CN214358465U

CN214358465U - Float shaping device

Info

Publication number: CN214358465U
Application number: CN202022329236.3U
Authority: CN
Inventors: 刘洋; 孙卫军; 王玲; 刘旺
Original assignee: Hunan Xinhai Co ltd
Current assignee: Hunan Xinhai Co ltd
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-10-08
Anticipated expiration: 2030-10-19

Abstract

The utility model provides a float shaping device, it is including rack-mounted charging tray and trimmer that shake, row's flitch is installed to the output of charging tray that shakes, install the direction subassembly in the frame of row flitch output, the slope is installed in the frame of direction subassembly below and is guided the material conveyer belt, be equipped with the transfer subassembly in the frame of guide conveyer belt output, the trimmer top is equipped with the transport chain, be equipped with the transport peg on the transport chain, be equipped with the input directive wheel on the transport chain of trimmer entrance, the output directive wheel in trimmer exit, the transfer subassembly cooperates with the transport peg of input directive wheel department, the output directive wheel outside is equipped with takes off the material subassembly, it is equipped with the storage subassembly to take off material subassembly below. Compact structure after this scheme of adoption, degree of automation is high, excellent in use effect, can effectively form continuous production line.

Description

Float shaping device

Technical Field

The utility model belongs to the technical field of the fishing net technique and specifically relates to indicate a float shaping device.

Background

With the development of fishery, the fishing and hunting objects are not only fish, but also fishing tools are advanced. Modern fishing nets are mainly made of polyethylene, nylon and other raw materials. The novel fishing device has a longer service cycle and higher fishing efficiency, and is classified through different using modes. For example, trawling (hand net, hand throwing net) used in conventional fishing, trawling using a ship as power, trawling (triple net, purse net) in which gills are caught by different meshes, and the like. The nets are woven by using meshes with different sizes and net wires made of different materials aiming at different fishing objects. Meanwhile, as the development of fishing nets, various fishery appliances are also produced, for example, the fishing cage is used as a common fishing tool, a foursquare net and the like, the floater is used as one of important components of the fishing net, when the traditional floater enters a shaping machine for shaping, the traditional floater needs to be discharged through a material vibrating disc and then falls onto a material guiding conveying belt, then the traditional floater is grabbed and taken onto a conveying hanging rod through a mechanical hand, after the shaping is completed, the traditional floater is grabbed and taken up on the conveying hanging rod through another mechanical hand and then is put into a material storage box, when the material is discharged in the later process, the floater in the material storage box is poured into the material vibrating disc in the later process, the mechanical hand is high in use frequency and easy to damage, and meanwhile, more devices are used, and an effective continuous production line cannot be formed.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a compact structure, degree of automation height, excellent in use effect's float shaping device.

In order to achieve the above object, the present invention provides a technical solution: the utility model provides a float shaping device, it is including rack-mounted charging tray and trimmer that shakes, row's flitch is installed to the output that shakes the charging tray, install the direction subassembly in the frame of row flitch output, the guide conveyer belt is installed to slope in the frame of direction subassembly below, be equipped with the transfer subassembly in the frame of guide conveyer belt output, the trimmer top is equipped with the transport chain, be equipped with the transport peg on the transport chain, be equipped with the input directive wheel on the transport chain of trimmer entrance, the output directive wheel in trimmer exit, the transport peg cooperation of transfer subassembly and input directive wheel department, the output directive wheel outside is equipped with takes off the material subassembly, it is equipped with the storage subassembly to take off material subassembly below.

The material storage assembly comprises lateral baffles and a material discharge belt, wherein the material discharge belt is arranged on a rack, the output end of the material discharge belt is positioned below a material discharge guide cylinder, the lateral baffles are vertically fixed on the rack on two sides of the material discharge belt, the end part of one of the lateral baffles at the output end of the material discharge belt is provided with a material control baffle which is positioned above a bearing surface of the material discharge belt, a material discharge channel is reserved between the bottom of the mounted material control baffle and the bearing surface of the material discharge belt, the output end of the material discharge belt penetrates through the material discharge channel to form an output section, a plurality of convex blocks are equidistantly distributed on the surface of the material discharge belt, and an interval conveying station is reserved between every two adjacent convex blocks; the distance between the top of the bump and the bottom of the material control baffle is smaller than the outer diameter of the floater, and the distance between the surface of the spacing conveyor belt and the bottom of the material control baffle is larger than the outer diameter of the floater; a first pressing plate supporting rod is arranged on the machine frame on two sides of the output end of the discharging belt, a supporting rod transverse plate is connected between the tops of the first two pressing plate supporting rods, a second pressing plate supporting rod is mounted on the supporting rod transverse plate, and the bottom of the second pressing plate supporting rod is downwards connected with a float limiting pressing plate; the top of the second pressing plate supporting rod is engaged with a supporting rod adjusting nut, the middle of the second pressing plate supporting rod is expanded to form a supporting rod limiting ring, a pressing plate buffer spring is sleeved on the second pressing plate supporting rod between the supporting rod limiting ring and the supporting rod transverse plate, the top of the pressing plate buffer spring is abutted against the supporting rod transverse plate, and the bottom of the pressing plate buffer spring is abutted against the top of the supporting rod limiting ring.

The stripping component comprises a stripping shaft, a stripping baffle ring, stripping baffles and a stripping outer cover, wherein the stripping shaft is arranged on the outer side of the output steering wheel, the mounted stripping shaft is positioned above the storage component, a fixing ring is arranged at the end part of the stripping shaft far away from the output steering wheel, an adjusting connecting rod is arranged on the fixing ring, the stripping baffle ring is connected to the adjusting connecting rod, a cylindrical stripping guide cylinder is fixed on one side of the stripping baffle ring opposite to the conveying chain, a stripping suction fan is arranged on the rack on the other side of the stripping baffle ring, the suction end of the stripping suction fan is opposite to the stripping baffle ring, stripping baffles with the number larger than 2 are uniformly distributed on the peripheral surface of the stripping guide cylinder, a stripping bearing area is formed between adjacent stripping baffles, a suction hole is arranged on the stripping baffle ring of the stripping bearing area, the rack on the outer side of the stripping guide cylinder is provided with the stripping outer cover which is arc-shaped, and the inner arc surface of the stripping outer cover faces downwards, one end of the adjusting connecting rod is provided with a connecting rod adjusting thread, and the connecting rod adjusting thread is meshed with the edge of the fixing ring.

The transfer subassembly including the well pivot, well rotary drum, well commentaries on classics piece, wherein, the well pivot is in the frame that horizontal installation has the guide conveyer belt output outside, install well rotary drum in the well pivot, be equipped with the transfer groove that quantity is greater than 2 along the axis direction on the transfer drum periphery, the length direction of well commentaries on classics groove is unanimous with the width direction of guide conveyer belt, install well commentaries on classics piece in the frame of transfer drum output direction, it pushes away the material guide shaft to be horizontal installation in the frame of well commentaries on classics piece top, push away and install the transfer cylinder in the frame of material guide shaft below, it has the transfer baffle to push away movable mounting on the material guide shaft, the piston rod and the transfer baffle upper portion of transfer cylinder are connected, transfer baffle lower part is horizontal installation has the transfer push rod.

The feeding baffle plates are uniformly distributed on the surface of the feeding conveying belt and are in a shape like a Chinese character '7', the end part of a cross arm of the feeding baffle plate is connected with the surface of the feeding conveying belt in the output direction, and a vertical arm of the feeding baffle plate is connected with the surface of the feeding conveying belt in the input direction.

The guide assembly comprises a conveying rotating shaft, a conveying guide cylinder and a guide cylinder limiting plate, wherein one end of the conveying rotating shaft is arranged on a rack through a rotating shaft bearing ring, the conveying rotating shaft after installation is positioned outside the output end of the discharging plate, the middle part of the conveying rotating shaft is expanded to form the conveying guide cylinder, the conveying guide cylinders with the number more than 2 are arranged on the outer peripheral surface of the conveying guide cylinder along the axis direction, the guide cylinder limiting plate is arranged on the rack below the conveying guide cylinder, a limiting channel is reserved between the guide cylinder limiting plate and the conveying guide cylinder, the lower end of the guide conveying belt is positioned below the output end of the guide cylinder limiting plate, a roller at the lower end of the guide conveying belt is a driving roller, a roller main shaft is arranged at one end of the driving roller, a driving belt wheel is arranged on the roller main shaft, a synchronous belt wheel is arranged at one end of the conveying rotating shaft, a driven belt wheel is arranged on the rack above the synchronous belt wheel, and the driving belt wheel is connected with the driven belt wheel through a synchronous chain, the synchronous belt wheel is meshed with the synchronous chain.

After the above technical scheme is adopted, the float shakes through the charging tray and arranges material to the discharge plate on, the float on the discharge plate is delivered to the guide conveyer belt through the direction of guide assembly on, the guide conveyer belt delivers to transfer subassembly department with the float, through transfer subassembly propelling movement to carrying on the peg, the float on carrying the peg drives through the conveyor chain and gets into the trimmer plastic, drive the line to export directive wheel department through the conveyor chain after the plastic is accomplished, will carry the float on the peg to take off through taking off the material subassembly, the float of taking off falls to in the storage subassembly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the guiding assembly of the present invention.

Fig. 3 is a schematic view of the transfer assembly of the present invention.

Fig. 4 is a schematic diagram of the structure of the discharge belt of the present invention.

Fig. 5 is the schematic view of the magazine assembly of the present invention.

Fig. 6 is a schematic view of the stripping assembly of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 6, the float shaping device according to this embodiment includes a material vibrating tray 1 and a shaping machine 20 mounted on a frame, a material discharging plate 2 is mounted at an output end of the material vibrating tray 1, a guiding assembly is mounted on the frame at an output end of the material discharging plate 2, a material guiding conveyer belt 7 is obliquely mounted on the frame below the guiding assembly, a transfer assembly is disposed on the frame at an output end of the material guiding conveyer belt 7, material loading baffles 48 are uniformly distributed on a surface of the material guiding conveyer belt 7, each material loading baffle 48 is "7" shaped, an end portion of a cross arm of the material guiding conveyer belt is connected with a surface of the material guiding conveyer belt 7 in an output direction, and a vertical arm is connected with a surface of the material guiding conveyer belt 7 in an input direction. A conveying chain 22 is arranged above the shaping machine 20, a conveying hanging rod 21 is arranged on the conveying chain 22, an input steering wheel 23 is arranged on the conveying chain 22 at the inlet of the shaping machine 20, an output steering wheel 24 at the outlet of the shaping machine 20, a transfer component is matched with the conveying hanging rod 21 at the inlet steering wheel 23, a stripping component is arranged on the outer side of the output steering wheel 24, and a material storage component is arranged below the stripping component.

The material storage assembly comprises lateral baffles 12 and a material discharge belt 25, wherein the material discharge belt 25 is installed on a rack, the output end of the material discharge belt 25 is positioned below the stripping guide cylinder 6, the lateral baffles 12 are vertically fixed on the rack on two sides of the material discharge belt 25, a material control baffle 14 is installed at the end part of one of the lateral baffles 12 at the output end of the material discharge belt 25, the material control baffle 14 is positioned above the bearing surface of the material discharge belt 25, a material discharge channel is reserved between the bottom of the installed material control baffle 14 and the bearing surface of the material discharge belt 25, the output end of the material discharge belt 25 penetrates through the material discharge channel to form an output section, a plurality of convex blocks 16 are equidistantly distributed on the surface of the material discharge belt 25, and an interval conveying station is reserved between adjacent convex blocks 16; the distance between the top of the bump 16 and the bottom of the material control baffle 14 is smaller than the outer diameter of the floater, and the distance between the surface of the distance conveying belt 13 and the bottom of the material control baffle 14 is larger than the outer diameter of the floater; the machine frame on the two sides of the output end of the discharge belt 25 is provided with first pressure plate supporting rods 17, a supporting rod transverse plate 18 is connected between the tops of the two first pressure plate supporting rods 17, a second pressure plate supporting rod 19 is arranged on the supporting rod transverse plate 18, and the bottom of the second pressure plate supporting rod 19 is downwards connected with the float limiting pressure plate 11; the top of the second pressing plate supporting rod 19 is engaged with a supporting rod adjusting nut, the middle of the second pressing plate supporting rod 19 is expanded to form a supporting rod limiting ring 111, a pressing plate buffer spring 112 is sleeved on the second pressing plate supporting rod 19 between the supporting rod limiting ring 111 and the supporting rod transverse plate 18, the top of the pressing plate buffer spring 112 is abutted against the supporting rod transverse plate 18, and the bottom of the pressing plate buffer spring 112 is abutted against the top of the supporting rod limiting ring 111.

The stripping component comprises a stripping shaft 3, a stripping baffle ring 5, a stripping baffle plate and a stripping outer cover 8, wherein the stripping shaft 3 is arranged outside an output steering wheel 24, the mounted stripping shaft 3 is positioned above a storage component, a fixing ring is arranged at the end part of the stripping shaft 3 far away from the output steering wheel 24, an adjusting connecting rod 10 is arranged on the fixing ring, the stripping baffle ring 5 is connected on the adjusting connecting rod 10, a cylindrical stripping guide cylinder 6 is fixed at one side of the stripping baffle ring 5 opposite to a conveying chain 22, a stripping suction fan 9 is arranged on a rack at the other side of the stripping baffle ring 5, the suction end of the stripping suction fan 9 is right opposite to the stripping baffle ring 5, stripping baffle plates with the number larger than 2 are uniformly distributed on the peripheral surface of the stripping guide cylinder 6, a stripping bearing area is formed between adjacent stripping baffle plates, a suction hole is arranged on the stripping baffle ring 5 of the stripping bearing area, a stripping outer cover 8 is arranged on the rack outside the stripping guide cylinder 6, the stripping outer cover 8 is arc-shaped, the inner arc surface of the stripping outer cover faces downwards, a connecting rod adjusting thread is arranged at one end of the adjusting connecting rod 10, and the connecting rod adjusting thread is meshed with the edge of the fixing ring.

The transfer component comprises a transfer shaft 413, a transfer drum 414 and a transfer block 416, wherein the transfer shaft 413 is horizontally arranged on a rack outside the output end of the material guide conveying belt 7, the transfer drum 414 is arranged on the transfer shaft 413, transfer grooves 415 with the number larger than 2 are arranged on the peripheral surface of the transfer drum 414 along the axial direction, the length direction of the transfer grooves 415 is consistent with the width direction of the material guide conveying belt 7, the transfer block 416 is arranged on the rack in the output direction of the transfer drum 414, a material pushing guide shaft 417 is horizontally arranged on the rack above the transfer block 416, a transfer cylinder 418 is arranged on the rack below the material pushing guide shaft 417, a transfer guide plate 417 is movably arranged on the material pushing guide shaft, a piston rod of the transfer cylinder 418 is connected with the upper part of the transfer guide plate 419, and a transfer push rod 410 is horizontally arranged on the lower part of the transfer guide plate 419.

The guide component comprises a conveying rotating shaft 33, a conveying guide cylinder 34 and a guide cylinder limiting plate 36, wherein one end of the conveying rotating shaft 33 is installed on a rack through a rotating shaft bearing ring, the installed conveying rotating shaft 33 is positioned on the outer side of the output end of the discharging plate 2, the middle part of the conveying rotating shaft 33 is expanded to form the conveying guide cylinder 34, conveying guide grooves 35 with the number larger than 2 are arranged on the outer peripheral surface of the conveying guide cylinder 34 along the axial direction, a guide cylinder limiting plate 36 is installed on the rack below the conveying guide cylinder 34, a limiting channel is reserved between the guide cylinder limiting plate 36 and the conveying guide cylinder 34, the lower end of the guide conveying belt 7 is positioned below the output end of the guide cylinder limiting plate 36, a roller at the lower end of the guide conveying belt 7 is a driving roller, one end of the driving roller is provided with a roller main shaft 310, the driving pulley 311 is installed on the roller main shaft 310, one end of the conveying rotating shaft 33 is provided with a synchronous pulley 312, a driven pulley 313 is installed on the rack above the synchronous pulley 312, the driving pulley 311 and the driven pulley 313 are connected by a timing chain 314, and the timing chain 314 meshes with the timing pulley 312.

The structure or the components which are not described in detail can be installed according to the conventional mode in the market, such as a motor, a transmission chain, a belt wheel and the like, a synchronous belt wheel is meshed with the outer side of the transmission chain, the lower end of the material guide conveying belt is positioned below the output end of the discharging plate, a floater vibrates through a material vibrating disc to discharge materials onto the discharging plate, a transmission speed reducer synchronously drives the material guide conveying belt (upward conveying) and the conveying rotating shaft to operate (downward rotation of the conveying rotating shaft) through the transmission chain, a floater at the output end of the discharging plate is blocked by the outer peripheral surface of the conveying guide cylinder, when the conveying guide groove on the conveying guide cylinder moves to the output end of the discharging plate, the floater at the output end of the discharging plate enters the conveying guide groove, the conveying guide groove continuously rotates downward, the floater enters the limiting channel, and finally falls onto the material guide conveying belt from the output end of the guide cylinder limiting plate (and is limited by the material feeding baffle to prevent the floater from rolling out from the lower end of the material guide conveying belt), the material is driven to move to the output end by a material guide conveying belt;

a certain distance is reserved between the outer peripheral surface of the transfer drum and the end part of the output end of the guide conveying belt, the distance is smaller than the diameter of the floater, the floater is conveyed by the guide conveying belt, each feeding baffle corresponds to one floater, the floaters are conveyed by being separated by the corresponding feeding baffles, the transfer drum is driven by the corresponding transfer motor to rotate, the upper floater moves to the output end of the guide conveying belt and is blocked by the outer peripheral surface of the transfer drum, when a transfer groove on the transfer drum rotates to the output end of the guide conveying belt, the floater rolls into a transfer groove, the transfer motor drives the transfer drum to continue rotating, the floaters are driven by the transfer groove to synchronously move, when the floaters move to the upper part of the transfer block, the floaters roll out of the transfer groove under the self-weight and fall into a positioning groove of the transfer block, a piston rod of the transfer cylinder contracts to drive a transfer push rod to move, and the transfer push the floater to a conveying hanging rod input to a steering wheel;

the conveying chain operates, the conveying hanging rod and the floater are conveyed into a shaping machine together for shaping, after shaping is completed, the conveying chain drives the conveying hanging rod to move to an output steering wheel, air suction is carried out at an air suction opening of a stripping suction fan to generate suction force, the suction force is sucked to the floater through an air suction hole, so that the floater is separated from the conveying hanging rod of the conveying belt, the separated floater enters a stripping bearing area under the action of the suction force, is blocked by a stripping baffle ring and is guided by a stripping baffle plate, meanwhile, a stripping shaft synchronously rotates along with a steering shaft, the floater moves downwards, and when the air suction hole is separated from the range of the air suction opening, the floater loses the suction force and falls onto the discharging belt; the floater on the discharge belt is stacked for storing materials, the two ends of the floater are limited through corresponding lateral baffles, the floater in the output direction of the discharge belt is blocked by the material control baffles, the height of the material control baffles is adjusted as required, the floater at the lowest layer on the discharge belt falls into the interval conveying station, when the discharge belt runs, the horizontal plane of the top of the floater entering the interval conveying station is lower than the horizontal plane of the bottom of the material control baffles, the floater smoothly passes through the bottom of the material control baffles, the output is driven through the interval conveying belt, and the pressure plate limits the height of the output floater to prevent the floater from jumping out of the interval conveying station; compact structure after this scheme of adoption, degree of automation is high, excellent in use effect, can effectively form continuous production line.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a float shaping device, it is including rack-mounted shake charging tray (1) and trimmer (20), row's flitch (2), its characterized in that are installed to the output that shakes charging tray (1): install the direction subassembly in the frame of row flitch (2) output, guide conveyer belt (7) are installed to the slope in the frame of direction subassembly below, be equipped with the transfer subassembly in the frame of guide conveyer belt (7) output, trimmer (20) top is equipped with transport chain (22), be equipped with on the transport chain (22) and carry peg (21), be equipped with input directive wheel (23) on the transport chain (22) of trimmer (20) entrance, the output directive wheel (24) of trimmer (20) exit, the transfer subassembly cooperates with transport peg (21) of input directive wheel (23) department, output directive wheel (24) outside is equipped with takes off the material subassembly, it is equipped with the storage subassembly to take off material subassembly below.

2. A float-shaping device as claimed in claim 1, wherein: the storage assembly comprises lateral baffles (12) and a material discharge belt (25), wherein the material discharge belt (25) is installed on a rack, the output end of the material discharge belt (25) is positioned below a material release guide cylinder (6), the lateral baffles (12) are vertically fixed on the rack on two sides of the material discharge belt (25), a material control baffle (14) is installed at the end part of one lateral baffle (12) at the output end of the material discharge belt (25), the material control baffle (14) is positioned above the bearing surface of the material discharge belt (25), a material discharge channel is reserved between the bottom of the installed material control baffle (14) and the bearing surface of the material discharge belt (25), the output end of the material discharge belt (25) penetrates through the material discharge channel to form an output section, a plurality of convex blocks (16) are equidistantly distributed on the surface of the material discharge belt (25), and an interval conveying station is reserved between adjacent convex blocks (16); the distance between the top of the bump (16) and the bottom of the material control baffle (14) is smaller than the outer diameter of the floater, and the distance between the surface of the distance conveying belt (13) and the bottom of the material control baffle (14) is larger than the outer diameter of the floater; the rack on two sides of the output end of the material discharging belt (25) is provided with first pressing plate supporting rods (17), a supporting rod transverse plate (18) is connected between the tops of the two first pressing plate supporting rods (17), a second pressing plate supporting rod (19) is arranged on the supporting rod transverse plate (18), and the bottom of the second pressing plate supporting rod (19) is downwards connected with the float limiting pressing plate (11); a supporting rod adjusting nut is meshed with the top of the second pressing plate supporting rod (19), the middle of the second pressing plate supporting rod (19) is expanded to form a supporting rod limiting ring (111), a pressing plate buffer spring (112) is sleeved on the second pressing plate supporting rod (19) between the supporting rod limiting ring (111) and the supporting rod transverse plate (18), the top of the pressing plate buffer spring (112) is abutted to the supporting rod transverse plate (18), and the bottom of the pressing plate buffer spring (112) is abutted to the top of the supporting rod limiting ring (111).

3. A float-shaping device as claimed in claim 1, wherein: the stripping assembly comprises a stripping shaft (3), stripping baffle rings (5), stripping baffles and a stripping outer cover (8), wherein the stripping shaft (3) is arranged on the outer side of an output steering wheel (24), the mounted stripping shaft (3) is positioned above the storage assembly, a fixing ring is arranged at the end part of the stripping shaft (3) far away from the output steering wheel (24), an adjusting connecting rod (10) is arranged on the fixing ring, the stripping baffle rings (5) are connected on the adjusting connecting rod (10), cylindrical stripping guide cylinders (6) are fixed on one side of the stripping baffle rings (5) opposite to a conveying chain (22), stripping suction fans (9) are arranged on the rack on the other side of the stripping baffle rings (5), the suction ends of the stripping suction fans (9) are opposite to the stripping baffle rings (5), stripping baffles with the number larger than 2 are uniformly distributed on the outer peripheral surfaces of the stripping guide cylinders (6), and stripping bearing areas are formed between the adjacent stripping baffles, the material taking-off baffle ring (5) in the material taking-off bearing area is provided with an air suction hole, the rack outside the material taking-off guide cylinder (6) is provided with a material taking-off outer cover (8), the material taking-off outer cover (8) is arc-shaped, the inner arc surface of the material taking-off outer cover faces downwards, one end of the adjusting connecting rod (10) is provided with a connecting rod adjusting thread, and the connecting rod adjusting thread is meshed with the edge of the fixing ring to be connected.

4. A float-shaping device as claimed in claim 1, wherein: the transfer component comprises a transfer shaft (413), a transfer cylinder (414) and a transfer block (416), the middle rotating shaft (413) is horizontally arranged on a rack on the outer side of the output end of the material guide conveying belt (7), a middle rotating drum (414) is arranged on the middle rotating shaft (413), the number of middle rotating grooves (415) larger than 2 are arranged on the outer peripheral surface of the middle rotating drum (414) along the axis direction, the length direction of each middle rotating groove (415) is consistent with the width direction of the material guide conveying belt (7), a middle rotating block (416) is arranged on the rack in the output direction of the middle rotating drum (414), a material pushing guide shaft (417) is horizontally arranged on the rack above the middle rotating block (416), a middle rotating cylinder (418) is arranged on the rack below the material pushing guide shaft (417), a middle guide plate (419) is movably arranged on the material pushing guide shaft (417), a piston rod of the middle rotating cylinder (418) is connected with the upper part of the middle guide plate (419), and a middle rotating push rod (410) is horizontally arranged on the lower part of the middle guide plate (419).

5. A float-shaping device as claimed in claim 1, wherein: the feeding baffle plates (48) are uniformly distributed on the surface of the material guiding conveying belt (7), the feeding baffle plates (48) are in a 7 shape, the end parts of cross arms of the feeding baffle plates are connected with the surface of the material guiding conveying belt (7) in the output direction, and vertical arms of the feeding baffle plates are connected with the surface of the material guiding conveying belt (7) in the input direction.

6. A float-shaping device as claimed in claim 1, wherein: the guide assembly comprises a conveying rotating shaft (33), a conveying guide cylinder (34) and a guide cylinder limiting plate (36), wherein one end of the conveying rotating shaft (33) is installed on a rack through a rotating shaft bearing ring, the installed conveying rotating shaft (33) is located on the outer side of the output end of the discharging plate (2), the middle of the conveying rotating shaft (33) is expanded to form the conveying guide cylinder (34), conveying guide grooves (35) with the number larger than 2 are formed in the outer peripheral surface of the conveying guide cylinder (34) along the axis direction, a guide cylinder limiting plate (36) is installed on the rack below the conveying guide cylinder (34), a limiting channel is reserved between the guide cylinder limiting plate (36) and the conveying guide cylinder (34), the lower end of the guide conveying belt (7) is located below the output end of the guide cylinder limiting plate (36), a roller at the lower end of the conveying belt (7) is a driving roller, a roller main shaft (310) is arranged at one end of the driving roller, a driving belt wheel (311) is installed on the roller main shaft (310), a synchronous pulley (312) is installed at one end of the conveying rotating shaft (33), a driven pulley (313) is installed on the rack above the synchronous pulley (312), the driving pulley (311) is connected with the driven pulley (313) through a synchronous chain (314), and the synchronous pulley (312) is meshed with the synchronous chain (314).