CN115139439A - Filler calender - Google Patents

Abstract

The invention relates to the technical field of calenders, and provides a filler calender which comprises a frame, and a feeding assembly and a compression roller which are sequentially arranged on the frame, wherein the feeding assembly is provided with a feeding hole and a discharging hole, the feeding assembly comprises an adjusting assembly and is arranged on the frame, a calendering belt conveyor is arranged on the adjusting assembly, the pressing end surface of the calendering belt conveyor forms an acute angle alpha with the horizontal plane, the calendering belt conveyor and the horizontal plane form the feeding hole and the discharging hole, and the compression roller is positioned at the discharging hole. Through above-mentioned technical scheme, the filler calender of having solved among the correlation technique delays to the raw materials, needs operating personnel to pull the raw materials, and then leads to production efficiency low and operating personnel safety to receive the problem of threat.

Description

Filler calender

Technical Field

The invention relates to the technical field of calenders, in particular to a filler calender.

Background

Calender among the prior art is a plurality of compression rollers and mutually supports and mangles the material, when needing to be defeated material in to the calender, need operating personnel to carry out manual pay-off and pull the material, make the raw materials get into next gap behind the gap between two commentaries on classics rollers, operating personnel stretches into the winding up roller with the hand very easily when operating, because the space in the commentaries on classics roller is little when using tool operates, it is difficult for resulting in the instrument to execute the exhibition, and operating personnel still need drill to go under changeing the roller and observe and pull the raw materials and get into next gap, it is very easy to receive the injury to result in operating personnel, and need have a lot of traction step in the production process, this kind of mode leads to traction efficiency to be low.

Disclosure of Invention

The invention provides a filler calender, which solves the problems that when the filler calender delays raw materials in the related technology, an operator needs to pull the raw materials, so that the production efficiency is low and the safety of the operator is threatened.

The technical scheme of the invention is as follows:

a filler calender comprises a frame, and a feeding assembly and a compression roller which are sequentially arranged on the frame, wherein the feeding assembly is provided with a feeding hole and a discharging hole, and comprises

An adjusting component arranged on the frame,

the calendering belt conveyor is arranged on the adjusting component, the pressing end face of the calendering belt conveyor forms an acute angle alpha with the horizontal plane, the calendering belt conveyor and the horizontal plane form the feeding hole and the discharging hole, and the press roller is located at the discharging hole.

As a further technical scheme, the calendering belt conveyor comprises

A driving roller rotatably arranged on the adjusting component,

a driven roller rotatably provided on the adjusting assembly,

a tension roller rotatably disposed on the adjusting assembly,

the calendering belt is sleeved on the driving roller, the driven roller and the tensioning roller and is a steel belt, and the driving roller drives the driven roller and the tensioning roller to rotate through the calendering belt.

As a further technical scheme, the adjusting component comprises

A plurality of linear driving members which are symmetrically arranged on the machine frame and are provided with moving ends,

the slide has a plurality of, and the setting of one-to-one is in a plurality of on the removal end of linear drive spare, two that the symmetry set up slide and two correspond the setting linear drive spare constitute the sliding seat group, the removal end drives the slide moves along vertical direction, the drive roll rotates and sets up on first sliding seat group, the driven voller rotates and sets up on second sliding seat group, the tensioning roller rotates and sets up on third sliding seat group.

As a further technical scheme, the calendering belt conveyor also comprises

An eccentric roller wheel which is rotatably arranged on the frame,

a plurality of mounting supports which are arranged on the frame and are provided with guide parts,

the pressing piece is provided with a plurality of sliding sleeves, the pressing piece is arranged on the plurality of guide parts in a sliding mode through the plurality of sliding sleeves, the pressing piece abuts against the pressing end face, the eccentric roller abuts against the pressing piece, and the pressing piece slides on the guide parts after the eccentric roller rotates,

the first elastic pieces are provided with a plurality of first elastic pieces, one ends of the first elastic pieces are arranged on the pressing pieces, and the other ends of the first elastic pieces are correspondingly arranged on the mounting supports one to one and used for providing force of the pressing pieces approaching the mounting supports.

As a further technical solution, the tension roller is located between the driving roller and the driven roller, and the linear driving member includes

A screw rod which is rotatably arranged on the frame through a bearing,

the guide rod is arranged on the rack and is parallel to the screw rod, the slide seat in the third slide seat group comprises a buffer support seat which is in threaded connection with the screw rod, and the guide rod is arranged on the buffer support seat in a penetrating way,

the screw rod and the guide rod are arranged on the bearing piece in a penetrating way,

and one end of the second elastic piece is arranged on the supporting piece, and the other end of the second elastic piece is arranged on the buffer support and is used for providing the force for tensioning the calendering belt by the supporting piece.

As a further technical scheme, the calendering belt conveyor also comprises

The scraping plates are arranged on the rolling belt in an abutting mode and used for scraping the excess materials to the two sides of the rolling belt,

the guide chute is arranged on the scraper and forms a clamping groove with the scraper, the clamping groove is clamped into two sides of the calendering belt, the guide chute is provided with a guide outlet,

a plurality of third elastic pieces which are symmetrically distributed at two sides of the calendering belt, one end of each third elastic piece is arranged on the scraper, the other end of each third elastic piece is arranged on the rack and is used for providing the force of the scraper abutting against the calendering belt,

and the surplus material groove is arranged on two sides of the rack and is positioned at the material guide outlet.

As a further technical scheme, the automatic deviation correcting device further comprises a deviation correcting component arranged on the rack, and the deviation correcting component comprises

The mounting seat is arranged on the frame in a sliding manner along the vertical direction,

the detection piece is horizontally arranged on the mounting seat and provided with a detection end face, and the detection end face is abutted to the rolling belt and used for detecting the distance between the rolling belt and the detection end face.

As a further technical scheme, the calendering belt rotates along the material conveying direction.

As a further technical solution, the press roll comprises

The leveling roller is rotationally arranged on the frame and positioned at the discharge port and used for leveling the rolled raw materials,

the cutting piece is sleeved on the leveling roller and is arranged on the leveling roller in a sliding mode along the direction perpendicular to the conveying direction, and after the cutting piece slides, the cutting piece is used for cutting and leveling the raw materials after the raw materials are rolled.

The working principle and the beneficial effects of the invention are as follows:

in the invention, in order to solve the problems that the production efficiency is low and the safety of operators is threatened due to the fact that an operator needs to pull the raw material when the raw material is calendered by a filler calender in the related technology, the raw material is fed from a feeding port, the thickness of the raw material is gradually reduced along with the gradual reduction of the gap between a belt and a platform of a frame, so that the calendering effect is realized, the sizes of a feeding port and a discharging port of the calendering belt conveyor can be adjusted by an adjusting assembly, the belt calender can drive the raw material to be conveyed forwards, the raw material is flattened and shaped by a compression roller after being conveyed to the compression roller, the raw material can be conveyed to the feeding port by the conveying assembly through the conveying assembly, the raw material is continuously rolled by the power of the belt and the power of the conveying assembly, the raw material can be gradually rolled according to the rotation of the calendering belt conveyor, the operator does not need to pull the raw material, the labor intensity of the operator is reduced, and the safety is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic view of the structure of part A of FIG. 3;

FIG. 5 is a schematic view of the structure of the portion B in FIG. 2;

in the figure: 1. the device comprises a frame, 2, a feeding assembly, 3, a press roll, 4, a feeding port, 5, a discharging port, 6, an adjusting assembly, 7, a calendering belt conveyor, 8, a pressing end face, 9, a driving roll, 10, a driven roll, 11, a tensioning roll, 12, a calendering belt, 13, a linear driving element, 14, a sliding seat, 15, a first sliding seat group, 16, a second sliding seat group, 17, a third sliding seat group, 18, an eccentric roller wheel, 19, a mounting support, 20, a guide part, 21, a pressing element, 22, a sliding sleeve, 23, a first elastic element, 24, a screw rod, 25, a guide rod, 26, a buffering support, 27, a supporting element, 28, a second elastic element, 29, a scraping plate, 30, a guide groove, 31, a clamping groove, 32, a guide outlet, 33, a third elastic element, 34, a residual material groove, 35, a deviation rectifying assembly, 36, a mounting seat, 37, a detecting element, 38, a detecting end face, 39, a leveling roll, 40 and a cutting element.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 5, the present embodiment proposes

A filler calender comprises a frame 1, and a feeding component 2 and a compression roller 3 which are sequentially arranged on the frame 1, wherein the feeding component 2 is provided with a feeding hole 4 and a discharging hole 5, and the feeding component 2 comprises

An adjusting component 6 arranged on the frame 1,

the calendering belt conveyor 7 is arranged on the adjusting component 6, an acute angle alpha is formed between a pressing end face 8 of the calendering belt conveyor 7 and the horizontal plane, a feeding hole 4 and a discharging hole 5 are formed by the calendering belt conveyor 7 and the horizontal plane, and the press roller 3 is positioned at the discharging hole 5.

In the embodiment, in order to solve the problems that the filler calender in the related art delays the raw material, an operator needs to pull the raw material, and further the production efficiency is low and the safety of the operator is threatened, the filler calender is designed, specifically, the calender belt conveyor 7 is obliquely arranged on the frame 1, so that an included angle is formed between a pressure applying end surface 8 and a horizontal plane, the raw material is fed from a feed port 4, the thickness of the raw material is gradually reduced along with the gradual reduction of a gap between a belt and a platform of the frame 1, so that the calendering effect is realized, the sizes of the feed port 4 and a discharge port 5 of the calender belt conveyor 7 can be adjusted through the adjusting assembly 6, the belt calender can drive the raw material to be conveyed forwards and conveyed to the compression roller 3, compression roller 3 levels and stereotypes the raw materials, can carry the raw materials to feed inlet 4 departments through conveying component through this kind of mode operating personnel, power through the belt and conveying component's power make the raw materials continuously roll, the raw materials can be according to rolling belt feeder 7's rotation calendering gradually, do not need operating personnel to pull the raw materials, operating personnel's intensity of labour has been reduced and the security has been increased, simultaneously can set up heating element on 1 platform in the frame, continuously heat the platform, avoid the raw materials cooling, can set up the housing simultaneously on rolling belt feeder 7, realize the heat preservation function, set up collection petticoat pipe on the housing, avoid the gas pollution factory environment that the calendering in-process appears, machining efficiency has further been promoted.

Further, the calendering belt conveyor 7 comprises

A driving roller 9 which is rotatably arranged on the adjusting component 6,

a driven roller 10 rotatably provided on the adjusting assembly 6,

a tension roller 11 which is rotatably arranged on the adjusting component 6,

the calendering belt 12 is sleeved on the driving roller 9, the driven roller 10 and the tensioning roller 11, the calendering belt 12 is a steel belt, and the driving roller 9 drives the driven roller 10 and the tensioning roller 11 to rotate through the calendering belt 12.

In this embodiment, a calendering belt feeder 7 has been refined, it rotates to drive roller 9 through the motor, make drive roller 9 drive driven voller 10 and tensioning roller 11 through calendering area 12 and realize rotating, calendering area 12 is the steel band, when calendering the raw materials through the steel band, because the steel band elasticity volume is little, calendering area 12 appears springing back when can avoiding calendering area 12 to calendering the raw materials, lead to raw materials thickness variation indefinite, simultaneously because the heat conductivility of steel band is good, can be at drive roller 9, set up heating structure on driven voller 10 or/and the tensioning roller 11, through drive roller 9, driven voller 10 or/and tensioning roller 11 heat the steel band, it is easier to make the raw materials processing, further promoted machining efficiency.

Further, the adjusting assembly 6 comprises

A plurality of linear driving members 13 symmetrically arranged on the frame 1 and having moving ends,

the sliding seats 14 are arranged on the moving ends of the linear driving pieces 13 in a one-to-one correspondence mode, the two sliding seats 14 which are symmetrically arranged and the two linear driving pieces 13 which are correspondingly arranged form a sliding seat 14 group, the moving ends drive the sliding seats 14 to move in the vertical direction, the driving roller 9 is rotatably arranged on the first sliding seat 14 group, the driven roller 10 is rotatably arranged on the second sliding seat 14 group, and the tensioning roller 11 is rotatably arranged on the third sliding seat 14 group.

In this embodiment, in order to adjust the driving roll 9, the driven roll 10 and the tension roll 11, the adjusting assembly 6 is refined, the sliding seat 14 can be adjusted by the linear driving parts 13 symmetrically arranged at the two ends of the driving roll 9, the driven roll 10 and the tension roll 11, so that the sliding seat 14 can be lifted, the sizes of the feed inlet 4 and the discharge outlet 5 can be adjusted after lifting, when the driving roll 9, the driven roll 10 or/and the tension roll 11 deviate, or the thickness of the calendering belt 12 changes after being used for a long time, an operator can respectively control the linear driving parts 13 at the two sides, so that one sides of the sliding seats 14 at the two sides are lifted or lowered, the other sides of the sliding seats are unchanged or move in opposite directions, so that the calendering belt 12 keeps a specified angle, and the whole thickness of the raw materials after calendering is ensured to be consistent.

Further, the calendering belt conveyor 7 also comprises

An eccentric roller 18 which is rotatably arranged on the frame 1,

a plurality of mounting supports 19, which are all arranged on the frame 1 and are all provided with a guide part 20,

a pressing member 21 having a plurality of sliding sleeves 22, the pressing member 21 being slidably disposed on the plurality of guide portions 20 via the plurality of sliding sleeves 22, the pressing member 21 abutting against the pressing end surface 8, the eccentric roller 18 abutting against the pressing member 21, the pressing member 21 sliding on the guide portions 20 after the eccentric roller 18 rotates,

the first elastic pieces 23 are provided with a plurality of first elastic pieces, one ends of the first elastic pieces are arranged on the pressing pieces 21, and the other ends of the first elastic pieces 23 are correspondingly arranged on the mounting supports 19 one by one and used for providing force for the pressing pieces 21 to approach the mounting supports 19.

In this embodiment, in order to accelerate the rolling efficiency, a structure for assisting rolling is provided, specifically, an eccentric roller 18 is provided inside the rolling belt 12, through the rotation of the eccentric roller 18 and the cooperation of the first elastic element 23, the pressing element 21 is made to continuously reciprocate along the guide part 20 of the mounting support 19, the pressing element 21 is continuously abutted against the pressing end face 8 of the rolling belt 12, so that the rolling belt 12 continuously presses the raw material, the rolling speed is accelerated, the distance between the reciprocating motion end point of the pressing element 21 and the platform of the rack 1 is greater than the distance between the discharge port 5, the pressed raw material is prevented from sinking, the pressing element 21 can be stably pressed through the cooperation of the guide part 20 and the sliding sleeve 22, meanwhile, the width of the pressing element 21 exceeds the width of the rolling belt 12, the side of the pressing element 21 has an arc-shaped chamfer, and damage to the rolling belt 12 in the reciprocating process is avoided.

Further, a tension roller 11 is disposed between the drive roller 9 and the driven roller 10, and a linear driving member 13 includes

The screw rod 24 is rotationally arranged on the frame 1 through a bearing,

a guide rod 25 arranged on the frame 1 and parallel to the screw 24, the slide 14 in the third slide 14 group comprises a buffer support 26 in threaded connection with the screw 24, the guide rod 25 is arranged on the buffer support 26 in a penetrating way,

the supporting piece 27, the screw rod 24 and the guide rod 25 are arranged on the supporting piece 27 in a penetrating way,

the second elastic member 28 is provided at one end on the support 27 and at the other end on the cushion support 26, and is used for providing a force for the support 27 to tension the rolled strip 12.

In this embodiment, the eccentric roller 18 drives the pressing member 21 to continuously abut against the rolling belt 12, the steel belt is deformed after the trial member is used, and the tensioning fails or the processed raw material does not meet the standard, in order to avoid this situation, a buffer structure is arranged on the slide 14 where the tension roller 11 is located, specifically, the buffer support 26 is in threaded fit with the screw 24, the position of the integral slide 14 is adjusted by adjusting the position of the buffer support 26, the second elastic member 28 is arranged on the buffer support 26, the second elastic member 28 provides a force to the support 27 close to the rolling belt 12, the tension roller 11 on the support 27 has a force for tensioning the rolling belt 12, when the pressing member 21 applies pressure to the rolling belt 12, the rolling belt 12 applies pressure to the pressing belt through the rolling roller 11, so as to realize a discharging force, but the pressing belt 12 can apply pressure to the raw material, and a sliding amplitude of the pressing member 21 after the eccentric roller 18 rotates needs to be set to be between 0.5 mm and 3mm, so as to avoid the loss of the rolling belt 12 and accelerate the rolling efficiency.

Further, the calendering belt conveyor 7 also comprises

A scraper 29 which is disposed in contact with the rolling belt 12 and scrapes the excess material to both sides of the rolling belt 12,

a material guide groove 30 which is arranged on the scraping plate 29 and forms a clamping groove 31 with the scraping plate 29, the clamping groove 31 is clamped on two sides of the calendering belt 12, the material guide groove 30 is provided with a material guide outlet 32,

a plurality of third elastic members 33, which are symmetrically distributed on both sides of the rolled strip 12, one end of each third elastic member is arranged on the scraper 29, the other end of each third elastic member is arranged on the frame 1 and is used for providing the force of the scraper 29 abutting against the rolled strip 12,

and the surplus material groove 34 is arranged at the two sides of the frame 1 and is positioned at the material guide outlet 32.

In this embodiment, since a layer of raw material adheres to the surface of the rolled strip 12 after a long time use, and a decrease in processing efficiency due to an increase in the amount of raw material is avoided, the scraper 29 is provided on the upper end surface of the rolled strip 12, and the scraper 29 is V-shaped, so that the raw material can move in the direction in which the scraper 29 is provided by applying force when the rolled strip 12 moves, and the excess material moves to the material guide 30 and then enters the excess material guide 34, and the third elastic member 33 and the engaging groove 31 are provided so that the scraper 29 can be engaged with the surface of the rolled strip 12 when the rolled strip 12 reciprocates under the action of the presser 21, and the engaging groove 31 fixes the scraper 29 and the material guide 30 to the rolled strip 12, and the third elastic member 33 provides flexible connection between the scraper 29 and the rolling frame 1, and provides a force by which the scraper 29 is always engaged with the rolled strip 12, so that the excess material can be recovered, and the scraper 29 can be engaged with the rolled strip 12 all the time without being affected by other factors.

Further, still include the subassembly 35 of rectifying of setting on frame 1, the subassembly 35 of rectifying includes

A mounting seat 36 which is arranged on the frame 1 in a sliding way along the vertical direction,

the detection member 37 is horizontally provided on the mounting base 36, and has a detection end surface 38, and the detection end surface 38 is provided in abutment with the rolled strip 12 to detect the distance between the rolled strip 12 and the detection end surface 38.

In this embodiment, in order to automatically control the tension roll 11, the drive roll 9 and the driven roll 10 to keep the rolling belt 12 at a predetermined angle all the time, the bracket is provided with a mounting seat 36 capable of adjusting the height, the mounting seat 36 can be lifted by the screw 24, meanwhile, in order to ensure the stability, the bracket is provided with a sliding groove, the mounting seat 36 is arranged in the sliding groove in a sliding manner to provide stability, the detection piece 37 is hinged on the mounting seat 36 and is kept horizontally arranged, the detection end face 38 is also horizontally arranged to enable the detection end face 38 to be abutted on the rolling belt 12, the distance between the detection end face 38 and the rolling belt 12 is judged by a sensor on the detection end face 38, a signal is transmitted to the control unit, the linear driving piece 13 is controlled by the control power supply to drive the sliding seat 14 to carry out fine adjustment, the angle of the tension roll 11, the drive roll 9 and/or the driven roll 10 on the sliding seat 14 is adjusted, the pressing end face 8 of the rolling roll is kept at a predetermined angle all the time, automatic adjustment can be realized according to the monitoring, and the service life of the rolling belt 12 is further improved.

Further, the rolled sheet 12 is rotated in the material conveying direction.

In this embodiment, the rolling belt 12 can move and transport the raw material.

Further, the press roll 3 comprises

A leveling roller 39 rotatably arranged on the frame 1 and positioned at the discharge port 5 for leveling the rolled raw materials,

and the cutting piece 40 is sleeved on the leveling roller 39 and is arranged on the leveling roller 39 in a sliding manner along the direction perpendicular to the conveying direction, and after the cutting piece 40 slides, the cutting piece 40 is used for cutting the flattened and rolled raw materials.

In this embodiment, in order to make the raw materials after the calendering carry out preliminary scale, the last cutting member 40 that has set up of leveling roller 39, can adjust the width after the cutting through the position of screw rod 24 control cutting member 40, and the raw materials after the cutting can be deposited in the surplus silo 34, regularly transports to the feed bin in, can further promote the production efficiency and the quality of product through this kind of mode.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The filler calender comprises a frame (1), and a feeding component (2) and a pressing roller (3) which are sequentially arranged on the frame (1), wherein the feeding component (2) is provided with a feeding hole (4) and a discharging hole (5), and is characterized in that the feeding component (2) comprises

An adjusting component (6) arranged on the frame (1),

calendering belt feeder (7), the setting is in on adjusting part (6), calendering belt feeder (7) apply pressure terminal surface (8) and horizontal plane formation acute angle alpha, calendering belt feeder (7) constitute with the horizontal plane feed inlet (4) with discharge gate (5), compression roller (3) are located discharge gate (5) department.

2. Filler calender according to claim 1, characterised in that the calendering belt (7) comprises

A driving roller (9) rotatably arranged on the adjusting component (6),

a driven roller (10) rotatably disposed on the adjusting assembly (6),

a tension roller (11) rotatably arranged on the adjusting component (6),

calendering belt (12), the cover is established drive roll (9) driven voller (10) with on tensioning roller (11), calendering belt (12) are the steel band, drive roll (9) are passed through calendering belt (12) drive driven voller (10) with tensioning roller (11) rotate.

3. A filler calender according to claim 2, characterised in that the adjusting assembly (6) comprises

A plurality of linear driving pieces (13) which are symmetrically arranged on the frame (1) and are provided with moving ends,

slide (14), a plurality of has, and the one-to-one sets up in a plurality of on the removal end of linear drive spare (13), two that the symmetry set up slide (14) and two correspond the setting linear drive spare (13) constitute the slide group, it drives to remove the end slide (14) are removed along vertical direction, drive roll (9) rotate and set up on first slide group (15), driven voller (10) rotate and set up on second slide group (16), tensioning roller (11) rotate and set up on third slide group (17).

4. A filler calender as claimed in claim 1, characterised in that the calendering belt (7) also comprises

An eccentric roller (18) which is rotationally arranged on the frame (1),

a plurality of mounting supports (19) which are arranged on the frame (1) and are provided with guide parts (20),

the pressing piece (21) is provided with a plurality of sliding sleeves (22), the pressing piece (21) is arranged on the plurality of guide parts (20) in a sliding mode through the plurality of sliding sleeves (22), the pressing piece (21) abuts against the pressing end face (8), the eccentric roller (18) abuts against the pressing piece (21), and after the eccentric roller (18) rotates, the pressing piece (21) slides on the guide parts (20),

the first elastic pieces (23) are provided with a plurality of ends which are all arranged on the pressing pieces (21), and the other ends of the first elastic pieces (23) are correspondingly arranged on the mounting supports (19) one by one and used for providing the force of the pressing pieces (21) close to the mounting supports (19).

5. A filler calender according to claim 3, characterised in that the tensioning roller (11) is located between the drive roller (9) and the driven roller (10), and the linear drive (13) comprises

A screw rod (24) which is rotationally arranged on the frame (1) through a bearing,

a guide rod (25) arranged on the frame (1) and parallel to the screw (24), the slide (14) of the third slide group (17) comprising

A buffer support (26) which is in threaded connection with the screw rod (24), and the guide rod (25) is arranged on the buffer support (26) in a penetrating way,

the screw rod (24) and the guide rod (25) are arranged on the supporting piece (27) in a penetrating way,

and one end of the second elastic part (28) is arranged on the supporting part (27), and the other end of the second elastic part is arranged on the buffer support (26) and is used for providing the force for tensioning the rolling belt (12) by the supporting part (27).

6. A filler calender as claimed in claim 2, characterised in that the calendering belt (7) also comprises

A scraping plate (29) which is arranged on the rolling belt (12) in an abutting mode and is used for scraping the excess materials to the two sides of the rolling belt (12),

the guide chute (30) is arranged on the scraper (29) and forms a clamping groove (31) with the scraper (29), the clamping groove (31) is clamped on two sides of the calendering belt (12), the guide chute (30) is provided with a guide outlet (32),

a plurality of third elastic pieces (33) which are symmetrically distributed on two sides of the rolling belt (12), one end of each third elastic piece is arranged on the scraper (29), the other end of each third elastic piece is arranged on the rack (1) and is used for providing the force of the scraper (29) abutting against the rolling belt (12),

and the surplus material groove (34) is arranged at two sides of the rack (1) and is positioned at the material guide outlet (32).

7. The filler calender according to claim 2, characterised in that it further comprises a deviation-correcting assembly (35) arranged on the frame (1), the deviation-correcting assembly (35) comprising

A mounting seat (36) which is arranged on the frame (1) in a sliding way along the vertical direction,

the detection piece (37) is horizontally arranged on the mounting seat (36) and is provided with a detection end face (38), and the detection end face (38) is abutted to the rolled strip (12) and is used for detecting the distance between the rolled strip (12) and the detection end face (38).

8. A filler calender according to claim 2, characterised in that the calender belt (12) rotates in the direction of material transport.

9. A filler calender as claimed in claim 1, characterised in that the press roll (3) comprises

A leveling roller (39) which is rotationally arranged on the frame (1) and is positioned at the discharge hole (5) and is used for leveling the rolled raw materials,

cutting member (40), the cover is established on leveling roller (39), and slide along the perpendicular to direction of delivery and set up leveling roller (39) are last, cutting member (40) slip back, cutting member (40) are used for cutting the raw materials after the flattening is rolled.

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