CN111468774A

CN111468774A - Slitting machine system and using method thereof

Info

Publication number: CN111468774A
Application number: CN201910332476.8A
Authority: CN
Inventors: 周道成; 周同勇
Original assignee: Moral Enterprise Co ltd
Current assignee: Moral Enterprise Co ltd
Priority date: 2019-01-24
Filing date: 2019-04-24
Publication date: 2020-07-31
Also published as: TWI672260B; TW202028099A

Abstract

The invention relates to a slitting machine system and a use method thereof, the slitting machine system comprises a feeding device, a slitting device, a waste device, a selector device, a tension table device, a selector device, a standard receiving device, a partition plate device, a receiving device, an externally-hung shaft sleeve device, a partition plate device, a receiving resistance device and the like, the slitting machine system formed by combining the different devices, and various use methods of the slitting machine system according to different combinations.

Description

Slitting machine system and using method thereof

Technical Field

The invention relates to a slitting machine system, in particular to a slitting machine system which can be used for cutting metal material rolls.

Background

In the conventional metal coil processing process, a slitting machine is used to perform a cutting process on the metal coil. The slitting machine is a device for longitudinally slitting wide-rolled materials, and has the main functions of setting the length direction of the wide-rolled materials and cutting the wide-rolled materials into narrower coiled materials with fixed sizes for the processing procedure of the next stage. The slitting machine is particularly suitable for slitting metal coiled materials, and structurally comprises slitting machine equipment formed by combining feeding uncoiling equipment, guiding and positioning equipment, slitting and slitting longitudinal shearing equipment, receiving and coiling equipment and the like.

It should be noted that the winding diameter of the strip cutting machine can be changed during the winding and unwinding processes, and the strip cutting machine generally uses a motor system to output torque, and can control constant tension due to torque control, and the constant tension can further control the winding diameter change during operation, so that the strip cutting machine can control winding constant tension.

The slitting machine has the advantages of convenience in operation, high automation degree, high production efficiency, high working precision and the like, and can be used for processing various cold-rolled and hot-rolled coiled plates, silicon steel plates, stainless steel plates, color plates, aluminum plates and various electroplated or coated metal plates.

Therefore, in order to produce a more efficient processing procedure of the metal material coil, a new strip dividing machine technology needs to be developed, which can reduce the energy consumption, achieve the effect of green energy saving, further improve the energy utilization efficiency and the steel coil cutting efficiency, and reduce the manufacturing time and the manufacturing cost.

Disclosure of Invention

The invention relates to a slitting machine system and a using method thereof. The slitting machine system comprises a feeding device, a slitting device, a waste device, a tension table device, a standard material receiving device and the like.

The invention relates to a slitting machine system and a using method thereof. The slitting machine system comprises a feeding device, a slitting device, a waste device, a tension table device, a partition plate device, a material receiving device, an externally-hung shaft sleeve device and the like.

The invention relates to a slitting machine system and a using method thereof. The slitting machine system comprises a feeding device, a slitting device, a waste device, a tension table device, a selector device, a standard material receiving device, a partition plate device, a material receiving device, an externally-hung shaft sleeve device and the like.

The invention relates to a slitting machine system and a using method thereof. The slitting machine system comprises a feeding device, a slitting device, a waste device, a partition plate device, a material receiving resistance device and the like.

The invention relates to a slitting machine system and a using method thereof. The slitting machine system comprises a feeding device, a slitting device, a waste device, a selector device, a tension table device, a standard material receiving device, a partition plate device, a material receiving resistance device and the like.

The invention relates to a slitting machine system and a using method thereof. The slitting machine system comprises a feeding device, a slitting device, a waste device, a selector device, a tension table device, a partition plate device, a material receiving device, an externally-hung shaft sleeve device, a material receiving resistance device and the like.

The invention relates to a slitting machine system and a using method thereof.

The invention relates to a slitting machine system which is formed by combining the following different devices: the device comprises a feeding device, a strip dividing device, a waste device, a selector device, a tension table device, a standard material receiving device, a partition plate device, a material receiving device, an externally-hung shaft sleeve device, a material receiving resistance device and the like. The invention also provides various using methods of the slitting machine system according to various different combinations.

The invention has the advantages of modularization, convenient operation, high automation degree, high production efficiency and high working precision, and can be used for processing various cold-rolled and hot-rolled coil plates, silicon steel plates, stainless steel plates, color plates, aluminum plates and various electroplated or coated metal plates.

Therefore, the advantages and spirit of the present invention can be further understood by the following detailed description and the accompanying drawings.

Drawings

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

fig. 1A is a schematic view of the components of a slitting machine system according to the present invention.

Fig. 1B is a flow chart of a method of using the slitter system of fig. 1A in accordance with the present invention.

Fig. 2A is a schematic diagram of the components of a slitting machine system according to the present invention.

Fig. 2B is a flow chart of a method of using the slitter system of fig. 2A in accordance with the present invention.

Fig. 3A is a schematic diagram of the components of a slitting machine system according to the present invention.

Fig. 3B is a flow chart of a method of using the slitter system of fig. 3A in accordance with the present invention.

Fig. 4A is a schematic diagram of the components of a slitting machine system according to the present invention.

Fig. 4B is a flow chart of a method of using the slitter system of fig. 4A in accordance with the present invention.

Fig. 5A is a schematic view of the components of a slitting machine system according to the present invention.

Fig. 5B is a flow chart of a method of using the slitter system of fig. 5A in accordance with the present invention.

Fig. 6A is a schematic view of the components of a slitting machine system according to the present invention.

Fig. 6B is a flow chart of a method of using the slitter system of fig. 6A in accordance with the present invention.

Fig. 7A is a schematic view of the components of a slitting machine system according to the present invention.

Fig. 7B is a flow chart of a method of using the slitter system of fig. 7A in accordance with the present invention.

Detailed Description

The invention relates to a slitting machine system, which has the function of improving the stability of operation and the production efficiency of a manufacturing process, and has seven different embodiments and seven operation modes, as shown in the following details:

the first embodiment:

please refer to fig. 1A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 1A, a feeding device 101 having a function of conveying a material to be processed is capable of conveying the material to be processed in a normal rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type, and a manual type.

The slitting device 102 shown in fig. 1A has a function of cutting a slit material to be processed, and may be called a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The scrap device 103 shown in FIG. 1A has a function of collecting and disposing the scrap, that is, after the slitting device 102 slits the material to be processed, the remaining scrap can be recycled and disposed of by the scrap device 103.

The tension table device 104 shown in fig. 1A has a function of pressurizing and stabilizing the material to be processed, so as to control the tension of the material to be processed to pressurize and stabilize the material to be processed. The tension table device 104 includes various types of tension table devices 104 such as a hydraulic type, a pneumatic type, a manual type, and a Zhou's press table (see the invention patent of the press table of the invention No. I522188 of Taiwan province).

The standard material receiving device 105 shown in fig. 1A has a function of collecting and processing the material to be processed, so that the received finished roll is more compact, and the uniformity of the rolled surface can be improved. The standard receiving device 105 is generally composed of a receiving tray, a partition plate and a baffle plate. The material receiving tray is used for receiving the cut finished product materials into annual rings, and the partition plates are used for separating the cut finished product materials, so that the finished product materials are prevented from being damaged due to overlapping of the materials.

As shown in the feeding device 101 of fig. 1A, the feeding device 101 is connected to a strip dividing device 102, wherein the strip dividing device 102 is connected to a waste device 103 and a tension table device 104, and the tension table device 104 is connected to a standard receiving device 105 for cutting and dividing the material to be processed.

Referring to the flowchart shown in fig. 1B, a method for using a slitting machine system according to the present invention is shown.

First, as shown in step 1001 of fig. 1B, the feeding step 1001 is performed first, that is, the material to be processed is fed into the feeding device 101.

Then, step 1002 shown in fig. 1B is performed, that is, step 1002 of splitting is performed again, that is, the material to be processed which is fed in is cut and split by the splitting device 102.

The process continues with step 1003A and step 1003B shown in FIG. 1B, namely step 1003A for performing scrap disposal and step 1003B for performing pressurization and tension stabilization. That is, the step 1003A of subjecting the processed material processed in the slitting device 102 to scrap treatment (the step of performing the scrap treatment is the scrap treatment performed by the scrap treatment device) of the scrap removed therefrom is performed at the same time. And a step 1003B of feeding the cut and separated material to be processed into the tension table device 104 to perform pressurization and tension stabilization (the step of performing pressurization and stabilization is to feed the material to be processed into the tension table device to perform the pressurization and stabilization).

Finally, as shown in step 1004 of fig. 1B, a step 1004 of performing a standard material receiving process is performed, that is, the material to be processed with the stable tension is received by the standard material receiving device 105.

Second embodiment:

please refer to fig. 2A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 2A, the feeding device 201 has a function of conveying the material to be processed, and can convey the material to be processed in a normal rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type and a manual type.

The slitting device 202 shown in fig. 2A has a function of cutting a slit material to be processed, and may be called a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The scrap device 203 shown in fig. 2A has a function of collecting and disposing the scrap, that is, after the slitting device 202 slits the material to be processed, the remaining scrap can be recycled and disposed by the scrap device 203.

The tension table device 204 shown in fig. 2A has a function of pressurizing and stabilizing the material to be processed, so as to control the tension of the material to be processed to pressurize and stabilize the material to be processed. The tension table device 204 includes various types of tension table devices 204 such as a hydraulic type, a pneumatic type, a manual type, and a Zhou's press table (see the invention patent of the press table of the invention No. I522188 of Taiwan province).

The baffle device 205 shown in fig. 2A has a function of assisting the material product to not generate a deflection motion (i.e. referred to as "no deflection" in the field), and can assist the material when the material is rolled so that the material does not generate a deflection motion, so that the material has a flat and round annual ring profile when the material is rolled, and is easy for subsequent processing.

The material receiving device 206 shown in fig. 2A has a function of collecting and processing the material to be processed, and is curled in an oil pressure manner and a non-oil pressure manner, so that the received material finished roll is more compact, and the alignment of the winding surface can be improved.

The external sleeve 207 shown in fig. 2A has a function customized according to the standard required by the customer, i.e. the external sleeve 207 can be customized according to the standard required by the customer, and when the customer needs different coiling inner diameters, the external sleeve 207 with different sizes can be customized according to the customized requirement.

As shown in the foregoing fig. 2A, the feeding device 201 is connected to the strip dividing device 202, wherein the strip dividing device 202 is connected to the waste device 203 and the tension table device 204, the tension table device 204 is connected to the partition device 205, the partition device 205 is connected to the material receiving device 206, and the material receiving device 206 is connected to the externally-hanging sleeve 207 for cutting and dividing the material to be processed.

Referring to the flowchart shown in fig. 2B, a method for using a slitting machine system according to the present invention is shown.

First, as shown in fig. 2B, step 2001 is performed, that is, feeding is performed first, that is, the material to be processed is fed into the feeding device 201.

Then, as shown in fig. 2B, step 2002 is performed, that is, the step 2002 of dividing the material to be processed, which is fed in, is cut and divided by the dividing device 202.

The processing method is followed by steps 2003A and 2003B shown in FIG. 2B, namely, step 2003A of performing waste treatment and step 2003B of performing pressure stabilization tension, namely, step 2003A of performing waste treatment on the processed material processed by the slitting device 202, and step 2003B of feeding the material to be processed after slitting into the tension table device 204 to perform pressure stabilization tension.

As shown in fig. 2B, the step 2004 of passing through the spacer means, i.e., the step 2004 of passing the material to be processed after cutting and slitting through the spacer means 205.

As shown in step 2005 in fig. 2B, the material receiving device 206 performs the material receiving process in step 2005.

Finally, as shown in step 2006 of fig. 2B, the customized material receiving process is performed 2006, i.e., the customized material receiving process is performed 2006 for the fixed material to be processed outside the hanging sleeve device 207.

The third embodiment:

please refer to fig. 3A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 3A, a feeding device 301 having a function of conveying a material to be processed can convey the material to be processed in a forward rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type and a manual type.

The slitting device 302 shown in fig. 3A has a function of cutting a slit material to be processed, and may be called a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The scrap device 303 shown in fig. 3A has a function of collecting and disposing the scrap, that is, after the slitting device 302 slits the material to be processed, the remaining scrap can be recycled and disposed by the scrap device 303.

The tension table device 304 shown in fig. 3A has a function of pressurizing and stabilizing the material to be processed, so as to control the tension of the material to be processed to pressurize and stabilize the material to be processed. The tension table device 304 includes various types of tension table devices 304 such as a hydraulic type, a pneumatic type, a manual type, and a Zhou's press table (see the invention patent of the press table of the invention No. I522188 of Taiwan province).

Such as selector device 305 shown in fig. 3A, the selector device 305 has a selected function. The selector device 305 may generally be a power controller, i.e., the selector device 305 may provide the function of selecting whether to use the standard material receiving device 306 or the material receiving device 308.

The standard material receiving device 306 shown in fig. 3A has a function of collecting and processing the material to be processed, and is curled in a tray winding manner, so that the received material finished roll is more compact, and the uniformity of the winding surface can be improved. The standard receiving device 306 is generally composed of a receiving tray, a partition plate and a baffle plate. The material receiving tray is used for receiving the cut finished product materials into annual rings, and the partition plates are used for separating the cut finished product materials, so that the finished product materials are prevented from being damaged due to overlapping of the materials.

The separator device 307 shown in fig. 3A has a function of assisting the material product to not generate a deflection motion (i.e. referred to as "no deflection" in the field), and can assist the material product when the material is rolled so that the material product does not generate a deflection motion, so that the material product has a flat and round annual ring profile when the material product is rolled, and is easy to be processed and processed subsequently.

The material receiving device 308 shown in FIG. 3A is used for rolling in an oil pressure mode and a non-oil pressure mode, so that the finished material receiving roll can be more compact, and the alignment degree of the rolled surface can be improved by matching with the clapboard device 307. (please note that the material receiving device 308 is not the same as the standard material receiving device 306).

The external sleeve 309 shown in fig. 3A has a function customized according to the standard required by the customer, i.e. the external sleeve 309 can be customized according to the standard required by the customer, and when the customer needs different coiling inner diameters, the external sleeve 309 with different sizes can be customized according to the customized requirement.

As shown in the feeding device 301 of fig. 3A, the feeding device 301 is connected to a slitting device 302, wherein the slitting device 302 is connected to a waste device 303 and a tension table device 304, a standard material receiving device 306 is selected to use a material receiving device 308 through a connection selector device 305, and the material receiving device 308 can be externally connected with a shaft sleeve 309 for slitting the material to be processed.

Please refer to the flowchart shown in fig. 3B, which shows a method for using a slitting machine system according to the present invention.

First, as shown in fig. 3B, step 3001, i.e., feeding the material to be processed into the feeding device 301, is performed.

Then, step 3002 shown in fig. 3B is performed, that is, step 3002 of dividing the material to be processed, which is to be conveyed, into the dividing device 302 for cutting and dividing.

The process continues with step 3003A and step 3003B shown in fig. 3B, which are a step 3003A of performing waste treatment and a step 3003B of performing pressure stabilization tension, namely, a step 3003A of performing waste treatment on the processed material processed by the slitting device 302, and a step 3003B of performing pressure stabilization tension by feeding the material to be processed after slitting into the tension table device 304.

Step 3004 shown in fig. 3B, namely step 3004 of "selecting" with selector device 305.

As shown in step 3005A of fig. 3B, if step 3005A of performing the standard material receiving process by the standard material receiving device 306 is selected, the material to be processed with the stable tension is received by the standard material receiving device 306.

As shown in fig. 3B, in step 3005B, if the material receiving device 308 is selected, the material to be processed after being cut and separated passes through the partition device 307 and the material receiving device 308.

Continuing with step 3006 shown in FIG. 3B, a material receiving step 3006 is performed, i.e. the material to be processed with stable tension is received by the material receiving device 308.

Finally, as shown in step 3007 of fig. 3B, step 3007 of customized material receiving processing can be performed by selecting the external sleeve device 309.

The fourth embodiment:

please refer to fig. 4A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 4A, a feeding device 401 having a function of conveying a material to be processed is capable of conveying the material to be processed in a normal rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type, and a manual type.

The slitting device 402 shown in fig. 4A has a function of cutting a slit material to be processed, and may be called a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The scrap device 403 shown in fig. 4A has a function of collecting and disposing the scrap, that is, after the slitting device 402 slits the material to be processed, the remaining scrap can be recycled and disposed by the scrap device 403.

The spacer device 404 shown in fig. 4A has a function of assisting the material to be rolled without deviating movement (i.e. referred to as "off-tracking" in the field), so that the material can be rolled without deviating movement, and the rolled material has a flat and round annual ring profile for easy subsequent processing.

The material receiving resistance device 405 shown in fig. 4A has a function of collecting and processing the material to be processed, and the material receiving resistance device 405 includes various types of material receiving resistance devices 405, such as a slip shaft type material receiving device, a material receiving plate and gasket type material receiving device, and an electromagnetic type material receiving resistance device.

As shown in the feeding device 401 of fig. 4A, the feeding device 401 is connected to a slitting device 402, wherein the slitting device 402 is connected to a waste device 403, a partition device 404 and a material receiving resistance device 405 simultaneously, so as to perform cutting and slitting of the material to be processed.

Please refer to the flowchart shown in fig. 4B, which shows a method for using a slitting machine system according to the present invention.

First, as shown in fig. 4B, step 4001, feeding 4001, i.e., feeding the material to be processed into the feeding device 401, is performed.

Then, step 4002 shown in fig. 4B is performed, that is, step 4002 of dividing the material to be processed, which is to be conveyed in, is cut and divided into strips by the dividing device 402.

Step 4003A and step 4003B shown in fig. 4B are followed by step 4003A of performing scrap treatment and step 4003B of performing pressure stabilization at the same time, that is, step 4003A of performing scrap treatment on the processed material processed by the slitting device 402, and step 4003B of passing the material to be processed after slitting through the separator device 404.

As shown in fig. 4B, step 4003B is a step 4003B of passing through the separating device, i.e., the material to be processed after being cut and separated passes through the separating device 404.

Finally, as shown in step 4004 of fig. 4B, the material receiving process is performed 4004, that is, the material to be processed is received by the material receiving resistance device 405.

Fifth embodiment:

please refer to fig. 5A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 5A, a feeding device 501, which has a function of conveying a material to be processed, can convey the material to be processed in a forward rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type and a manual type.

The slitting device 502 shown in fig. 5A has a function of cutting a slit material to be processed, and may be referred to as a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The waste device 503 shown in fig. 5A has a function of collecting and disposing waste, that is, after the slitting device 502 slits the material to be processed, the remaining waste can be recycled and disposed by the waste device 503.

Such as the selector device 504 shown in fig. 5A, the selector device 504 has a selected function. That is, the selector device 504 may select the end use standard take-up 506 or take-up resistance 508 function.

The tension table device 505 shown in fig. 5A has a function of pressurizing and stabilizing the material to be processed, so as to control the tension of the material to be processed to pressurize and stabilize the material to be processed. The tension table device 505 includes various types of tension table devices 505 such as a hydraulic type, a pneumatic type, a manual type, and a Zhou's press table (see the invention patent of the press table of the invention No. I522188 of Taiwan province).

The standard material receiving device 506 shown in fig. 5A has a function of collecting and processing the material to be processed, and is curled in a tray winding manner, so that the received material finished roll is more compact, and the uniformity of the winding surface can be improved. The standard receiving device 506 is generally composed of a receiving tray, a partition, and a baffle. The material receiving tray is used for receiving the cut finished product materials into annual rings, and the partition plates are used for separating the cut finished product materials, so that the finished product materials are prevented from being damaged due to overlapping of the materials.

The baffle device 507 shown in fig. 5A has a function of assisting the material product to not generate a deflection motion (i.e. referred to as "no deflection" in the field), and can assist the material when the material is rolled so that the material does not generate a deflection motion, so that the material has a flat and circular annual ring profile when the material is rolled, and is easy for subsequent processing.

As shown in fig. 5A, the material receiving resistance device 508 has a function of collecting and processing the material to be processed, and the material receiving resistance device 508 includes various material receiving resistance devices 508 such as a slip shaft type, a material receiving plate and a gasket type, and an electromagnetic type material receiving resistance device.

As shown in the feeding device 501 of fig. 5A, the feeding device 501 is connected to a strip dividing device 502, wherein the strip dividing device 502 is connected to a waste device 503 and a selector device 504, and the selector device 504 is connected to the standard receiving device 506 and the receiving resistance device 508 at the end for cutting and dividing the material to be processed.

Please refer to the flowchart shown in fig. 5B, which shows a method for using a slitting machine system according to the present invention.

First, as shown in fig. 5B, step 5001, i.e., feeding the material to be processed into the feeding device 501, is performed.

Then, step 5002 shown in fig. 5B is performed, that is, step 5002 of dividing the material to be processed, which is to be conveyed, is performed by cutting and dividing the material by the dividing apparatus 502.

The process continues with step 5003A and step 5003B shown in fig. 5B, which are step 5003A for performing waste treatment and step 5003B for performing "selection", i.e., step 5003B for performing waste treatment on the processed material processed by the strip dividing apparatus 502 and performing "selection" by the selector 504.

As shown in step 5004A of fig. 5B, if the material to be processed after cutting and slitting is selected to be fed into the tension table device 505, the step 5004A of pressing and stabilizing the material is performed.

As shown in step 5005 of fig. 5B, a step 5005 of performing standard material receiving processing is performed, i.e., the material to be processed, which is stably pressed and fixed, is subjected to standard material receiving processing by the standard material receiving device 506.

Referring to FIG. 5B, in step 5004B, if the step 5004B of passing through the partition device is selected, the material to be processed after cutting and slitting passes through the partition device 507.

Finally, as shown in step 5006 in fig. 5B, a step 5006 of receiving material is performed, i.e., the fixed material to be processed is received by the receiving resistance device 508.

Please refer to fig. 6A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 6A, a feeding device 601, which has a function of conveying materials to be processed, can convey materials to be processed in a forward rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type, and a manual type.

The slitting device 602 shown in fig. 6A has a function of cutting a slit material to be processed, and may be called a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The scrap device 603 shown in fig. 6A has a function of collecting and disposing the scrap, that is, after the strip device 602 performs the strip of the material to be processed, the remaining scrap can be recycled by the scrap device 603.

Such as selector device 604 shown in fig. 6A, the selector device 604 has a selected function. That is, the selector means 604 may select either the end use tension stage means 605 or the diaphragm means 606.

The tension table device 605 shown in fig. 6A has a function of pressurizing and stabilizing the material to be processed, so as to control the tension of the material to be processed to pressurize and stabilize the material to be processed. The tension table device 605 includes various types of tension table devices 605 such as a hydraulic type, a pneumatic type, a manual type, and a Zhou's press table (see the invention patent of the press table of the invention No. I522188 of Taiwan province).

The spacer device 606 shown in fig. 6A has a function of assisting the material product to not generate deflection motion (i.e. referred to as "off-tracking" in the field), and can assist the material product to prevent the material product from off-tracking during material rolling, so that the material product has a flat and round annual ring profile during material rolling, and is easy for subsequent processing.

The material receiving device 607 shown in fig. 6A has a function of collecting and processing the material to be processed, and is curled in an oil pressure manner and a non-oil pressure manner, so that the received material finished roll can be more compact, and the alignment of the rolled surface can be improved.

The external sleeve 608 shown in fig. 6A has a function customized according to the standard required by the customer, i.e. the external sleeve 608 can be customized according to the standard required by the customer, and when the customer needs different coiling inner diameters, the external sleeve 608 with different sizes can be customized according to the customized requirement.

The baffle device 606 shown in fig. 6A has a function of assisting the material to be rolled without deviating movement (i.e. referred to as "off-tracking" in the field), so that the material can be rolled without deviating movement, and the rolled material has a flat and round annual ring profile for easy subsequent processing.

As shown in fig. 6A, the material receiving resistance device 609 has a function of collecting and processing the material to be processed, and the material receiving resistance device 609 includes various types of material receiving resistance devices 609 such as a slip shaft type, a material receiving plate and a gasket type, and an electromagnetic type material receiving resistance device.

As shown in the foregoing fig. 6A, the feeding device 601 is connected to the splitting device 602, wherein the splitting device 602 is connected to the waste device 603 and the selector device 604, the selector device 604 can select the material receiving device 607 and the material receiving resistance device 609 to be used at the end, the tension table device 605 is connected to the partition device 606, the partition device 606 is connected to the material receiving device 607, and the material receiving device 607 can be connected to the external sleeve 608. In addition, the partition device 606 is connected to the material receiving resistance device 609 to perform cutting and slitting of the material to be processed.

Please refer to the flowchart shown in fig. 6B, which shows a method for using a slitting machine system according to the present invention.

First, as shown in fig. 6B, step 6001 is a step 6001 of feeding, that is, feeding the material to be processed into the feeding device 601.

Then, as shown in fig. 6B, a step 6002 is performed, i.e., a step 6002 of dividing the material to be processed, which is to be conveyed, into a dividing device 602 for cutting and dividing.

Continuing with step 6003A and step 6003B of fig. 6B, a waste treatment step 6003A and a select step 6003B are performed simultaneously, i.e., the processing material processed by the strip separating device 602 is simultaneously subjected to a waste treatment for the removed waste material, and a select step 6003B is performed by the selector 604.

As shown in step 6004 of fig. 6B, if the selector 604 selects to send the cut and separated material to be processed into the tension table 605, the step 6004 of pressing and stabilizing the tension is performed.

As shown in fig. 6B, at step 6005, passing through the partition means, the material to be processed after cutting and slitting passes through the partition means 606.

As shown in fig. 6B, at step 6006, the material receiving device 607 performs a material receiving process at step 6006.

Finally, as shown in FIG. 6B, step 6007 is to perform customized material receiving, i.e., step 6007 is to hang the fixed material to be processed on the sleeve device 608 to perform customized material receiving.

In addition, as shown in step 6005 of fig. 6B, if step 6005 is selected to pass through the partition means 606, the material to be processed after cutting and dividing is passed through the partition means 606.

Finally, as shown in fig. 6B, a step 6008 of receiving material is performed, i.e. the material to be processed is received by the receiving resistance device 609.

Please refer to fig. 7A, which is a schematic diagram of components of a slitting machine system according to the present invention.

First, as shown in fig. 7A, a feeding device 701, which has a function of conveying a material to be processed, can convey the material to be processed in a forward rotation manner or a reverse rotation manner, and the types include an oil pressure type, a pneumatic type, and a manual type.

The slitting device 702 shown in fig. 7A has a function of cutting a slit material to be processed, and may be called a slitting machine, which can perform a cutting operation on a metal coil, a sheet, a strip, etc., and generate waste materials in the process. The strip dividing device is provided with a plurality of strip dividing circular cutters which are assembled in the strip dividing device in an interval arrangement mode and used for dividing the raw material with preset width into a plurality of strip finished products, and the strip dividing circular cutters are usually matched with a gasket, namely a steel sleeve (Spacer), and the size to be cut can be adjusted, so that the distance between the strip dividing circular cutters of each group is adjusted to control the width of the material to be processed. The amplitude precision of the reference plane of the slitting cutter shaft is within 0.03 millimeter (mm), so that the service life of the cutter and the precision of materials after slitting can be ensured.

The scrap device 703 shown in fig. 7A has a function of collecting and disposing the scrap, that is, after the slitting device 702 slits the material to be processed, the remaining scrap can be recycled and disposed by the scrap device 703.

Such as selector device 704 shown in fig. 7A, the selector device 704 has a selected function. That is, the selector device 704 may provide the function of selectively using the tension table device 705 or selectively using the material receiving resistance device 712 at the end.

The tension table device 705 shown in fig. 7A has a function of pressurizing and stabilizing the material to be processed, so as to control the tension of the material to be processed to pressurize and stabilize the material to be processed. The tension table device 705 includes various types of tension table devices 705 such as a hydraulic type, a pneumatic type, a manual type, and a Zhou's press table (see the invention patent of the press table of the invention No. I522188 of Taiwan province).

The standard material receiving device 706 shown in fig. 7A has a function of collecting and processing the material to be processed, and is curled in a tray winding manner, so that the received material finished roll is more compact, and the uniformity of the winding surface can be improved. The standard material receiving device 706 is generally composed of a material receiving tray, a partition plate and a baffle plate. The material receiving tray is used for receiving the cut finished product materials into annual rings, and the partition plates are used for separating the cut finished product materials, so that the finished product materials are prevented from being damaged due to overlapping of the materials.

The spacer device 708 shown in fig. 7A has the function of assisting the material to be rolled without deflection (i.e. referred to as "off-tracking" in the field), so that the material can be rolled without deflection, and the rolled material has a flat and round annual ring profile for easy subsequent processing.

The material receiving device 709 shown in FIG. 7A is curled in an oil pressure mode and a non-oil pressure mode, so that the received finished roll is more compact and the alignment of the rolled surface can be improved.

The external shaft sleeve 710 shown in fig. 7A has a function of customizing according to the standard required by the customer, that is, the external shaft sleeve 710 can be customized according to the standard required by the customer, and when the customer needs different coiling inner diameters, the external shaft sleeve 710 with different sizes can be customized according to the customized requirement.

As shown in fig. 7A, the material receiving resistance device 712 has a function of collecting and processing the material to be processed, and the material receiving resistance device 712 includes various material receiving resistance devices 712 such as a slip shaft type, a material receiving plate and a gasket type, and an electromagnetic type material receiving resistance device.

As shown in the feeding device 701 of fig. 7A, the feeding device 701 is connected to a striping device 702, wherein the striping device 702 is connected to a waste device 703 and a selector device 704, and the selector device 704 is connected to the tension table device 705 and the partition device 708, i.e. the selector device 704 can select the end-use tension table device 705 or the end-use partition device 708.

As shown in fig. 7A, the tension table 705 is connected to the standard material receiving device 706 and the spacer 708, and the spacer 708 is connected to the material receiving device 709 and the material receiving resistance device 712. In addition, the material receiving device 709 is connected to the external sleeve 710 for cutting and striping the material to be processed.

Please refer to the flowchart shown in fig. 7B, which shows a method for using a slitting machine system according to the present invention.

First, as shown in step 7001 in fig. 7B, that is, step 7001 of feeding is performed first, that is, the material to be processed is conveyed into the feeding device 701.

Then, as shown in fig. 7B, a step 7002 of slitting is performed, that is, the material to be processed which is to be fed in is slit and slit by the slitting device 702.

The processing steps 7003A and 7003B shown in fig. 7B are a step 7003A for performing waste treatment and a step 7003B for performing "selection", i.e., a step 7003B for performing waste treatment on the processed material processed by the dividing device 702 and performing "selection" by the selector 704.

As shown in step 7004 of fig. 7B, if the material to be processed after cutting and slitting is fed to the tension table device 705 by the selector 704, the step 7004 of pressurizing and stabilizing the tension is performed.

As shown in step 7005 in fig. 7B, the step 7005 of performing the standard receiving process by the standard receiving device 706 is performed.

As shown in step 7006 of fig. 7B, that is, if the selector 704 is used to select the material to be processed to pass through the partition device, step 7006 is to pass through the partition device 708.

As shown in step 7007B, the material receiving device 709 performs material receiving processing of the material receiving device 709 at step 7007.

As shown in step 7008 in fig. 7B, the customized material receiving process step 7008 may also be performed, that is, the customized material receiving process step 7008 is performed on the fixed material to be processed by the external hanging shaft sleeve device 710.

As shown in step 7006 of fig. 7B, that is, if the selector 704 selects to pass through the partition device 708, the material to be processed after cutting and slitting passes through the partition device 708.

Finally, as shown in step 7010 of fig. 7B, the material receiving process is performed in step 7010, that is, the material to be processed is fixed by the material receiving resistance device 712, and the material is received by the material receiving resistance device 712 in step 7010.

The invention relates to a slitting machine system and a using method thereof, wherein the slitting machine system comprises a feeding device, a slitting device, a waste device, a selector device, a tension table device, a standard receiving device, a partition plate device, a receiving device, an externally-hung shaft sleeve device, a receiving resistance device and the like, the slitting machine system formed by combining the different devices, and various using methods according to different slitting machine systems.

Therefore, the slitting machine system of the invention uses the module technology to improve the production efficiency of the manufacturing process, and achieves the purposes of saving electric power, reducing energy use and improving environmental protection efficiency. The invention can be used for processing various metal materials, including various metal alloy materials and nonferrous metal materials.

Although the present invention has been described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A slitter system, comprising at least:

the feeding device has the function of conveying a material to be processed, and the feeding device is in a forward rotation mode or a reverse rotation mode to convey the material to be processed, wherein the type of the feeding device comprises an oil pressure type, an air pressure type and a manual type;

the slitting device has the function of cutting and slitting the material to be processed, is provided with a plurality of slitting circular knives which are assembled in the slitting device in an interval arrangement mode;

a waste treatment device having a function of collecting and treating a waste;

a tension table device with the function of pressurizing and stabilizing the material to be processed, wherein the type of the tension table device comprises an oil pressure type, a pneumatic type, a manual type and a Zhou's pressure table; and

a standard material receiving device which has the function of collecting and processing the material to be processed,

wherein this material feeding unit connects and divides the strip device, and wherein this strip device connects waste material device and tension platform device simultaneously, and standard material collecting device is connected to this tension platform device to the cutting branch strip of a material of treating.

2. A method of using the slitter system according to claim 1, comprising:

carrying out a feeding step, namely conveying a material to be processed into a feeding device;

a step of slitting is carried out, a slitting device is used for cutting and slitting the material to be processed;

simultaneously performing a waste treatment step and a pressurization stabilization step, wherein the waste treatment step is performed by a waste treatment device, and the pressurization stabilization step is performed by feeding the material to be processed into a tension table device for pressurization stabilization;

performing a pressurizing and stabilizing step, wherein the pressurizing and stabilizing step is to feed the material to be processed into a tension table device for pressurizing and stabilizing;

carrying out a material receiving treatment by a standard material receiving device.

3. A slitter system, comprising at least:

a waste treatment device having a function of collecting and treating a waste;

a tension table device with the function of pressurizing and stabilizing the material to be processed, wherein the type of the tension table device comprises an oil pressure type, a pneumatic type, a manual type and a Zhou's pressure table;

a baffle device having a function of assisting a material product not to generate a deflection motion;

the material receiving device has the function of collecting and processing the material to be processed, wherein the type of the material receiving device comprises an oil pressure type, a non-oil pressure type and an air pressure type; and

the external shaft sleeve has the function customized according to the standard required by a customer;

wherein this material feeding unit connects the slitting device, and this waste material device and this tension table device are connected simultaneously to this slitting device, and this tension table device connects this baffle device, and this material collecting device is connected to this baffle device, and this material collecting device connects this external axle sleeve to the cutting slitting of waiting to process the material.

4. A method of using a slitter system according to claim 3, comprising:

a step of passing the material to be processed through a partition device;

carrying out a material receiving treatment by a material receiving device; and

a step of customized material receiving treatment is carried out by an external shaft sleeve device.

5. A slitter system, comprising at least:

a waste treatment device having a function of collecting and treating a waste;

a selector device having a selection function;

the standard material receiving device has the function of collecting and processing the material to be processed;

wherein this material feeding unit connects and divides the strip device, and wherein this strip device connects waste material device and this tension platform device simultaneously, and this tension platform device connects the selector device, and standard material collecting device and this material collecting device are connected simultaneously to this selector device, and this material collecting device is connected to this baffle device, and this external axle sleeve can be connected to this material collecting device to the cutting branch strip of waiting to process the material.

6. A method of using a slitter system according to claim 5, comprising:

a step of selecting with a selector device;

if the step of carrying out a standard material receiving device is selected, carrying out material receiving treatment on the material to be processed with stable tension by the standard material receiving device;

if the material to be processed passes through the material receiving device, the material to be processed passes through a partition plate device; carrying out the step of receiving material treatment by a receiving device; and a step of carrying out customized material receiving treatment by using an externally hung shaft sleeve device.

7. A slitter system, comprising at least:

a waste treatment device having a function of collecting and treating a waste;

a baffle device having a function of assisting a material product not to generate a deflection motion; and

the material receiving resistance device has the function of collecting and treating the material to be processed, and comprises a slip shaft type material receiving plate and gasket type material receiving device and an electromagnetic material receiving resistance device;

wherein this material feeding unit connects this slitting device, and wherein this slitting device connects this waste material device simultaneously and connects this baffle device, and this material collecting resistance device is connected to this baffle device to the cutting slitting of waiting to process the material.

8. A method of using a slitter system according to claim 7, comprising:

simultaneously performing a waste treatment step and a step of passing through a partition device, wherein the waste treatment step is performed by a waste treatment device, and the step of passing through the partition device is to send the material to be processed through the partition device; and

carrying out a material receiving treatment by a material receiving resistance device.

9. A slitter system, comprising at least:

a waste treatment device having a function of collecting and treating a waste;

a selector device having a selection function;

a material receiving resistance device with the function of collecting and processing the material to be processed, wherein the material receiving resistance device is selected from the group of a slip shaft type, a material receiving disc and gasket type and an electromagnetic type material receiving resistance device;

wherein this material feeding unit connects this slitting device, and this waste material device and selector device are connected simultaneously to this slitting device, and this tension platform device and this baffle device are connected simultaneously to this selector device, and this material collecting resistance device is connected to this baffle device to the cutting slitting of waiting to process the material.

10. A method of using a slitter system according to claim 9, comprising:

simultaneously performing a waste treatment step and a selection step, wherein the waste treatment step is performed by a waste treatment device;

a step of selecting with a selector device;

if a step of pressurizing and stabilizing is selected, the material to be processed is sent into a tension table fixing device to be pressurized and stabilized; and carrying out a material receiving treatment by a standard material receiving device;

if the material receiving resistance is selected to pass, the step that the material to be processed passes through a clapboard device is carried out; and a step of carrying out material receiving treatment by a material receiving resistance device.

11. A slitter system, comprising at least:

a waste treatment device having a function of collecting and treating a waste;

a selector having a selection function;

the material receiving device has the function of collecting and processing the material to be processed, wherein the type of the material receiving device comprises an oil pressure type, a non-oil pressure type and an air pressure type;

the external shaft sleeve has the function customized according to the standard required by a customer; and

a material receiving resistance device with the function of collecting and processing the material to be processed, wherein the material receiving resistance device comprises an electromagnetic type material receiving resistance device,

wherein this material feeding unit connects and divides the strip device, and wherein this strip device connects waste material device and selector device simultaneously, and this tension platform device and baffle device are connected to this selector device simultaneously, and this tension platform device connects the baffle device, and this material collecting device is connected to this baffle device, and this material collecting device connects external axle sleeve, and this material collecting resistance device is connected to this baffle device to the cutting branch strip of waiting to process the material.

12. A method of using a slitter system according to claim 11, comprising:

a step of selecting with a selector device; 6B

If a step of pressurizing and stabilizing is selected, the material to be processed is sent into a tension table fixing device to be pressurized and stabilized; a step of passing the material to be processed through a partition device; carrying out a material receiving treatment by a material receiving device; and a step of carrying out customized material receiving treatment by using an external shaft sleeve device;

if the step of receiving resistance is selected, the material to be processed passes through the clapboard device; and performing a material receiving treatment by a material receiving resistance device.

13. A slitter system, comprising at least:

the feeding device has a function of conveying a material to be processed, and the feeding device is in a forward rotation mode or a reverse rotation mode to convey the material to be processed, wherein the type of the feeding device comprises an oil pressure type air pressure type and a manual type;

a waste treatment device having a function of collecting and treating a waste;

a selector device having a selection function;

wherein this material feeding unit connects the slitting device, and wherein this slitting device connects this waste material device and this selector device simultaneously, and this tension table device connects standard material collecting device and this connection this baffle device, and this material collecting device is connected to this baffle device and this material collecting resistance device is connected, and this external axle sleeve is connected to this material collecting device to the cutting slitting of waiting to process the material.

14. A method of using a slitter system according to claim 13, comprising:

a step of selecting with a selector device;

if the selector device selects a standard material receiving step, the material to be processed is fed into a tension table fixing device to perform the pressurization stabilization; and

carrying out a standard material receiving treatment by a standard material receiving device;

if the selector device selects to carry out the step of a material receiving device, the material to be processed is fed into the tension table fixing device to carry out the pressurization stabilization; a step of passing the material to be processed through the spacer device;

a material receiving device is used for carrying out the material receiving treatment of the material receiving device; and

a step of customized material receiving treatment is carried out by an external shaft sleeve device;

if the selector device selects the step of passing through the material receiving resistance clapboard device, the material to be processed passes through the clapboard device; and a step of carrying out the material receiving treatment of the material receiving resistance device by a material receiving resistance device.