CN114101379A

CN114101379A - Cold rolling mill used for alloy strip and convenient to guide feeding and discharging materials and using method

Info

Publication number: CN114101379A
Application number: CN202111388024.5A
Authority: CN
Inventors: 王阳; 卢伟强; 印小花; 张红革
Original assignee: Jiangsu Longxin Special Steel Industrial General Co
Current assignee: Jiangsu Longxin Special Steel Industrial General Co
Priority date: 2021-11-22
Filing date: 2021-11-22
Publication date: 2022-03-01

Abstract

The invention relates to the technical field of alloy processing, in particular to a cold rolling mill convenient for guiding feeding and discharging of alloy strips and a use method thereof, wherein the cold rolling mill comprises a processing table top, one side of the processing table top is provided with an alloy coiled material rolling cylinder, the upper end surface of the processing table top is sequentially provided with an alloy plate conveying mechanism, a cold rolling and cutting mechanism and a discharging channel, a feeding plate block is arranged below the alloy plate conveying mechanism, and an auxiliary discharging mechanism is arranged above the discharging channel; the inner side surface of the feeding plate is provided with a limiting groove, and the upper end surface of the discharging channel is distributed with a plurality of uniformly arranged micro channels; the lower part of the processing desktop is provided with a plurality of supporting legs which are uniformly distributed, the side surface of the processing desktop is also provided with an electric cabinet, and the alloy plate conveying mechanism, the cold rolling and splitting mechanism and the auxiliary discharging mechanism are all in electric signal connection with the electric cabinet. The invention has simple structure, convenient operation, limiting effect and convenient feeding and discharging of alloy plates.

Description

Cold rolling mill used for alloy strip and convenient to guide feeding and discharging materials and using method

Technical Field

The invention relates to a cold rolling mill, in particular to a cold rolling mill which is used for alloy strips and is convenient for guiding feeding and discharging materials and a using method, and belongs to the technical field of alloy processing.

Background

The cold rolling mill is used for processing a rolled piece, the rolled piece to be processed passes through the two rotating working rolls, and the rotating working rolls apply forming pressure to the rolled piece to enable the rolled piece to generate plastic deformation, so that rolling is realized;

the alloy sheet can be cut by a cold rolling mill during processing;

the existing cold rolling mill can generate deviation phenomenon in the processes of feeding, discharging, processing and conveying of alloy plates.

Therefore, there is a need for improvements in cold rolling mills to address the above-identified problems.

Disclosure of Invention

The invention aims to provide a cold rolling mill for alloy strips, which is convenient to guide to feed and discharge materials, and a use method thereof.

In order to achieve the purpose, the invention adopts the main technical scheme that:

a cold rolling mill for alloy strips convenient to guide in and out materials comprises a processing table top, wherein an alloy coiled material rolling cylinder is arranged on one side of the processing table top, an alloy plate conveying mechanism, a cold rolling and cutting mechanism and a discharge channel are sequentially arranged on the upper end face of the processing table top, a feeding plate block is arranged below the alloy plate conveying mechanism, and an auxiliary discharge mechanism is arranged above the discharge channel;

the inner side surface of the feeding plate is provided with a limiting groove, and the upper end surface of the discharging channel is distributed with a plurality of uniformly arranged micro channels;

the alloy plate cold rolling and cutting device is characterized in that a plurality of supporting legs which are uniformly distributed are arranged below the processing table top, an electric cabinet is further arranged on the side face of the processing table top, and the alloy plate conveying mechanism, the cold rolling and cutting mechanism and the auxiliary discharging mechanism are all in electric signal connection with the electric cabinet.

Preferably, one side of processing desktop is provided with logical groove, the both sides that lead to the inslot wall all are provided with the spout, the rolling groove has been seted up to the below of spout innermost, the rolling groove with the spout communicates with each other, the both ends and two of an alloy coiled material roll section of thick bamboo roll the groove is connected, an alloy coiled material roll section of thick bamboo is used for placing of alloy coiled material.

Preferably, the alloy plate conveying mechanism comprises a first supporting plate, a second supporting plate, a first conveying roller and a first driving motor, the first supporting plate and the second supporting plate are both vertically arranged on the upper end surface of the processing desktop, a first sliding block is vertically arranged on the inner side surface of the first supporting plate, a connecting block is arranged on the first sliding block in a sliding manner, a second through groove is arranged on the second supporting plate, a sliding block is arranged in the second through groove in a sliding manner, a support plate is connected with the outer side of the sliding block, the first driving motor is arranged on the support plate, the first conveying roller is arranged between the sliding block and the connecting block, one end of the first conveying roller is connected with the output end of the first driving motor, the feeding plates are symmetrically arranged, and the two symmetrically arranged feeding plates are respectively arranged below the inner side surfaces of the first supporting plate and the second supporting plate.

Preferably, the upper end face of the sliding block is provided with a bearing, a threaded hole is formed above the second through groove, the threaded hole is internally screwed and connected with a threaded rod, the lower end of the threaded rod is connected with the bearing, and the surface of the first conveying roller is provided with a rubber anti-skid pad.

Preferably, a third through groove is further formed in the upper end face of the processing table top, an auxiliary roller is rotatably connected in the third through groove and is located right below the first conveying roller, and the upper surface of the auxiliary roller and the bottommost surface of the limiting groove are located on the same horizontal plane.

Preferably, the cold rolling and splitting mechanism comprises two third supporting plates, electric sliding rails, a cutting machine and a cutting plate, wherein the third supporting plates, the electric sliding rails, the connecting supporting plates and the cutting plate are symmetrically arranged, the electric sliding rails are vertically arranged on the inner side surface of the third supporting plate, the connecting supporting plates are arranged between the two electric sliding rails in a sliding mode, the cutting machine is uniformly distributed on the lower end surface of the connecting supporting plates, the cutting plate is arranged between the two third supporting plates, and the cutting plate is located under the connecting supporting plates.

Preferably, the surface of cutting board is provided with a plurality of cutting groove, the quantity of cutting groove with the quantity of cutting machine is the same, the preceding terminal surface of cutting board is the arc surface structure.

Preferably, the surface of the discharge channel and the surface of the cutting plate are in the same horizontal plane, and the width of each micro through groove is the same as the width between every two cutting grooves.

Preferably, supplementary discharge mechanism is including two fourth backup pads, second driving motor and the roll axis that the symmetry set up, second driving motor sets up one of them the outside of fourth backup pad, second driving motor's output runs through the fourth backup pad and with the roll axis is connected, be connected with on the roll axis a plurality of with the same auxiliary wheel of miniature passageway quantity, the surface of auxiliary wheel is provided with anti-skidding rubber, anti-skidding rubber's bottom surface with alloy plate material contact in the miniature passageway.

A use method of a cold rolling mill for facilitating guiding feeding and discharging of an alloy strip comprises the following steps:

s1: clamping the alloy coiled material rolling cylinders wound with the alloy plates in the two rolling grooves, pulling one end of each alloy plate to be placed in the limiting groove, pulling the alloy plates to the surface of the auxiliary roller, rotating the threaded rod, and enabling the threaded rod to rotate in the threaded hole and the bearing, so that the sliding block and the first conveying roller are driven to move downwards until the lower surface of the first conveying roller is contacted with the upper surface of the alloy plate;

s2: the first conveying roller is driven to rotate by turning on the first driving motor and utilizing the rotation of the first driving motor, and finally the alloy plate between the first conveying roller and the auxiliary roller is driven to be conveyed to the next processing procedure;

s3: when the alloy plate is conveyed to the surface of the cutting plate, the electric slide rail and the cutting machine are opened to drive the connecting support plate and the cutting machine arranged below the connecting support plate to move downwards, so that the alloy plate on the surface of the cutting plate is cut, the cut alloy plate can enter a plurality of corresponding micro channels respectively, then the second driving motor is opened to drive the rolling shaft and the auxiliary wheel to rotate, so that the alloy plate in the micro channels is driven to move continuously, and finally the cut alloy plate is separated from the equipment.

The invention has at least the following beneficial effects:

1. through utilizing the feeding plate, the spacing groove, discharge passage and microchannel's setting can realize the stable effect in location of alloy panel when advancing the business turn over material, prevent the off tracking, the panel of being convenient for carries out the feeding ejection of compact, can realize placing of alloy panel through the setting that utilizes alloy coiled material roll section of thick bamboo, utilize first conveying roller, alloy panel's transport can be realized in the setting of first driving motor and auxiliary roller, utilize the cutting machine, effect can be cut apart to alloy panel to cutting board and the setting that cuts cut groove, utilize second driving motor, the setting of roll axis and auxiliary wheel can realize cutting the arrangement ejection of compact effect of enough alloy panel.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

FIG. 2 is a schematic perspective view of a processing table top according to the present invention;

FIG. 3 is a front view of the auxiliary discharge mechanism of the present invention;

FIG. 4 is a perspective view of a cutting board according to the present invention;

FIG. 5 is a cross-sectional view of a second support plate of the present invention;

FIG. 6 is a front view of the alloy plate conveying mechanism of the present invention;

FIG. 7 is a front view of the cold rolling partitioning mechanism of the present invention;

fig. 8 is a partial side view of the present invention.

In the figure, 1-a processing table top, a 2-alloy coil rolling cylinder, a 4-alloy sheet conveying mechanism, 401-a first supporting plate, 402-a first conveying roller, 403-a first driving motor, 404-a second supporting plate, 405-a first sliding block, 406-a connecting block, a 5-cold rolling and splitting mechanism, 501-a third supporting plate, 502-an electric sliding rail, 503-a cutting machine, 504-a cutting plate, 505-a connecting supporting plate, 6-a discharging channel, 601-a micro channel, 7-a feeding plate, 701-a limiting groove, 8-an auxiliary discharging mechanism, 801-a fourth supporting plate, 802-a second driving motor, 803-a rolling shaft, 804-an auxiliary wheel, 805-anti-skid rubber, 9-supporting legs and 10-an electric cabinet, 11-through groove, 12-sliding groove, 13-rolling groove, 14-second through groove, 15-sliding block, 16-supporting plate, 17-bearing, 18-threaded hole, 19-threaded rod, 20-rubber non-slip mat, 21-third through groove, 22-auxiliary roller and 23-cutting groove.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As shown in fig. 1-8, the cold rolling mill for guiding and feeding alloy strips conveniently provided by this embodiment includes a processing table top 1, an alloy coiled material rolling cylinder 2 is disposed on one side of the processing table top 1, the alloy coiled material rolling cylinder 2 is used for placing alloy plates, an alloy plate conveying mechanism 4, a cold rolling dividing mechanism 5 and a discharging channel 6 are sequentially disposed on an upper end surface of the processing table top 1, the alloy plate conveying mechanism 4 includes a first support plate 401, a second support plate 404, a first conveying roller 402 and a first driving motor 403, the first driving motor 403 is used for driving the first conveying roller 402 to rotate, the first conveying roller 402 is in surface contact with the alloy plates to drive the alloy plates to convey, the first support plate 401 and the second support plate 404 are both vertically disposed on the upper end surface of the processing table top 1, a first slider 405 is vertically disposed on an inner side surface of the first support plate 401, a connecting block 406 is arranged on the first sliding block 405 in a sliding manner, a second through groove 14 is formed in the second supporting plate 404, a sliding block 15 is arranged in the second through groove 14 in a sliding manner, a supporting plate 16 is connected to the outer side of the sliding block 15, a first driving motor 403 is arranged on the supporting plate 16, a first conveying roller 402 is arranged between the sliding block 15 and the connecting block 406, one end of the first conveying roller 402 is connected with the output end of the first driving motor 403, the first conveying roller 402 is driven to rotate through the rotation of the first driving motor 403, two symmetrical feeding plates 7 are arranged, the two symmetrical feeding plates 7 are respectively arranged below the inner side surfaces of the first supporting plate 401 and the second supporting plate 404, and when an alloy plate needs to be machined, one end of the alloy plate is pulled up and placed into the limiting groove 701 for limiting and fixing, so as to prevent deviation;

the upper end surface of the sliding block 15 is provided with a bearing 17, a threaded hole 18 is formed above the second through groove 14, the threaded hole 18 is internally screwed and connected with a threaded rod 19, the lower end of the threaded rod 19 is connected with the bearing 17, a rubber anti-slip pad 20 is arranged on the surface of the first conveying roller 402, the anti-slip effect of the surface of the first conveying roller 402 is improved due to the arrangement of the rubber anti-slip pad 20, the threaded rod 19 rotates in the threaded hole 18 and the bearing 17 by rotating the threaded rod 19, and therefore the sliding block 15 and the first conveying roller 402 are driven to move downwards until the lower surface of the first conveying roller 402 is in contact with the upper surface of the alloy plate;

the cold rolling and cutting mechanism 5 comprises two third support plates 501 symmetrically arranged, electric slide rails 502, a cutting machine 503 and a cutting plate 504, wherein the electric slide rails 502 are used for driving the connecting support plates 505 to perform vertical adjustment movement, the cutting machine 503 is used for cutting the alloy plates, the surface of the cutting plate 504 is used for placing the alloy plates, the electric slide rails 502 are vertically arranged on the inner side surfaces of the third support plates 501, the connecting support plates 505 are arranged between the two electric slide rails 502 in a sliding manner, a plurality of cutting machines 503 are uniformly distributed on the lower end surfaces of the connecting support plates 505, the cutting plate 504 is arranged between the two third support plates 501, and the cutting plate 504 is positioned under the connecting support plates 505;

a feeding plate block 7 is arranged below the alloy plate conveying mechanism 4, an auxiliary discharging mechanism 8 is arranged above the discharging channel 6, the auxiliary discharging mechanism 8 comprises two fourth supporting plates 801 which are symmetrically arranged, the second driving motor 802 and the rolling shaft 803, the second driving motor 802 is used for driving the rolling shaft 803 to move, the rolling shaft 803 is used for driving the auxiliary wheel 804 to rotate, the second driving motor 802 is arranged on the outer side of one fourth supporting plate 801, the output end of the second driving motor 802 penetrates through the fourth supporting plate 801 and is connected with the rolling shaft 803, the rolling shaft 803 is connected with a plurality of auxiliary wheels 804 with the same number as that of the micro-channels 601, the surface of each auxiliary wheel 804 is provided with anti-skid rubber 805, the bottom surface of each anti-skid rubber 805 is in contact with the alloy plates in the micro-channels 601, each auxiliary wheel 804 is used for driving the plates in the micro-channels 601 to move, and the anti-skid effect of the auxiliary wheels 804 can be further improved due to the arrangement of the anti-skid rubber 805;

the inner side surface of the feeding plate 7 is provided with a limiting groove 701, the upper end surface of the discharging channel 6 is distributed with a plurality of uniformly arranged micro channels 601, the limiting groove 701 is used for limiting when the alloy plate is conveyed, and the micro channels 601 are used for arranging and conveying the cut plate;

the lower part of the processing desktop 1 is provided with a plurality of supporting legs 9 which are uniformly distributed, the supporting legs 9 are used for supporting the processing desktop 1, the side surface of the processing desktop 1 is further provided with an electric cabinet 10, the alloy plate conveying mechanism 4, the cold rolling and splitting mechanism 5 and the auxiliary discharging mechanism 8 are all in electric signal connection with the electric cabinet 10, and the electric cabinet 10 is used for controlling electronic devices in equipment.

In this embodiment, as shown in fig. 1, one side of the processing desktop 1 is provided with a through groove 11, both sides of the inner wall of the through groove 11 are provided with sliding grooves 12, a rolling groove 13 is provided below the innermost end of the sliding groove 12, the rolling groove 13 is communicated with the sliding groove 12, both ends of the alloy coiled material rolling cylinder 2 are connected with the two rolling grooves 13, the alloy coiled material rolling cylinder 2 is used for placing alloy coiled materials, both ends of the alloy coiled material rolling cylinder 2 are clamped and rotated in the rolling groove 13, and the sliding groove 12 and the rolling groove 13 are communicated so as to facilitate the alloy coiled material rolling cylinder 2 to be detached and taken.

In this embodiment, as shown in fig. 1 and fig. 2, a third through groove 21 is further formed in the upper end surface of the processing table top 1, an auxiliary roller 22 is rotatably connected in the third through groove 21, the auxiliary roller 22 is located right below the first conveying roller 402, the upper surface of the auxiliary roller 22 and the bottommost surface of the limiting groove 701 are located on the same horizontal plane, and the auxiliary roller 22 is used in cooperation with the first conveying roller 402, so that the alloy plate is transported.

In this embodiment, as shown in fig. 1 and 4, the surface of the cutting plate 504 is provided with a plurality of cutting grooves 23, the number of the cutting grooves 23 is the same as that of the cutting machines 503, the front end surface of the cutting plate 504 is of an arc surface structure, the cutting grooves 23 are used in cooperation with the cutting machines 503, when the cutting machines 503 cut a plate, the blade is just in the cutting grooves 23, and the arc surface structure is provided to facilitate the alloy plate to successfully slide to the upper end surface of the cutting plate 504 for smooth cutting.

In the present embodiment, as shown in fig. 1, the surface of the discharging channel 6 is at the same level as the surface of the cutting plate 504, and the width of each micro through groove 601 is the same as the width between every two cutting grooves 23.

s1: clamping the alloy coiled material rolling barrel 2 wound with the alloy sheet material in the two rolling grooves 13, pulling one end of the alloy sheet material to be placed in the limiting groove 701, pulling the alloy sheet material to the surface of the auxiliary roller 22, rotating the threaded rod 19 to enable the threaded rod 19 to rotate in the threaded hole 18 and the bearing 17, and driving the sliding block 15 and the first conveying roller 402 to move downwards until the lower surface of the first conveying roller 402 is contacted with the upper surface of the alloy sheet material;

s2: by turning on the first driving motor 403, the first conveying roller 402 is driven to rotate by the rotation of the first driving motor 403, and finally the alloy plate between the first conveying roller 402 and the auxiliary roller 22 is driven to be conveyed to the next processing step;

s3: when the alloy plate is conveyed to the surface of the cutting plate 504, the electric slide rail 502 and the cutting machine 503 are opened to drive the connecting support plate 505 and the cutting machine 503 arranged below the connecting support plate to move downwards, so that the alloy plate on the surface of the cutting plate 504 is cut, the cut alloy plate can enter a plurality of corresponding micro channels 601 respectively, then the rolling shaft 803 and the auxiliary wheel 804 are driven to rotate through the opening of the second driving motor 802, the alloy plate in the micro channels 601 is driven to move continuously, and finally the cut alloy plate is separated from the device.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to achieve the technical effect basically.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or system in which the element is included.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A cold rolling mill for alloy strips convenient to guide in and out materials comprises a processing table top (1) and is characterized in that an alloy coiled material rolling cylinder (2) is arranged on one side of the processing table top (1), an alloy plate conveying mechanism (4), a cold rolling and dividing mechanism (5) and a discharge channel (6) are sequentially arranged on the upper end face of the processing table top (1), a feeding plate block (7) is arranged below the alloy plate conveying mechanism (4), and an auxiliary discharge mechanism (8) is arranged above the discharge channel (6);

a limiting groove (701) is formed in the inner side face of the feeding plate (7), and a plurality of uniformly arranged micro channels (601) are distributed on the upper end face of the discharging channel (6);

a plurality of supporting legs (9) which are uniformly distributed are arranged below the processing table top (1), an electric cabinet (10) is further arranged on the side face of the processing table top (1), and the alloy plate conveying mechanism (4), the cold rolling and splitting mechanism (5) and the auxiliary discharging mechanism (8) are all in electric signal connection with the electric cabinet (10).

2. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 1, wherein: one side of processing desktop (1) is provided with logical groove (11), the both sides that lead to groove (11) inner wall all are provided with spout (12), roll groove (13) have been seted up to spout (12) the innermost below, roll groove (13) with spout (12) communicate with each other, the both ends and two of an alloy coiled material roll section of thick bamboo (2) roll groove (13) and connect, an alloy coiled material roll section of thick bamboo (2) are used for placing of alloy coiled material.

3. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 1, wherein: the alloy plate conveying mechanism (4) comprises a first supporting plate (401), a second supporting plate (404), a first conveying roller (402) and a first driving motor (403), wherein the first supporting plate (401) and the second supporting plate (404) are vertically arranged on the upper end surface of the processing table top (1), a first sliding block (405) is vertically arranged on the inner side surface of the first supporting plate (401), a connecting block (406) is arranged on the first sliding block (405) in a sliding manner, a second through groove (14) is formed in the second supporting plate (404), a sliding block (15) is arranged in the second through groove (14) in a sliding manner, a supporting plate (16) is connected to the outer side of the sliding block (15), the first driving motor (403) is arranged on the supporting plate (16), the first conveying roller (402) is arranged between the sliding block (15) and the connecting block (406), one end of the first conveying roller (402) is connected with the output end of the first driving motor (403), two feeding plates (7) are symmetrically arranged, and the two symmetrically arranged feeding plates (7) are respectively arranged below the inner side surfaces of the first supporting plate (401) and the second supporting plate (404).

4. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 3, characterized in that: the upper end face of the sliding block (15) is provided with a bearing (17), a threaded hole (18) is formed in the upper portion of the second through groove (14), the threaded hole (18) is internally screwed and connected with a threaded rod (19), the lower end of the threaded rod (19) is connected with the bearing (17), and a rubber anti-skid pad (20) is arranged on the surface of the first conveying roller (402).

5. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 4, wherein: the upper end surface of the processing table top (1) is further provided with a third through groove (21), an auxiliary roller (22) is rotatably connected in the third through groove (21), the auxiliary roller (22) is located under the first conveying roller (402), and the upper surface of the auxiliary roller (22) and the bottommost surface of the limiting groove (701) are located on the same horizontal plane.

6. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 1, wherein: the cold rolling and cutting mechanism (5) comprises two third supporting plates (501), electric sliding rails (502), a cutting machine (503) and cutting plates (504) which are symmetrically arranged, the electric sliding rails (502) are vertically arranged on the inner side surfaces of the third supporting plates (501), a connecting supporting plate (505) is arranged between the electric sliding rails (502) in a sliding mode, the cutting machine (503) is arranged on the lower end surface of the connecting supporting plate (505) in a uniformly distributed mode, the cutting plates (504) are arranged between the third supporting plates (501), and the cutting plates (504) are located under the connecting supporting plate (505).

7. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 5, wherein: the surface of cutting board (504) is provided with a plurality of cutting groove (23), the quantity of cutting groove (23) with the quantity of cutting machine (503) is the same, the preceding terminal surface of cutting board (504) is the arc surface structure.

8. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 6, wherein: the surface of the discharging channel (6) and the surface of the cutting plate (504) are in the same horizontal plane, and the width of each micro through groove (601) is the same as the width between every two cutting grooves (23).

9. The cold rolling mill for alloy strip to facilitate the direction of feed and discharge according to claim 1, wherein: the auxiliary discharging mechanism (8) comprises two fourth supporting plates (801), a second driving motor (802) and a rolling shaft (803), the two fourth supporting plates (801), the second driving motor (802) and the rolling shaft (803) are symmetrically arranged, the second driving motor (802) is arranged on the outer side of one of the fourth supporting plates (801), the output end of the second driving motor (802) penetrates through the fourth supporting plates (801) and is connected with the rolling shaft (803), a plurality of auxiliary wheels (804) with the same number as the micro channels (601) are connected onto the rolling shaft (803), anti-skid rubber (805) is arranged on the surface of each auxiliary wheel (804), and the bottom surface of each anti-skid rubber (805) is in contact with an alloy plate in each micro channel (601).

10. The use method of the cold rolling mill for the alloy strip convenient to guide the feeding and the discharging is characterized in that: the method comprises the following steps:

s1: clamping the alloy coiled material rolling barrel (2) wound with the alloy sheet materials in two rolling grooves (13), pulling one end of the alloy sheet materials to be placed in the limiting groove (701), pulling the alloy sheet materials to the surface of the auxiliary roller (22), rotating the threaded rod (19), enabling the threaded rod (19) to rotate in the threaded hole (18) and the bearing (17), and driving the sliding block (15) and the first conveying roller (402) to move downwards until the lower surface of the first conveying roller (402) is in contact with the upper surface of the alloy sheet materials;

s2: by turning on the first driving motor (403), the first conveying roller (402) is driven to rotate by utilizing the rotation of the first driving motor (403), and finally the alloy plate between the first conveying roller (402) and the auxiliary roller (22) is driven to be conveyed to the next processing procedure;

s3: when the alloy plate is conveyed to the surface of the cutting plate (504), the electric sliding rail (502) and the cutting machine (503) are opened to drive the connecting support plate (505) and the cutting machine (503) arranged below the connecting support plate to move downwards, so that the alloy plate on the surface of the cutting plate (504) is cut, the cut alloy plate can respectively enter a plurality of corresponding micro channels (601), then the second driving motor (802) is opened to drive the rolling shaft (803) and the auxiliary wheel (804) to rotate, so that the alloy plate in the micro channels (601) is driven to continuously move, and finally the cut alloy plate is separated from the equipment.