CN218171078U - Heat setting equipment for suspended core material - Google Patents

Abstract

The utility model relates to the technical field of heat setting of a suspension core material, in particular to a heat setting device of a suspension core material, which comprises a conveying device, a heating device and a cooling device; the conveying device comprises a conveying bracket, a feeding guide assembly and a conveying belt assembly; the feeding guide assembly is arranged at the feeding end of the conveying support, the conveying belt assemblies are horizontally arranged on the conveying support, and the ends of two adjacent groups of conveying belt assemblies are connected; the heating device is arranged outside the conveying device and used for heating the suspended core material on the conveying belt assembly; the cooling device is connected to the discharge end of the conveying device and used for cooling and shaping the heated suspended core material. The utility model has the advantages that this equipment can be carried the core material that suspends automatically through conveyor to can make the core material that suspends heat when carrying through heating device and warp, at last through carrying to cooling device in, the core material that suspends after will warping cools off the design, has promoted the core material design quality of suspending after heat setting efficiency and the heat setting greatly.

Description

Heat setting equipment for suspended core material

Technical Field

The utility model relates to a suspension core material heat setting technical field especially relates to a suspension core material heat setting equipment.

Background

The existing suspension core material processing method comprises the steps of putting a batch of processed suspension core materials into a heating box to be heated according to given time and given temperature, taking out the batch of suspension core materials after the heating is finished, placing the batch of suspension core materials outside for natural cooling, and putting another batch of suspension core materials into the heating box for heating.

Through above-mentioned heat setting mode, not only need artifical repeated last unloading, it is inhomogeneous still to make the suspension core material of stacking together be heated easily, leads to suspension core material quality after the heat setting substandard, still remains the suspension core material natural cooling after still making the heating simultaneously, and whole process is wasted time and energy, reduces heat setting efficiency and heat setting quality greatly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve is that current suspension core material wastes time and energy in the heat setting course of working, and the technical problem that heat setting inefficiency and heat setting quality are poor provides the processing that the convenient core material that will suspend adds thermal deformation and cooling design when carrying, has promoted the suspension core material heat setting equipment of heat setting efficiency and heat setting quality greatly.

For the purpose of the utility model, the following technical proposal is adopted to realize:

a suspended core material heat setting equipment comprises a conveying device, a heating device and a cooling device; the conveying device comprises a conveying bracket, a feeding guide assembly and a conveying belt assembly; the feeding guide assembly is arranged at the feeding end of the conveying support, the conveying belt assemblies are arranged on the conveying support in the horizontal direction, and the two adjacent groups of conveying belt assemblies are arranged in a tail-ending connection manner; the heating device is arranged outside the conveying device and used for heating the suspended core material on the conveying belt assembly; the cooling device is connected to the discharge end of the conveying device and used for cooling and shaping the heated suspended core material. This equipment can carry the suspension core material automatically through conveyor to can make the suspension core material heat when carrying and warp through heating device, at last through carrying to cooling device in, will warp the suspension core material after cooling and stereotype, promoted the suspension core material design quality after heat setting efficiency and heat setting greatly.

Preferably, the feeding guide assembly is positioned at the feeding end side of the conveyor belt assembly, and comprises a first guide roller and a second guide roller; the first guide roller and the second guide roller are respectively and rotatably connected to the feeding end of the conveying support, the first guide roller and the second guide roller are aligned up and down, and a guide gap for the entering of the suspended core material is formed between the first guide roller and the second guide roller; one end of the first guide roller or the second guide roller is connected with a guide roller driving motor. Through putting into the core material that suspends to the direction clearance in, drive first guide roll through guide roll driving motor with one in the second guide roll rotates to through first guide roll, suspend the core material and frictional force between the second guide roll three can be with suspending the core material transport to the conveyer belt subassembly on, be convenient for better with suspending the core material guide and transport.

Preferably, the heating device comprises a heating bracket, a heating cover and a plurality of heating fans; the heating cover is arranged on the heating support, and a heating feed inlet for feeding the suspended core material is formed in the feed end of the heating cover; the discharge end of the heating cover is provided with a heating discharge hole for conveying the suspended core materials out; the heating cover is wrapped outside the conveying device, and the feeding end part of the conveying device is positioned outside the heating feeding hole; the discharge end part of the conveying device is positioned outside the heating discharge port; the heating fans are arranged at the bottom of the heating cover at intervals and send hot air into the heating cover. Heating mantle through heating device is convenient for cover conveyor to heat through heating fan, can make the suspension core material carry and add the thermal deformation in heating mantle, can ensure homogeneity and the stability of heating through a plurality of heating fans and heating mantle, be convenient for heat when the suspension core material is carried, promote heating efficiency greatly, also be convenient for simultaneously add the back and directly carry and stereotype in cooling device.

Preferably, the top of the heating cover is provided with at least one heating air outlet. The air outlet is convenient for better discharging hot air inside the heating cover, and meanwhile, the hot air inside the heating cover can be circulated, so that the suspended core material is heated uniformly.

Preferably, the plurality of heating fans are arranged in two rows and multiple columns at equal intervals on the front side and the rear side of the bottom of the heating cover. The suspension core material can be heated uniformly and more comprehensively by the heating fan in the arrangement mode.

Preferably, the cooling device comprises a cooling bracket, a cooling conveying assembly, a cooling cover and a plurality of cooling fans; the cooling conveying assembly is horizontally arranged on the cooling support, the feeding end of the cooling conveying assembly is connected with the discharging end of the conveying belt assembly, the cooling cover is arranged on the cooling support and covers the outer side of the cooling conveying assembly, and the feeding end of the cooling cover is provided with a cooling feeding hole; a cooling discharge hole is formed in the discharge end of the cooling cover; the plurality of radiating fans are arranged on the front side and the rear side of the cooling cover at intervals; and at least one cooling air outlet is formed in the top of the cooling cover. On suspension core material through heating deformation carried to cooling conveyor components, through cooling conveyor components when carrying suspension core material blow to suspension core material through radiator fan, make suspension core material can cool off the design fast, replace current suspension core material directly pile carry out natural cooling's mode outside putting, accelerated the efficiency that the cooling was stereotyped greatly, also further guarantee the design effect and the design quality after the suspension core material heating simultaneously.

Preferably, the conveyor belt assembly and the cooling conveyor assembly respectively comprise a feeding roller, a discharging roller, a conveying net, a conveying motor and a conveyor belt; the feeding roller is rotatably connected to the feeding end of the conveying support, and the discharging roller is rotatably connected to the discharging end of the conveying support; the conveying net is connected to the feeding roller and the discharging roller in a tensioning manner; the conveying motor is arranged on the conveying support, a driving shaft of the conveying motor is connected with a first guide wheel, one end of the discharging roller is connected with a second guide wheel, and the conveying belt is connected to the first guide wheel and the second guide wheel in a tensioning mode. The bottom that can make the suspension core material through carrying the net plays the even effect of being heated when the heating, also can play the even effect of cooling when the cooling, prevents to appear the bottom that makes the suspension core material and hot-blast and cold wind contactless and leads to the suspension core material to warp the phenomenon not in place, has promoted the conveying efficiency of whole production line greatly through conveyer belt assembly, need not the manual work and carries from top to bottom.

Preferably, the plurality of cooling fans are arranged at equal intervals on the front and rear sides of the cooling cover, and the cooling fans on the front and rear sides are aligned. The suspension core material is further uniformly cooled after being heated through the structure, so that a better shaping effect is achieved.

Preferably, the feeding device further comprises a feeding frame, wherein a plurality of feeding rollers are rotationally connected in the feeding frame, and connecting lines among the feeding rollers are arc-shaped. The cylindrical suspension core material which is rolled up is convenient to place through the feeding frame, and the circular arc-shaped structure is convenient to combine with the cylindrical suspension core material, so that the suspension core material can conveniently roll for feeding.

Preferably, the material receiving device further comprises a material receiving frame and a material receiving frame, wherein the material receiving frame is arranged at the top of the material receiving frame, and a first material receiving roller and a second material receiving roller are rotationally connected in the material receiving frame; the first material receiving roller and the second material receiving roller are horizontally arranged on the inner bottom surface of the material receiving frame, and one end of the second material receiving roller is connected with a first material receiving guide wheel; a material receiving motor is arranged at the lower part of the material receiving frame; a second material receiving guide wheel is connected to a driving shaft of the material receiving motor; and a material receiving synchronous belt is connected between the first material receiving guide wheel and the second material receiving guide wheel in a tensioning manner. Receive the material motor and drive the second through receiving the material hold-in range and receive the material roller and rotate to make the suspension core material after the heat setting also roll on first receipts material roller under the roll of second receipts material roller, be convenient for roll up the suspension core material after the heat setting that will carry out and accomodate and be cylindricly, be convenient for carry to next process and handle.

To sum up, the utility model has the advantages that can carry the suspension core material automatically through conveyor to can make the suspension core material heat when carrying and warp through heating device, at last through carrying to cooling device in, cool off the suspension core material after will warping and stereotype, promote the suspension core material design quality after heat setting efficiency and heat setting greatly.

Drawings

Fig. 1 is a schematic structural view of the suspended core material heat setting apparatus of the present invention.

Fig. 2 is a top view of the suspended core material heat setting apparatus of the present invention.

Fig. 3 is a sectional view of the heating apparatus of the present invention.

Wherein: 1. a conveying device; 11. a delivery stent; 12. a feed guide assembly; 121. a first guide roller; 122. a second guide roller; 13. a conveyor belt assembly; 131. a feed roll; 132. a discharging roller; 133. a conveying net; 134. a conveying motor; 135. a conveyor belt; 2. a heating device; 21. heating the stent; 22. a heating mantle; 221. heating the feed inlet; 222. heating the discharge hole; 223. heating the air outlet; 23. a heating fan; 3. a cooling device; 31. cooling the support; 32. a cooling conveyor assembly; 33. a cooling jacket; 331. cooling the feed inlet; 332. cooling the discharge hole; 333. cooling the air outlet; 34. a heat radiation fan; 4. a feeding frame; 41. a feed roller; 5. a material receiving frame; 51. a first receiving roller; 52. a second receiving roller; 6. a material receiving frame; 61. a material receiving motor; 62. a material receiving synchronous belt.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1 to 3, a suspended core material heat setting apparatus includes a conveying device 1, a heating device 2, and a cooling device 3; the conveying device 1 comprises a conveying bracket 11, a feeding guide assembly 12 and a conveying belt assembly 13; the feeding guide assembly 12 is arranged at the feeding end of the conveying support 11, the conveying belt assemblies 13 are arranged on the conveying support 11 in the horizontal direction, and the two adjacent groups of conveying belt assemblies 13 are arranged in a tail-ending connection manner; the heating device 2 is arranged outside the conveying device 1 in a wrapping mode, and the heating device 2 is used for heating the suspended core materials on the conveying belt assembly 13; cooling device 3 links up at conveyor 1's discharge end, and cooling device 3 is used for cooling the design with the suspension core material after the heating. This equipment can carry the suspension core material automatically through conveyor 1 to can make the suspension core material heat when carrying through heating device 2 and warp, at last through carrying to cooling device 3 in, will warp the suspension core material after cooling and stereotype, promote the suspension core material design quality after heat setting efficiency and heat setting greatly.

As shown in fig. 1, the feeding guide assembly 12 is located at the feeding end side of the conveyor belt assembly 13, and the feeding guide assembly 12 includes a first guide roller 121 and a second guide roller 122; the first guide roller 121 and the second guide roller 122 are respectively connected to the feeding end of the conveying bracket 11 in a rotating manner, the first guide roller 121 and the second guide roller 122 are aligned up and down, and a guide gap for the entering of the suspended core material is arranged between the first guide roller 121 and the second guide roller 122; a guide roller driving motor is connected to one end of the first guide roller 121 and the second guide roller 122. Through putting into the core material that suspends to the direction clearance, drive one in first guide roll 121 and the second guide roll 122 through guide roll driving motor and rotate to can carry the core material that suspends to conveyer belt subassembly 13 through the frictional force between first guide roll 121, suspension core material and the second guide roll 122 three, be convenient for better with the suspension core material guide and carry.

As shown in fig. 1 to 3, the heating device 2 includes a heating support 21, a heating cover 22, and a plurality of heating fans 23; the heating cover 22 is arranged on the heating support 21, and a heating feed port 221 for the suspension core material to enter is arranged at the feed end of the heating cover 22; a heating discharge port 222 for conveying the suspended core materials is arranged at the discharge end of the heating cover 22; the heating cover 22 is wrapped outside the conveying device 1, and the feeding end part of the conveying device 1 is positioned outside the heating feeding hole 221; the discharge end part of the conveying device 1 is positioned outside the heating discharge port 222; a plurality of heating fans 23 are arranged at intervals at the bottom of the heating mantle 22, and the heating fans 23 send hot air into the heating mantle 22. Heating mantle 22 through heating device 2 is convenient for cover conveyor 1 to heat through heating blower 23, can make the suspension core material carry and add the thermal deformation to heating mantle 22 in, can ensure homogeneity and the stability of heating through a plurality of heating blowers 23 and heating mantle 22, be convenient for heat when the suspension core material is carried, promote heating efficiency greatly, also be convenient for add the back of heat simultaneously and directly carry and stereotype in cooling device 3. The top of the heating mantle 22 is provided with two heating air outlets 223. The heating air outlet 223 is convenient for discharging the hot air in the heating cover 22 better, and meanwhile, the hot air in the heating cover can be circulated, so that the suspended core material is heated uniformly. The plurality of heating fans 23 are arranged in two rows and multiple columns and are arranged on the front side and the rear side of the bottom of the heating cover 22 at equal intervals. The arrangement of the heating fan 23 facilitates better uniform and more complete heating of the suspended core material.

As shown in fig. 1 and 2, the cooling device 3 includes a cooling rack 31, a cooling conveyance assembly 32, a cooling cover 33, and a plurality of heat radiation fans 34; the cooling conveying assembly 32 is horizontally arranged on the cooling support 31, the feeding end of the cooling conveying assembly 32 is connected with the discharging end of the conveying belt assembly 13, the cooling cover 33 is arranged on the cooling support 31, the cooling cover 33 covers the outer side of the cooling conveying assembly 32, and the feeding end of the cooling cover 33 is provided with a cooling feeding hole 331; a cooling discharge hole 332 is formed in the discharge end of the cooling cover 33; a plurality of heat radiation fans 34 are arranged at intervals on the front and rear sides of the cooling cover 33; the top of the cooling hood 33 is provided with at least one cooling air outlet 333. On suspension core material through heating deformation carried to cooling conveyor components 32, through cooling conveyor components 32 blowing to suspension core material through radiator fan 34 when carrying suspension core material, make suspension core material can cool off the design fast, replace current suspension core material directly pile to put and carry out the mode of natural cooling outside, accelerated the efficiency that the cooling was stereotyped greatly, also further guarantee the design effect and the design quality after the suspension core material heating simultaneously. The plurality of heat dissipation fans 34 are arranged at equal intervals on the front and rear sides of the cooling cover 33, and the heat dissipation fans 34 on the front and rear sides are aligned. Through the structure, the suspended core material is further uniformly cooled after being heated, so that a better shaping effect is achieved.

As shown in fig. 1 and 2, the conveyor belt assembly 13 and the cooling conveyor assembly 32 each include a feed roller 131, a discharge roller 132, and a conveyor web 133, a conveyor motor 134, and a conveyor belt 135; the feed roller 131 is rotatably connected to the feed end of the conveying bracket 11, and the discharge roller 132 is rotatably connected to the discharge end of the conveying bracket 11; the conveying net 133 is connected on the feeding roller 131 and the discharging roller 132 in a tensioning way; the conveying motor 134 is arranged on the conveying support 11, a driving shaft of the conveying motor 134 is connected with a first guide wheel, one end of the discharging roller 132 is connected with a second guide wheel, and the conveying belt 135 is connected on the first guide wheel and the second guide wheel in a tensioning mode. Even effect of being heated is played in the bottom that can make the suspension core material through carrying net 133 when heating, also can play the even effect of cooling when the cooling, prevents to appear making the bottom of suspension core material and hot-blast and cold wind contactless and leads to the phenomenon that the suspension core material warp not in place, has promoted the conveying efficiency of whole production line greatly through conveyor assembly 13, need not the manual work and carries from top to bottom.

As shown in fig. 1, the device further comprises a feeding frame 4, wherein a plurality of feeding rollers 41 are rotatably connected in the feeding frame 4, and connecting lines among the feeding rollers 41 are arc-shaped. The cylindrical suspended core material which is rolled up is convenient to place through the feeding frame 4, and the arc-shaped structure is convenient to combine with the cylindrical suspended core material, so that the suspended core material can be fed in a rolling manner.

As shown in fig. 1 and fig. 2, the device further comprises a material receiving frame 5 and a material receiving rack 6, wherein the material receiving frame 5 is arranged at the top of the material receiving rack 6, and a first material receiving roller 51 and a second material receiving roller 52 are rotatably connected in the material receiving frame 5; the first material receiving roller 51 and the second material receiving roller 52 are horizontally arranged on the inner bottom surface of the material receiving frame 5, and one end of the second material receiving roller 52 is connected with a first material receiving guide wheel; a material receiving motor 61 is arranged at the lower part of the material receiving frame 6; a second material receiving guide wheel is connected to a driving shaft of the material receiving motor 61; a material receiving synchronous belt 62 is connected between the first material receiving guide wheel and the second material receiving guide wheel in a tensioning manner. Receive material motor 61 and drive second through receiving material hold-in range 62 and receive material roller 52 and rotate to make the suspension core material after the heat setting under the roll of second receipts material roller 52, also roll on first receipts material roller 51, the suspension core material after the heat setting of being convenient for will carrying out is rolled up and is accomodate and be cylindricly, is convenient for carry to next process and handles.

During heat setting, the processed suspended core material is rolled up and placed into the feeding frame 4, one end of the rolled cylindrical suspended core material is manually fed into a guide gap between the first guide roller 121 and the second guide roller 122 of the feeding guide assembly 12, the first guide roller 121 is driven to rotate by the guide roller driving motor, the suspended core material can be conveyed to the conveying net 133 on the conveying belt assembly 13 of the conveying device 1 through the friction force between the first guide roller 121 and the second guide roller 122, the conveying net 133 is driven to horizontally convey by the conveying motor 134, meanwhile, the heating fan 23 on the heating device 2 is started, hot air at the bottom of the heating fan 23 passes through a net hole on the conveying net 133 to heat the suspended core material, the hot air rises, the suspended core material can be heated and deformed more comprehensively and more uniformly, the deformed suspended core material is horizontally conveyed to the cooling conveying assembly 32 on the cooling device 3 through the conveying net 133 after being deformed according to a given temperature and a given time, the deformed suspended core material is horizontally conveyed to the cooling conveying assembly 32 through the starting fan, the suspended core material is conveyed to the cooling and conveyed to the subsequent suspended core material after being conveyed through the cooling frame, the cooling and the suspended core material is automatically conveyed through the first suspension conveying roller 52, the cooling and the cooling suspension material collecting process, the subsequent suspension material conveying process is carried out through the first suspension roller 52, and the second suspension material collecting process, and the suspension material conveying motor.

To sum up, the utility model has the advantages that this equipment can be carried the suspension core material automatically through conveyor 1 to can make the suspension core material heat when carrying through heating device 2 and warp, at last through carrying to cooling device 3 in, will warp the suspension core material after cooling the design, promoted the suspension core material design quality after heat setting efficiency and heat setting greatly.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present disclosure, and such changes and modifications will fall within the scope of the present invention.

Claims (10)

1. The suspended core material heat setting equipment is characterized by comprising a conveying device (1), a heating device (2) and a cooling device (3); the conveying device (1) comprises a conveying bracket (11), a feeding guide assembly (12) and a conveying belt assembly (13); the feeding guide assembly (12) is arranged at the feeding end of the conveying support (11), the conveying belt assemblies (13) are horizontally arranged on the conveying support (11), and the ends of two adjacent groups of conveying belt assemblies (13) are connected; the heating device (2) is arranged outside the conveying device (1) in a wrapping mode, and the heating device (2) is used for heating the suspended core material on the conveying belt assembly (13); the cooling device (3) is connected to the discharge end of the conveying device (1), and the cooling device (3) is used for cooling and shaping the heated suspended core material.

2. The apparatus for heat-setting a suspended core material as set forth in claim 1, wherein said feed guide assembly (12) is located at a feed end side of the conveyor belt assembly (13), the feed guide assembly (12) including a first guide roller (121) and a second guide roller (122); the first guide roller (121) and the second guide roller (122) are respectively and rotatably connected to the feeding end of the conveying support (11), the first guide roller (121) and the second guide roller (122) are aligned up and down, and a guide gap for the suspended core material to enter is arranged between the first guide roller (121) and the second guide roller (122); one end of the first guide roller (121) or the second guide roller (122) is connected with a guide roller driving motor.

3. The apparatus for heat-setting a suspended core material as set forth in claim 1, wherein said heating means (2) comprises a heating support (21), a heating mantle (22) and a plurality of heating fans (23); the heating cover (22) is arranged on the heating support (21), and a heating feed port (221) for feeding the suspended core material is formed in the feed end of the heating cover (22); a heating discharge hole (222) for delivering the suspended core material is formed in the discharge end of the heating cover (22); the heating cover (22) is wrapped outside the conveying device (1), and the feeding end part of the conveying device (1) is positioned outside the heating feeding hole (221); the discharge end part of the conveying device (1) is positioned outside the heating discharge hole (222); the plurality of heating fans (23) are arranged at the bottom of the heating cover (22) at intervals, and the heating fans (23) send hot air into the heating cover (22).

4. The apparatus for heat-setting a suspended core material as set forth in claim 3, wherein the top of said heating mantle (22) is provided with at least one heating air outlet (223).

5. The apparatus for heat-setting a suspended core material as set forth in claim 4, wherein a plurality of said heating fans (23) are arranged in two rows and a plurality of columns at equal intervals on both front and rear sides of the bottom of the heating mantle (22).

6. The apparatus for heat-setting a suspended core material as set forth in claim 1, wherein said cooling means (3) comprises a cooling rack (31), a cooling conveyance assembly (32), a cooling hood (33), and a plurality of heat radiation fans (34); the cooling conveying assembly (32) is horizontally arranged on the cooling support (31), the feeding end of the cooling conveying assembly (32) is connected with the discharging end of the conveying belt assembly (13), the cooling cover (33) is arranged on the cooling support (31), the cooling cover (33) covers the outer side of the cooling conveying assembly (32), and the feeding end of the cooling cover (33) is provided with a cooling feeding hole (331); a cooling discharge hole (332) is formed in the discharge end of the cooling cover (33); the plurality of heat radiation fans (34) are arranged at the front side and the rear side of the cooling cover (33) at intervals; the top of the cooling cover (33) is provided with at least one cooling air outlet (333).

7. The apparatus for heat-setting of suspended core material as claimed in claim 6, wherein said conveyor belt assembly (13) and said cooling conveyor assembly (32) each comprise a feed roller (131), a discharge roller (132) and a conveyor web (133), a conveyor motor (134) and a conveyor belt (135); the feeding roller (131) is rotatably connected to the feeding end of the conveying support (11), and the discharging roller (132) is rotatably connected to the discharging end of the conveying support (11); the conveying net (133) is connected on a feeding roller (131) and a discharging roller (132) in a tensioning way; the conveying motor (134) is arranged on the conveying support (11), a driving shaft of the conveying motor (134) is connected with a first guide wheel, one end of the discharging roller (132) is connected with a second guide wheel, and the conveying belt (135) is connected to the first guide wheel and the second guide wheel in a tensioning mode.

8. The apparatus for heat-setting suspended core material as claimed in claim 7, wherein a plurality of said heat-dissipating fans (34) are arranged at equal intervals on the front and rear sides of the cooling housing (33), and the heat-dissipating fans (34) on the front and rear sides are aligned.

9. The heat setting equipment for the suspended core material as claimed in claim 1, further comprising a feeding frame (4), wherein a plurality of feeding rollers (41) are rotatably connected in the feeding frame (4), and a connecting line between the plurality of feeding rollers (41) is in a circular arc shape.

10. The suspended core material heat setting equipment as claimed in claim 1, further comprising a material receiving frame (5) and a material receiving rack (6), wherein the material receiving frame (5) is arranged on the top of the material receiving rack (6), and a first material receiving roller (51) and a second material receiving roller (52) are rotatably connected to the material receiving frame (5); the first material receiving roller (51) and the second material receiving roller (52) are horizontally arranged on the inner bottom surface of the material receiving frame (5), and one end of the second material receiving roller (52) is connected with a first material receiving guide wheel; a material receiving motor (61) is arranged at the lower part of the material receiving frame (6); a second material receiving guide wheel is connected to a driving shaft of the material receiving motor (61); a material receiving synchronous belt (62) is connected between the first material receiving guide wheel and the second material receiving guide wheel in a tensioning mode.

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