CN213497650U - Skirtboard plate shearing and rounding integrated machine - Google Patents

Abstract

The utility model discloses a skirtboard plate shearing and rounding integrated machine, which comprises a frame, wherein a flattening mechanism, a primary feeding mechanism, a plate shearing mechanism, a secondary feeding mechanism, a length-fixing mechanism and a rounding mechanism are sequentially arranged on the frame, the length-fixing mechanism is fixed on the frame, and the plate shearing mechanism is arranged on the frame in a sliding manner; when the automatic plate shearing machine works, the leveling mechanism levels the long-strip-shaped apron plate, the primary feeding mechanism enables the leveled long-strip-shaped apron plate to penetrate through the plate shearing mechanism and send the leveled long-strip-shaped apron plate to the length fixing mechanism for length fixing, the plate shearing mechanism carries out plate shearing, and finally the secondary feeding mechanism sends the sheared long-strip-shaped apron plate to the rolling mechanism for rolling. The utility model integrates feeding, plate shearing and rolling, thereby improving the production efficiency and reducing the labor cost; meanwhile, the plate shearing mechanism is movable, and the fixed length mechanism is fixed, so that the traditional design is changed, equipment of subsequent process equipment is facilitated, the space is reduced, and the production efficiency is improved.

Description

Skirtboard plate shearing and rounding integrated machine

Technical Field

The utility model relates to a skirtboard processing technology field, especially a board edge-shearing circle rolling all-in-one are cut to skirtboard.

Background

The tubular pile apron board and the flange are mechanical parts which must be used in the field of buildings, when in use, the tubular pile apron board and the flange need to be fixed together to form an integral structure, the integral structure can be called as a tubular pile connecting piece, the tubular pile connecting piece is sleeved at one end of a tubular pile, substances such as concrete and the like are poured into a space where the tubular pile connecting piece is matched with the tubular pile, the tubular pile connecting piece can be fixed on the tubular pile, and before the concrete is poured, the two tubular pile connecting pieces can be fixed together through holes and screws on the flanges of the tubular pile connecting pieces, so that the two tubular piles can be fixed together through the tubular pile.

Usually, when the tube pile skirt and the flange are installed together, a great deal of preliminary work is required, such as: leveling the strip-shaped apron board, cutting, rounding, forming reinforcing ribs and the like, wherein machine equipment in each stage is fixed in different places. Therefore, the operation is very troublesome, and a great amount of manpower and material resources are needed to install the skirt plate and the flange of the tubular pile together. Meanwhile, the existing leveling, shearing and rounding devices are not perfect enough, and the treatment efficiency is low.

In the prior art, the original length fixing mode of the plate shearing machine is that a shearing mechanism is not moved, a positioning plate (namely a length fixing device) must be moved, and a feeding device is additionally arranged between the positioning plate and a rolling mechanism; because the apron produced has more specifications, there are

The specification and length of each skirt board are different, the front-end plate shearing mechanism is fixed and cannot move, the blanking length is determined by the positioning plate, the blanking length specification is large and unfixed, the positioning plate needs to move back and forth, the positioning plate cannot be fixed, the rolling mechanism cannot be fixed, and the conveying and feeding mechanism is required to be designed between the positioning plate and the rolling mechanism, so that the design is complicated.

Meanwhile, the positioning plate in the existing equipment is provided with a plurality of positioning parts in a moving way, and a plurality of sets of inductive switches are correspondingly arranged, so that the circuit of the circuit control part is extremely complex.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a board circle all-in-one is cut to skirtboard to solve the problem that proposes in the above-mentioned technical background.

In order to achieve the above object, the present invention provides a method for manufacturing a semiconductor device, comprising:

a skirtboard plate shearing and rounding integrated machine comprises a rack, wherein a flattening mechanism, a primary feeding mechanism, a plate shearing mechanism, a secondary feeding mechanism, a length fixing mechanism and a rounding mechanism are sequentially arranged on the rack, the length fixing mechanism is fixed on the rack, and the plate shearing mechanism is arranged on the rack in a sliding manner;

when the automatic plate shearing machine works, the leveling mechanism levels the long-strip-shaped apron plate, the primary feeding mechanism enables the leveled long-strip-shaped apron plate to penetrate through the plate shearing mechanism and send the leveled long-strip-shaped apron plate to the length fixing mechanism for length fixing, the plate shearing mechanism carries out plate shearing, and finally the secondary feeding mechanism sends the sheared long-strip-shaped apron plate to the rolling mechanism for rolling.

In the technical scheme, the primary feeding mechanism comprises a primary feeding motor and a primary feeding roller group, the primary feeding motor drives the primary feeding roller group to roll, the primary feeding roller group comprises two primary feeding rollers which are vertically arranged, a skirtboard inlet is formed between the two primary feeding rollers, the long-strip skirtboard enters from the skirtboard inlet, and the primary feeding roller group feeds materials to the long-strip skirtboard;

the secondary feeding mechanism comprises a secondary feeding motor and a secondary feeding roller set, the secondary feeding motor drives the secondary feeding roller set to roll, the secondary feeding roller set comprises two secondary feeding rollers which are arranged up and down, an apron board inlet is formed between the two secondary feeding rollers, the long-strip-shaped apron board enters from the apron board inlet, and the secondary feeding roller set feeds materials to the long-strip-shaped apron board.

In the technical scheme, the leveling mechanism comprises at least one leveling roller group, the one-time feeding mechanism drives the leveling roller groups to roll, each leveling roller group consists of two leveling rollers which are aligned up and down, an apron board inlet is formed between the two leveling rollers, or each leveling roller group consists of one leveling roller and two leveling rollers which are arranged up and down correspondingly, and an apron board inlet is formed between one leveling roller positioned at the upper part and the two leveling rollers positioned at the lower part; the strip-shaped apron plate enters from the apron plate inlet, and the leveling roller set levels the strip-shaped apron plate.

In the technical scheme, the plate shearing mechanism comprises a shearing knife and a shearing cylinder for driving the shearing knife to move up and down, and the shearing knife shears the strip-shaped apron plate.

In the technical scheme, the shearing knife comprises an upper blade and a lower blade, the upper blade and the lower blade are arranged in a crossed manner on a vertical tangent plane of the upper blade and the lower blade, the lower blade is arranged on the rack, and the upper blade is driven by the shearing cylinder to shear the long-strip-shaped apron board with the lower blade.

In the technical scheme, the length control mechanism comprises an inductor and a limiting block, the limiting block is used for abutting against the long-strip-shaped apron board, and the limiting block is obliquely arranged towards one side far away from the inductor and is fixed on the rack through a spring; the limiting block is connected with the fixed-length cylinder and is controlled to move up and down by the fixed-length cylinder,

when the long-strip-shaped skirtboard abuts against the limiting block, the limiting block reaches the sensor to sense the distance, the sensor sends a signal to control the plate shearing mechanism to shear the plate, the length-fixed air cylinder controls the limiting block to move downwards after the plate is sheared, the length-fixed air cylinder controls the limiting block to move upwards after the sheared long-strip-shaped skirtboard is fed to the edge rolling mechanism from the length-fixed mechanism, and the limiting block is reset through the spring.

In the technical scheme, the rounding mechanism comprises two rollers which are oppositely arranged up and down and an adjusting plate which is arranged opposite to an apron plate outlet formed between the two rollers, and the rounding specification of the apron plate is adjusted by adjusting the distance from the end surface of the adjusting plate close to one end of the rollers to the axis of the rollers arranged below or the distance from the end surface of the adjusting plate close to one end of the rollers to the axis of the rollers arranged above;

the rolling mechanism further comprises a rolling motor, and the rolling motor drives the two rolling rollers to roll.

In the technical scheme, the primary feeding mechanism is provided with a primary air cylinder, and the primary air cylinder is used for adjusting the distance between the two primary feeding rollers;

and the secondary feeding mechanisms are respectively provided with a secondary air cylinder, and the secondary air cylinders are used for adjusting the distance between the two secondary feeding rollers.

Among the above-mentioned technical scheme, still include the blowing frame.

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

1. feeding, plate shearing and rolling are integrated, so that the production efficiency is improved, and the labor cost is reduced;

2. the plate shearing mechanism is movable, and the length fixing mechanism is fixed; the traditional design is changed, the transmission feeding mechanism arranged between the existing positioning mechanism and the rolling mechanism is reduced, equipment of subsequent process equipment is facilitated, the production and installation space is reduced, and the production efficiency of products is improved.

3. The utility model discloses in only need set up a fixed length mechanism, and positioning mechanism and edge rolling mechanism even position an organic whole, change the product of the specification of any length, all need not to remove positioning mechanism and edge rolling mechanism, only need remove the skirtboard that cuts off the mechanism and can produce different specifications, the design is simple, and the effect is perfect.

4. The middle fixed length mechanism of the utility model is fixed, and the circuit control part only needs one positioning inductor; the circuit control part is extremely simple and convenient for later maintenance.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection between the leveling mechanism and the plate shearing mechanism;

FIG. 3 is a schematic view of a shear knife;

FIG. 4 is a schematic view of the connection between the plate shearing mechanism and the length control mechanism;

FIG. 5 is a schematic view of a length control mechanism;

FIG. 6 is a schematic mechanical view of the rolling mechanism;

FIG. 7 is a schematic structural view of another edge rolling mechanism of the present invention;

in the figure, 1, a frame; 2. a leveling mechanism; 2.1, leveling a roller; 3. a primary feeding mechanism; 3.1, a primary feeding roller; 3.2, a primary cylinder; 4. a plate shearing mechanism; 4.1, shearing a cutter; 4.11, an upper blade; 4.12, a lower blade; 4.2, shearing a cylinder; 5. a secondary feeding mechanism; 5.1, a secondary feeding roller; 5.2, a secondary cylinder; 6. a length fixing mechanism; 6.1, a fixed-length cylinder; 6.2, a sensor; 6.3, a limiting block; 6.4, a spring; 6.5, a height limiting plate; 7. a rolling mechanism; 7.1, rolling; 7.2, adjusting plates; 8. and a material placing frame.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

Referring to fig. 1 to 6, the utility model provides a skirtboard plate shearing and rounding integrated machine, which comprises a frame 1, wherein a flattening mechanism 2, a primary feeding mechanism 3, a plate shearing mechanism 4, a secondary feeding mechanism 5, a length fixing mechanism 6 and a rounding mechanism 7 are sequentially arranged on the frame 1, the length fixing mechanism 6 is fixed on the frame 1, and the plate shearing mechanism 4 is slidably arranged on the frame 1; the plate shearing mechanism 4 can move, and the length control mechanism 6 is fixed; the traditional design is changed, the transmission feeding mechanism arranged between the existing positioning mechanism and the rolling mechanism is reduced, equipment of subsequent process equipment is facilitated, the production and installation space is reduced, and the production efficiency of products is improved. The utility model discloses in only need to set up a fixed length mechanism, and positioning mechanism and edge rolling mechanism are even integrative, change the specification of any length (if

Equal specification) without moving the positioning mechanism and the edge rolling mechanism, the apron boards with different specifications can be produced only by moving the shearing mechanism, and the design is simple and the effect is perfect.

When the automatic plate shearing machine works, the leveling mechanism 2 levels the long-strip-shaped apron plate, the once feeding mechanism 3 penetrates the leveled long-strip-shaped apron plate through the plate shearing mechanism 4 and sends the leveled long-strip-shaped apron plate to the length fixing mechanism 6 for length fixing, the plate shearing mechanism 4 shears the plate, and finally the secondary feeding mechanism 5 sends the sheared long-strip-shaped apron plate to the edge rolling mechanism 7 for edge rolling.

Referring to fig. 2 and 4, the primary feeding mechanism 3 includes a primary feeding motor and a primary feeding roller set, the primary feeding motor drives the primary feeding roller set to roll, the primary feeding roller set includes two primary feeding rollers 3.1 placed up and down, a skirt board inlet is formed between the two primary feeding rollers 3.1, the long-strip skirt board enters from the skirt board inlet, and the primary feeding roller set feeds the long-strip skirt board; a primary cylinder 3.2 is arranged on the primary feeding mechanism 3, and the distance between the two primary feeding rollers 3.1 is adjusted by the primary cylinder 3.2;

the secondary feeding mechanism 5 comprises a secondary feeding motor and a secondary feeding roller group, the secondary feeding motor drives the secondary feeding roller group to roll, the secondary feeding roller group comprises two secondary feeding rollers 5.1 which are arranged up and down, a skirtboard inlet is formed between the two secondary feeding rollers 5.1, the long-strip-shaped skirtboard enters from the skirtboard inlet, and the secondary feeding roller group feeds materials to the long-strip-shaped skirtboard; and a secondary cylinder 5.2 is arranged on the secondary feeding mechanism 5, and the distance between the two secondary feeding rollers 5.1 is adjusted by the secondary cylinder 5.2. The primary feeding motor and the secondary feeding motor adopt 400W precision aluminum alloy motor speed reducers, so that the efficiency is high, the energy consumption is low, and the noise is low.

Referring to fig. 2, the leveling mechanism 2 includes at least one leveling roller set, the primary feeding mechanism 3 drives the leveling roller set to roll, each leveling roller set is composed of two leveling rollers 2.1 which are vertically placed, a skirt board inlet is formed between the two leveling rollers 2.1, or each leveling roller set is composed of one leveling roller 2.1 and two leveling rollers 2.1 which are vertically arranged correspondingly, and a skirt board inlet is formed between one leveling roller 2.1 which is positioned at the upper part and two leveling rollers 2.1 which are positioned at the lower part; the strip-shaped apron plate enters from the apron plate inlet, and the leveling roller set levels the strip-shaped apron plate.

Referring to fig. 2 and 3, the plate shearing mechanism 4 includes a shearing knife 4.1 and a shearing cylinder 4.2 for driving the shearing knife 4.1 to move up and down, and the shearing knife 4.1 shears the elongated skirt plate. The plate shearing mechanism adopts a multi-force cylinder seat, adopts a numerical control machining center to machine, adopts a high-precision cylinder seat, has a machining precision error of 0.02 mm, ensures the vertical installation precision of a plate shearing blade, and can ensure the blade to be durable; the shearing cylinder 4.2 adopts a double-force cylinder of 100-50-50, the power device can easily shear band steel with the width of 150 mm and the thickness of 2 mm, the national standard band steel with the width of 150 mm and the thickness of 1.5 mm has more than enough shearing force, the double-force cylinder has the advantages of simple maintenance, low maintenance cost, low failure rate, clean use and maintenance, no oil leakage and no noise.

The shearing knife 4.1 comprises an upper blade 4.11 and a lower blade 4.12, the upper blade 4.11 and the lower blade 4.12 are arranged in a crossed mode on a vertical tangent plane, the lower blade 4.12 is fixed on a base plate (not shown in the figure), the base plate is connected with the rack 1 in a sliding mode, and the upper blade 4.11 is driven by a shearing cylinder 4.2 to shear the strip-shaped apron board in a crossed mode with the lower blade 4.12. The upper blade and the lower blade are designed to be crossed when the plate is cut, so that the stress area of the blade is very small when the plate is cut, the whole required pressure can be cut only by 1 ton of force, the bearing capacity of the whole blade is small, and the blade can be more durable. The consumption cost of the consumables in the later period is lower. The plate shearing mechanism 4 is arranged on the rack 1 in a sliding mode, and the plate shearing mechanism 4 is further provided with a locking block which is arranged on the substrate and used for locking the plate shearing mechanism 4 on the rack 1.

Referring to fig. 4 and 5, the length control mechanism 6 includes an inductor 6.2 and a limiting block 6.3, the limiting block 6.3 is used for abutting against the elongated apron board, and the limiting block 6.3 is obliquely arranged towards one side far away from the inductor 6.2 and is fixed on the frame 1 through a spring 6.4; the limiting block 6.3 is connected with the fixed-length cylinder 6.1, the limiting block 6.3 is controlled to move up and down by the fixed-length cylinder 6.1,

when the long-strip-shaped apron board abuts against the limiting block 6.3, the limiting block 6.3 reaches the sensor 6.2 to sense the distance, the sensor 6.2 sends a signal to control the plate shearing mechanism 4 to shear the plate, the fixed-length cylinder 6.1 controls the limiting block 6.3 to move downwards after the plate is sheared, the fixed-length cylinder 6.1 controls the limiting block 6.2 to move upwards after the sheared long-strip-shaped apron board is fed from the fixed-length mechanism 6 to the rounding mechanism 7, and the limiting block 6.2 is reset through the spring 6.4. The length-fixing mechanism 6 is further provided with a height limiting plate 6.5 and a width limiting plate (not shown in the figure) for limiting the moving position of the long-strip-shaped apron plate, so that the long-strip-shaped apron plate is opposite to the moving position of the long-strip-shaped apron plate, forms an apron plate inlet between the two secondary feeding rollers 5.1 of the secondary feeding mechanism 5, and is abutted to a limiting block of the length-fixing mechanism 6.

The utility model can meet the requirements of different plate shearing lengths by fixing the length fixing mechanism 6 and moving the plate shearing mechanism 4 and only setting one blanking length fixing mechanism, and the switching of blanking length fixing devices is not required to be frequently changed due to the change of various specifications, so that the number of fixed length inductors is small, the circuit part of the mechanical part is relatively simple, and the later failure rate is relatively low; not only meets the use requirement, but also reduces the use cost in the later period.

Referring to fig. 6, the rounding mechanism 7 comprises two rollers 7.1 arranged oppositely up and down and an adjusting plate 7.2 arranged opposite to an apron plate outlet formed between the two rollers 7.1, and the rounding specification of the apron plate is adjusted by adjusting the distance from the end surface of one end of the adjusting plate 7.2 close to the rollers 7.1 to the axis of the roller 7.1 arranged below the adjusting plate 7; meanwhile, downward rounding is realized, and discharging is facilitated by downward rounding; the rolling mechanism 7 further comprises a rolling motor, and the rolling motor drives the two rolling rollers 7.1 to roll.

Referring to fig. 7, as another embodiment of the rounding mechanism 7, the rounding mechanism 7 includes two rollers 7.1 arranged opposite to each other in the up-down direction and an adjusting plate 7.2 arranged at an apron plate outlet formed between the two rollers 7.1, and the rounding mechanism 7 adjusts the apron plate rounding specification by adjusting the distance from the end surface of the adjusting plate 7.2 close to one end of the roller 7.1 to the axis of the roller 7.1 arranged above; meanwhile, upward rolling is realized, automatic welding of a subsequent process is facilitated by the upward rolling, and a dragon production line is conveniently designed.

The utility model discloses in, still include blowing frame 8 for the apron entry of the flattening cylinder group of flattening mechanism 2 is expected to the blowing.

The utility model discloses well equipment circuit has adopted PLC integrated module control, and PLC integrated module is connected with shearing cylinder 4.2, primary feeding motor, primary cylinder 3.2, secondary feeding motor, secondary cylinder 5.2, fixed length cylinder 6.1, inductor 6.2, edge rolling motor electricity respectively; all control circuits are integrated, the performance is stable, and the faults are low. In addition, the fixed length mechanism 1 of the utility model is fixed, and the circuit control part only needs one positioning inductor; the circuit control part is extremely simple and convenient for later maintenance.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (9)

1. A skirtboard plate shearing and edge rolling integrated machine comprises a rack (1) and is characterized in that a flattening mechanism (2), a primary feeding mechanism (3), a plate shearing mechanism (4), a secondary feeding mechanism (5), a length fixing mechanism (6) and an edge rolling mechanism (7) are sequentially arranged on the rack (1), the length fixing mechanism (6) is fixed on the rack (1), and the plate shearing mechanism (4) is arranged on the rack (1) in a sliding manner;

when the automatic plate shearing machine works, the leveling mechanism (2) levels the long-strip-shaped apron plate, the primary feeding mechanism (3) penetrates the leveled long-strip-shaped apron plate through the plate shearing mechanism (4) and sends the leveled long-strip-shaped apron plate to the length fixing mechanism (6) for length fixing, then the plate shearing mechanism (4) shears the plate, and finally the secondary feeding mechanism (5) sends the sheared long-strip-shaped apron plate to the edge rolling mechanism (7) for edge rolling.

2. The apron plate shearing and edge rolling all-in-one machine is characterized in that the primary feeding mechanism (3) comprises a primary feeding motor and a primary feeding roller set, the primary feeding motor drives the primary feeding roller set to roll, the primary feeding roller set comprises two primary feeding rollers (3.1) which are arranged up and down, an apron plate inlet is formed between the two primary feeding rollers (3.1), the elongated apron plate enters from the apron plate inlet, and the primary feeding roller set feeds the elongated apron plate;

the secondary feeding mechanism (5) comprises a secondary feeding motor and a secondary feeding roller set, the secondary feeding motor drives the secondary feeding roller set to roll, the secondary feeding roller set comprises two secondary feeding rollers (5.1) which are placed up and down, an apron plate inlet is formed between the two secondary feeding rollers (5.1), the long-strip-shaped apron plate enters from the apron plate inlet, and the secondary feeding roller set feeds materials to the long-strip-shaped apron plate.

3. The integrated apron plate shearing and rounding machine as claimed in claim 2, characterized in that the leveling mechanism (2) comprises at least one leveling roller set, the primary feeding mechanism (3) drives the leveling roller set to roll, each leveling roller set comprises two leveling rollers (2.1) which are arranged in an up-and-down alignment manner, an apron inlet is formed between the two leveling rollers (2.1), or each leveling roller set comprises one leveling roller (2.1) and two leveling rollers (2.1) which are arranged in an up-and-down corresponding manner, an apron inlet is formed between one leveling roller (2.1) at the upper part and two leveling rollers (2.1) at the lower part; the strip-shaped apron plate enters from the apron plate inlet, and the leveling roller set levels the strip-shaped apron plate.

4. The integrated apron plate shearing and rolling machine as claimed in claim 1, wherein the shearing mechanism (4) comprises a shearing knife (4.1) and a shearing cylinder (4.2) for driving the shearing knife (4.1) to move up and down, and the shearing knife (4.1) shears the long-strip apron.

5. The integrated apron plate shearing and rolling machine as claimed in claim 4, characterized in that the shearing knife (4.1) comprises an upper blade (4.11) and a lower blade (4.12), the upper blade (4.11) and the lower blade (4.12) are arranged in a crossed manner on a vertical tangent plane, the lower blade (4.12) is arranged on the machine frame (1), and the upper blade (4.11) is driven by the shearing cylinder (4.2) to shear the elongated apron plate with the lower blade (4.12).

6. The integrated apron plate shearing and rolling machine as claimed in claim 1, characterized in that the length control mechanism (6) comprises a sensor (6.2) and a limiting block (6.3), the limiting block (6.3) is used for abutting against the elongated apron plate, the limiting block (6.3) is arranged obliquely towards the side far away from the sensor (6.2) and is fixed on the frame (1) through a spring (6.4); the limiting block (6.3) is connected with the fixed-length cylinder (6.1), and the limiting block (6.3) is controlled to move up and down through the fixed-length cylinder (6.1);

when the long-strip-shaped apron board abuts against the limiting block (6.3), the limiting block (6.3) reaches the sensor (6.2) to sense the distance, the sensor (6.2) sends a signal to control the plate shearing mechanism (4) to shear the plate, the limiting block (6.3) is controlled by the fixed-length cylinder (6.1) to move downwards after the plate is sheared, the limited block (6.2) is controlled by the fixed-length cylinder (6.1) to move upwards after the sheared long-strip-shaped apron board is fed to the edge rolling mechanism (7) from the fixed-length mechanism (6), and the limiting block (6.2) is reset through the spring (6.4).

7. The apron plate shearing and rounding integrated machine as claimed in claim 1, characterized in that the rounding mechanism (7) comprises two rollers (7.1) which are oppositely arranged up and down and a regulating plate (7.2) which is arranged opposite to an apron outlet formed between the two rollers (7.1), and the rounding mechanism (7) regulates the apron plate rounding specification by regulating the distance from the end surface of the regulating plate (7.2) close to one end of the roller (7.1) to the axis of the roller (7.1) arranged below or regulating the distance from the end surface of the regulating plate (7.2) close to one end of the roller (7.1) to the axis of the roller (7.1) arranged above;

the rolling mechanism (7) further comprises a rolling motor, and the rolling motor drives the two rolling rollers (7.1) to roll.

8. The integrated apron plate shearing and rolling machine as claimed in claim 2, characterized in that a primary cylinder (3.2) is arranged on the primary feeding mechanism (3), and the primary cylinder (3.2) is used for adjusting the distance between two primary feeding rollers (3.1);

and the secondary feeding mechanism (5) is provided with a secondary cylinder (5.2), and the secondary cylinder (5.2) is used for adjusting the distance between the two secondary feeding rollers (5.1).

9. The integrated apron plate shearing and rolling machine as claimed in claim 1, further comprising a material placing rack (8).

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