plates 43 are provided with placing plates 32, the upper surfaces of the placing plates 32 are provided with mold grooves 33, the left side and the right side of each mold groove 33 are both welded with supporting plates 35, the bottom ends of the two groups of supporting plates 35 are welded with concave connecting plates 34, the right wall of each supporting plate 35 is provided with a motor II 36, the left portion of the front vertical surface of the mold assembly 12 is welded with a mounting plate 24, the lower portion of the front surface of the mounting plate 24 is welded with a second chute block 28, the upper surface of the second chute block 28 is connected with a sliding block 25 in a sliding manner, a first motor 26 is installed on the front vertical face of the mounting plate 24 close to the left, a driving shaft 27 is installed at the driving end of the first motor 26, a belt 29 is connected to the outer wall of the driving shaft 27 in a transmission manner, a first L-shaped connecting sheet 23 is installed on the front vertical face of the sliding block 25, a cooling sprayer 30 is installed on the transverse plate of the first L-shaped connecting sheet 23, the cooling sprayer 30 is located above the placing plate 32, a transverse moving component 47 is welded on the right wall of the control box 11, a lifting control mechanism 49 is arranged on the right wall of the transverse moving component 47, a magnetic suction component 48 is arranged below the transverse moving component 47, the magnetic suction component 48 comprises a third cylinder 58 and a mounting top plate 62, the bottom end of the third cylinder 58 is welded to the lower surface of the transverse moving component 47, a pushing and retracting rod 59 is installed at the driving end of the third cylinder 58, a clamping block 60 is installed at the bottom end of the pushing and retracting rod 59, a rocker arm 61 is rotatably connected between clamping ports of the clamping block 60, and the bottom end of the rocker arm 61 is welded to the top end of the mounting top plate 62 through a swinging block, the telescopic rods 20 are welded on the periphery of the lower surface of the installation top plate 62, the installation frame box 13 is installed in the middle of the lower surface of the installation top plate 62, and the butt plate 51 is welded at the bottom end of the installation frame box 13; a clamping arm 56 is arranged on the upper surface of the mounting frame box 13 close to the front part, a mounting disc 55 is connected with a notch of the clamping arm 56, the bottom of the mounting disc 55 penetrates through the front surface of the butt joint plate 51 and is fixedly connected with a spring rod 52, a fixing plate 54 is welded at the bottom end of the spring rod 52, magnetic discs 53 are arranged on the left side and the right side of the lower surface of the fixing plate 54, a base plate 67 is arranged on the upper surface of the transverse moving component 47, a lifting control frame 70 is arranged on the upper surface of the base plate 67, a fixing block 71 is arranged on the front vertical surface of the lifting control frame 70 close to the upper part, second sliding grooves 72 are arranged on the left side and the right side of the lifting control frame 70, a sliding groove plate 69 is connected with the notch of the second sliding grooves 72 in a sliding manner, a gear 64 is welded on the outer wall of the sliding groove plate 69, a lifting control mechanism 49 is arranged on the left wall of the fixing block 71 of the cavity box 65 welded at one end of the gear 64, a second control box 68 is arranged at the bottom end of the lifting control mechanism 49, the second control box 68 is fixed on the upper surface of the base plate 67, the baffle 63 is installed on the right side of the cavity box 65, the slicing machine 41 is arranged in the rear portion of the connecting plate 21, provided with the gear 64, of the inner cavity of the cavity box 65, the cylinder four 73 is installed on the left portion of the upper surface of the slicing machine 41, the driving butt-joint block 3 is installed at the driving end of the cylinder four 73, the fixing mechanism 75 is fixedly connected to the front vertical face of the driving butt-joint block 3, the cutter mounting plate 74 is arranged on the back face of the fixing mechanism 75, the blade two 76 is installed at the bottom end of the fixing mechanism 75, the conveying table 77 is installed on the middle portion of the upper surface of the slicing machine 41, the vertical plate 79 is installed on the left portion of the upper surface of the slicing machine 41, the cylinder five 78 is installed at the top end of the vertical plate 79, the blade one 50 is installed at the bottom end of the vertical plate 79, and the discharging plate 31 is installed on the lower portion of the left wall of the slicing machine 41.

The utility model discloses a theory of operation is: when the electric energy storage device is used, the first control box 2 is controlled to operate, the electric energy storage device 4 can be driven to charge, the control box 5 is charged through the electric energy storage device 4, and the control box 5 is used for transmitting power to each machine;

the convex sheet arranged on the upper surface of the electric energy storage device 4 close to the right part is matched with the upper convex welding sheet 6 for butt joint, so that the support of the convex welding sheet 6 is realized, one side of the convex welding sheet 6 is fixed with the left wall of the transverse tooling box 8, wherein the power of the transverse tooling box 8 is used for controlling the operation of the screw rod controller 7, the screw rod controller 7 can drive the internal slide pipe to operate after operating, so that the control box 11 arranged at the notch of the first chute 9 can slide left and right, and the unloading process can be realized when the control box 11 slides left and right;

connect transversely on the right wall of electric energy storage equipment 4 to move towards subassembly 47 cooperation on magnetism inhale subassembly 48 and use, it is specific: controlling the operation of the third air cylinder 58, namely stretching the pushing and retracting rod 59, wherein the stretching of the pushing and retracting rod 59 can realize the pickup of the iron blocks, when the pushing and retracting rod 59 moves downwards, the rocker arm 61 can be driven to rotate between the clamping blocks 60, the mounting top plate 62 is controlled to turn over and turn over to be in the same vertical plane with the third air cylinder 58, the mounting frame box 13 connected with the bottom end of the mounting top plate 62 is matched with the upper clamping arm 56, the fixing plate 54 and the magnetic disc 53 to suck the iron sheets, otherwise, when the pushing and retracting rod 59 moves upwards, the rocker arm 61 is controlled to rotate again at the opening part of the clamping blocks 60, and after the pushing and retracting rod 59 moves upwards, the mounting top plate 62 can be driven to fold and is in a vertical state with the third air cylinder 58, so that the sucked iron blocks can be sucked;

specifically, the method comprises the following steps: the subassembly 48 is inhaled to magnetism after the iron plate of absorption is L shape, and control second control box 68 functions, can drive the displacement from top to bottom of cavity box 65, and the bottom of cavity box 65 is fixed with the one end of inhaling subassembly 48 of magnetism, when cavity box 65 upwards displacement, can promote the iron plate of absorption to through the horizontal slip of control box 11, break away from brace table 1 to the iron plate of absorption.

When a melting piece is placed, the iron-substitute block is conveyed through a conveying table 77, the iron-substitute block is cut by a first blade 50 and cut by a second blade 76, the first blade 50 is cut into a piece by a piece, and the second blade 76 is cut to transversely cut the iron-substitute block, so that a plurality of blocks are formed again and are discharged into a notch of a die groove 33 on the upper surface of a placing plate 32 through a discharging plate 31;

the first control cylinder 17 is operated to drive the telescopic rod 20, the second cylinder 18 connected to the surface of the telescopic rod 20 is used for driving the driving rod 19 to push downwards, the outer wall of the driving rod 19 is fixed through the clamping block 45, meanwhile, the lower surface of the clamping block 45 is in butt joint with the fixed plastic plate 43, so that the fixed plastic plate 43 is pushed to move towards the upper surface of the placing plate 32, a to-be-melted piece placed in the die groove 33 is extruded to be melted, and the installed telescopic rod 20 is used for adjusting the left and right movement of the second cylinder 18 to enable the second cylinder to be in the best state to assist in melting the iron blocks in the die groove 33.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an automatic material loading forming system cuts, includes a supporting bench (1), its characterized in that: the upper surface of the supporting table (1) is provided with a first control box (2), one end of the first control box (2) is electrically connected with an electric energy storage device (4), the upper surface of the electric energy storage device (4) is provided with a regulating and controlling box (5), a convex block is welded on the right wall of the regulating and controlling box (5), a transverse tooling box (8) is arranged on the upper surface of the convex block, a lead screw controller (7) is arranged at the power input end of the transverse tooling box (8), a bearing mounting cylinder (14) is arranged at the bottom end of the transverse tooling box (8), first sliding grooves (9) are formed in the left side and the right side of the upper surface of the transverse tooling box (8), a convex welding sheet (6) is welded on the lower portion of the left wall of the transverse tooling box (8), the convex welding sheet (6) is welded on the upper surface of the convex block, first sliding groove blocks (15) are connected with inner sliding grooves of the first sliding grooves (9), the upper surface of a positioning slide block (16) arranged is installed on the first sliding groove block (15), a control box (11) is installed on the upper surface of the first sliding groove block (15), a mold assembly (12) is installed on the right portion of the upper surface of the supporting table (1), supporting rods (42) are welded on the left side and the right side of an upper plate of the mold assembly (12), the bottom end of each supporting rod (42) is welded on the right portion of the upper surface of the supporting table (1), a first air cylinder (17) is installed on the upper surface of a top plate of each supporting rod (42), a telescopic rod (20) is installed at the driving end of each air cylinder (17), a connecting plate (21) is welded on the front portion of the upper surface of the top plate of each supporting rod (42), a second L-shaped connecting sheet (46) is welded on the front portion of the lower surface of the mold assembly (12), and a top plate (44) is welded on the bottom end of the second L-shaped connecting sheet (46), and a plastic fixing plate (43) is arranged below the top plate (44).

2. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: decide to mould the upper surface left and right sides of board (43) and seted up to the perforation, and to the downthehole telescopic link of installing of perforation, and the top of telescopic link all welds butt joint pole (40), top the top of butt joint pole (40) and the lower surface welding of roof (44), the below the bottom of butt joint pole (40) and the operation frock platform upper surface welding of mould assembly (12).

3. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: the lower surface mounting of telescopic link (20) has cylinder two (18), actuating lever (19) are installed to the bottom of cylinder two (18), the left and right sides of actuating lever (19) is provided with grip block (45), the lower surface of grip block (45) with decide the upper surface welding who moulds board (43), decide the preceding facade welding of moulding board (43) and have backplate (22).

4. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: decide the below of moulding board (43) and be provided with and place board (32), place the upper surface of board (32) and seted up mould groove (33), backup pad (35) have all been welded to the left and right sides in mould groove (33), and two sets of the bottom welding of backup pad (35) has concave connecting plate (34), the right wall-mounting of backup pad (35) has motor two (36).

5. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: the welding of the position of leaning on left of the preceding facade of mould assembly (12) has mounting panel (24), the front of mounting panel (24) leans on the lower part to weld has second spout piece (28), the upper surface sliding connection of second spout piece (28) has slider (25), the preceding facade of mounting panel (24) leans on the left position to install motor (26), drive shaft (27) are installed to the drive end of motor (26), the transmission is connected with belt (29) on the outer wall of drive shaft (27), first L shape connection piece (23) are installed to the preceding facade of slider (25), cooling sprayer (30) are installed to the transverse plate of first L shape connection piece (23), cooling sprayer (30) are in the top of placing board (32).

6. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: the welding has transversely moves towards subassembly (47) on control box (11) right wall, the right wall that transversely moves towards subassembly (47) is provided with lift control mechanism (49), the below that transversely moves towards subassembly (47) is provided with magnetism and inhales subassembly (48), what magnetism was inhaled subassembly (48) includes cylinder three (58) and installation roof (62), the bottom and the lower surface welding that transversely moved towards subassembly (47) of cylinder three (58), push away receiving rod (59) is installed to the drive end of cylinder three (58), clamp splice (60) is installed to the bottom of push away receiving rod (59), it is connected with rocking arm (61) to rotate between the grip slipper of clamp splice (60), the bottom of rocking arm (61) is through the top welding of swing block with installation roof (62), telescopic link (20) have all been welded all around the lower surface of installation roof (62), installation frame box (13) is installed to the lower surface middle part of installation roof (62), the bottom end of the mounting frame box (13) is welded with a butt plate (51).

7. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: including installation frame box (13), centre gripping arm (56) are installed by preceding position to the upper surface of installation frame box (13), the notch of centre gripping arm (56) is connected with mounting disc (55), the front of butt plate (51) is run through to the bottom of mounting disc (55) to fixedly connected with spring beam (52), the bottom weld of spring beam (52) has stationary blade (54), disc (53) are all installed to the lower surface left and right sides of stationary blade (54).

8. The automatic cutting, feeding and forming system according to claim 6, wherein: transversely move towards the last surface mounting of subassembly (47) has base plate (67), the last surface mounting of base plate (67) has lift control frame (70), the preceding facade of lift control frame (70) leans on upper portion position to install fixed block (71), second spout (72) have all been seted up to the left and right sides of lift control frame (70), the notch sliding connection of second spout (72) has spout board (69), the welding has gear (64) on the outer wall of spout board (69), the one end welding of gear (64) has cavity box (65).

9. The automatic cutting, feeding and forming system as claimed in claim 8, wherein: the left wall mounting of fixed block (71) has lift control mechanism (49), second control box (68) are installed to the bottom of lift control mechanism (49), the upper surface at base plate (67) is fixed in second control box (68), baffle (63) are installed on the right side of cavity box (65), install gear (64) in the inner chamber of cavity box (65).

10. The automatic cutting, feeding and forming system as claimed in claim 1, wherein: a slicing machine (41) is arranged at the position, close to the rear part, of the connecting plate (21), a cylinder four (73) is arranged at the position, close to the left, of the upper surface of the slicing machine (41), the driving end of the cylinder IV (73) is provided with a driving butt joint block (3), the front vertical surface of the driving butt joint block (3) is fixedly connected with a fixing mechanism (75), a cutter mounting plate (74) is arranged on the back surface of the fixing mechanism (75), a second blade (76) is arranged at the bottom end of the fixing mechanism (75), a conveying table (77) is arranged near the middle part of the upper surface of the slicing machine (41), a vertical plate (79) is arranged on the left part of the upper surface of the slicing machine (41), a cylinder fifth (78) is installed at the top end of the vertical plate (79), a blade first (50) is installed at the bottom end of the vertical plate (79), and a discharging plate (31) is arranged at the lower part of the left wall of the slicing machine (41).