CN112658941B - Cutting device is used in aluminum alloy plate processing - Google Patents

Abstract

The invention belongs to the technical field of aluminum alloy plate processing, and particularly relates to a cutting device for aluminum alloy plate processing, which comprises two supporting plates, wherein a plurality of rotating shafts are rotatably arranged between the two supporting plates at equal intervals, an aluminum alloy plate is placed on the plurality of rotating shafts, fastening assemblies are arranged on two sides of the two supporting plates, one side of one fastening assembly is provided with a displacement mechanism, the displacement mechanism comprises a displacement assembly, a lifting assembly and a cutting assembly, the lifting assembly is arranged on the displacement assembly, and the cutting assembly is arranged on the lifting assembly.

Description

Cutting device is used in aluminum alloy plate processing

Technical Field

The invention belongs to the technical field of aluminum alloy plate processing, and particularly relates to a cutting device for aluminum alloy plate processing.

Background

China is a large industrial country, new technical materials of various industries and new materials are continuously emerged along with the rapid development of increasingly powerful society of economy, one of the aluminum alloys has excellent mechanical properties and chemical properties, and the aluminum alloy is widely applied to various fields.

In the aluminum alloy use, appear with the form of tubular product and panel more, especially the building trade, generally adopt the aluminum alloy template to pour the construction now, convenient, swift, and the aluminum alloy template can have enough to meet the need many times, greatly reduced construction cost. When the aluminum alloy plate is processed into the aluminum alloy template, the aluminum alloy plate is required to be cut into aluminum alloy templates with different specifications by using a cutting device according to the specification of the aluminum alloy template, so that the aluminum alloy template is convenient to adapt to different construction environments. However, when the existing cutting device is used for cutting the aluminum alloy plate, the aluminum alloy plate needs to be fixed manually, then segmented cutting is carried out, the cutting distance cannot be accurately positioned, the cut aluminum alloy plate needs to be subjected to subsequent processing, and the requirements can be met, so that a large amount of leftover materials are generated, the utilization rate of the aluminum alloy plate is reduced, and the labor intensity of workers is increased.

Disclosure of Invention

The purpose of the invention is: the utility model provides a cutting device is used in aluminum alloy plate processing for solve current cutting device and when the cutting, need the manual work to fix aluminum alloy plate, then carry out the cutting of segmentation, can not accurate location cutting distance, the aluminum alloy plate who leads to cutting out needs follow-up processing, just can accord with the demand to lead to a large amount of leftover bits to produce, reduced aluminum alloy plate's utilization ratio, increased workman's intensity of labour's problem.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

a cutting device for processing aluminum alloy plates comprises two supporting plates, a plurality of rotating shafts are rotatably arranged between the two supporting plates at equal intervals, the aluminum alloy plates are placed on the plurality of rotating shafts, fastening components are arranged on two sides of the two supporting plates, a displacement mechanism is arranged on one side of one of the fastening components, the displacement mechanism comprises a displacement component, a lifting component and a cutting component, the lifting component is arranged on the displacement component, the cutting component is arranged on the lifting component, the lifting component comprises a second hydraulic cylinder, a lifting plate, a first motor and a lead screw, the second hydraulic cylinder is fixedly arranged on the displacement component, the lifting plate is fixedly arranged on an output shaft of the second hydraulic cylinder, a sliding groove is formed in the displacement component, a sliding block is fixedly arranged on the lifting plate, and the sliding block is positioned in the sliding groove, the cutting assembly comprises a transmission block, a connecting plate, an installation block and a second motor, the transmission block is provided with a threaded hole, one end of the transmission block is installed on the screw rod through the threaded hole, the other end of the transmission block penetrates through the through groove and is positioned below the lifting plate, the connecting plate is fixedly installed at the tail end of the transmission block, the installation block is installed on the connecting plate, and the installation block is provided with an installation groove, the utility model discloses a motor, including first motor, second motor, the output shaft end of output shaft, spliced pole, stopper, spacing groove, spacer groove and gasket, second motor fixed mounting is in the mounting groove, the terminal fixed mounting of output shaft of second motor has the emery wheel, the through-hole has been seted up on the connecting plate, the spacing groove has been seted up on the connecting plate, through-hole and spacing groove intercommunication, the spacing groove is 90 degrees, fixed mounting has the spliced pole on the installation piece, fixed mounting has the stopper on the spliced pole, the through-hole is worn out to the spliced pole, the stopper offsets with one side of spacing groove, the external screw thread has been seted up in the other end of stopper on the spliced pole, install the gasket on the spliced pole, the spiro union has the nut on the spliced pole, the handle is installed to the end of spliced pole, the central fixed mounting of handle has the screw thread post, the handle passes through the screw thread post spiro union at the end of spliced pole.

The aluminum alloy plate fixing device is characterized in that the aluminum alloy plate fixing device is further limited, the two fastening assemblies are identical in structure and comprise a support frame, a mounting plate, an air cylinder and a fastening plate, the mounting plate is fixedly mounted on the support frame, the air cylinder is fixedly mounted on the mounting plate, the fastening plate is fixedly mounted on an output shaft of the air cylinder, and a plurality of fastening columns are fixedly arranged on the fastening plate at equal intervals; through equidistant setting of fastening post, when avoiding the cutting, cut the mounting plate.

The cutting device is characterized in that the displacement assembly comprises a first hydraulic cylinder, a guide rail and a sliding plate, the guide rail is fixedly arranged on one side of the support frame, two installation bases are respectively arranged at two ends of the sliding plate, rollers are rotatably installed in the installation bases, the installation bases and the rollers are located in the guide rail, vertical plates are fixedly arranged on two sides of the sliding plate, the vertical plates are connected with the outer wall of the guide rail, two sliding frames are fixedly installed on the sliding plate, the first hydraulic cylinder is fixedly installed on one side of the guide rail, the output shaft of the first hydraulic cylinder is fixedly connected with one of the sliding frames, the sliding frames and the sliding plate can be driven to slide on the guide rail through starting of the first hydraulic cylinder, and therefore the length of the output shaft of the first hydraulic cylinder is controlled, and the cutting length is controlled.

The aluminum alloy plate cutting machine is further limited, a first baffle and a second baffle are respectively arranged on two sides of the grinding wheel, the width size of the first baffle and the width size of the second baffle are smaller than the diameter of the grinding wheel, a first screw rod and a second screw rod are in threaded connection with the second baffle, the first screw rod and the second screw rod penetrate through the first baffle, the tail ends of the first screw rod and the second screw rod are in threaded connection with the transmission block, a groove is formed in the first baffle, an output shaft of the second motor penetrates through the groove, and therefore the aluminum alloy plate can be prevented from splashing due to the fact that chips generated by cutting can be blocked by the first baffle and the second baffle when the grinding wheel cuts an aluminum alloy plate, and meanwhile the aluminum alloy plate can be abutted from the upper side, and cutting is facilitated; the first baffle is provided with the groove, so that the first baffle can be conveniently installed.

Further inject, the equidistant fixed a plurality of columns that rotate that are provided with on the axis of rotation, aluminum alloy plate places on a plurality of columns that rotate, sets up like this, aluminum alloy plate surface fish tail when avoiding placing, simultaneously, conveniently with placing and uninstalling of aluminum alloy plate.

Further inject, fixedly connected with connecting rod on the nut sets up like this, is convenient for the fastening and the unscrewing of nut through the connecting rod.

Further limited, the handle is provided with anti-slip lines, so that the handle is convenient to use.

Further, the lifting plate is fixedly provided with a weight block on one side of the first motor, and the arrangement is that the balance of two ends of the lifting plate is further kept through the installation of the weight block.

The invention adopting the technical scheme has the advantages that:

1. the aluminum alloy plate can be transversely cut into different specifications as required through the mutual matching of the displacement assembly, the lifting assembly and the cutting assembly, and the aluminum alloy plate can be cut into different specifications at one time through the mutual matching of the displacement assembly, the lifting assembly and the cutting assembly after being turned;

2. through the arrangement of the two fastening components, the two fastening components have the same structure, each fastening component comprises a support frame, a mounting plate, a cylinder and a fastening plate, a plurality of fastening columns are fixedly arranged on the fastening plates at equal intervals, the fastening plates and the fastening columns are driven to move towards two sides of the aluminum alloy plate by the output shaft of the cylinder through the starting of the cylinder, so that the aluminum alloy plate is fixed, the position of the aluminum alloy plate does not need to be manually fixed, and the fastening plates are prevented from being cut during cutting through the arrangement of the fastening columns at equal intervals;

3. first baffle and second baffle are installed respectively through the both sides at the emery wheel, make the emery wheel when cutting aluminum alloy plate material, the piece that the cutting produced can be blocked by first baffle and second baffle, avoids splashing, simultaneously, can play the effect that supports aluminum alloy plate material from the top, more convenient cutting.

Drawings

The invention is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a first schematic structural diagram of an embodiment of a cutting device for processing an aluminum alloy plate according to the present invention;

FIG. 2 is a schematic structural diagram of a moving mechanism in the cutting device for processing aluminum alloy plates according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 4 is a first schematic structural diagram of a cutting assembly in an embodiment of a cutting apparatus for processing aluminum alloy plates according to the present invention;

FIG. 5 is a schematic view of a disassembled structure of a cutting assembly in an embodiment of a cutting device for processing aluminum alloy plates according to the present invention;

FIG. 6 is a schematic structural diagram of a second embodiment of a cutting apparatus for processing aluminum alloy plates according to the present invention;

FIG. 7 is a second schematic structural diagram of a cutting assembly in an embodiment of a cutting apparatus for processing aluminum alloy plates according to the present invention;

the main element symbols are as follows:

the aluminum alloy plate comprises a supporting plate 1, a rotating shaft 11, a rotating column 12, an aluminum alloy plate 2, a supporting frame 3, a mounting plate 31, an air cylinder 32, a fastening plate 33, a fastening column 34, a guide rail 41, a sliding plate 42, a vertical plate 421, a mounting seat 422, a roller 423, a first hydraulic cylinder 43, a sliding frame 44, a sliding groove 441, a second hydraulic cylinder 51, a lifting plate 52, a first connecting block 521, a second connecting block 522, a through groove 523, a load-carrying block 53, a first motor 54, a lead screw 541, a transmission block 61, a threaded hole 611, a connecting plate 62, a through hole 621, a limiting groove 622, a mounting block 63, a mounting groove 631, a second motor 64, a grinding wheel 65, a first baffle 66, a groove 661, a second baffle 67, a first screw 68, a second screw 681, a third screw 69, a connecting column 7, a limiting block 71, a gasket 72, a nut 73, a connecting rod 731, a handle 74, a threaded column 741 and an anti-slip pattern 742.

Detailed Description

The present invention will be described in detail with reference to the drawings and specific embodiments, wherein like reference numerals are used for similar or identical parts in the drawings or the description, and implementations not shown or described in the drawings are known to those of ordinary skill in the art. In addition, directional terms, such as "upper", "lower", "top", "bottom", "left", "right", "front", "rear", etc., used in the embodiments are only directions referring to the drawings, and are not intended to limit the scope of the present invention.

As shown in fig. 1 to 7, the cutting device for processing the aluminum alloy plate comprises two support plates 1, a plurality of rotating shafts 11 are rotatably mounted between the two support plates 1 at equal intervals, a plurality of rotating columns 12 are fixedly arranged on the rotating shafts 11 at equal intervals, and the aluminum alloy plate 2 is placed on the plurality of rotating columns 12, so that the surface of the aluminum alloy plate 2 is prevented from being scratched when the aluminum alloy plate is placed, and meanwhile, the aluminum alloy plate 2 is conveniently placed and unloaded. The two sides of the two supporting plates 1 are provided with fastening assemblies, and the two sides of the aluminum alloy plate 2 are fastened through the two fastening assemblies, so that the aluminum alloy plate 2 is prevented from displacing during cutting. Displacement mechanism is installed to one side of one of them fastening components, and displacement mechanism includes displacement subassembly, lifting unit and cutting assembly, through mutually supporting of displacement subassembly, lifting unit, cutting assembly and fastening components, can cut into different specifications with aluminum alloy plate 2, reduces the degree of follow-up processing, improves aluminum alloy plate 2's utilization ratio.

Two fastening components's structure is the same, fastening components includes support frame 3, mounting panel 31, cylinder 32 and mounting plate 33, mounting panel 31 fixed mounting is on support frame 3, cylinder 32 fixed mounting is on mounting panel 31, mounting plate 33 fixed mounting is on the output shaft of cylinder 32, equidistant fixed a plurality of fastening posts 34 that are provided with on mounting plate 33, start through cylinder 32, the output shaft of cylinder 32 drives mounting plate 33 and fastening post 34 and removes to the both sides of aluminum alloy plate 2, thereby it is fixed with aluminum alloy plate 2. By arranging the fastening columns 34 at equal intervals, the fastening plate 33 is prevented from being cut when cutting is performed.

Lifting unit installs on the displacement assembly, and cutting unit installs on lifting unit, can drive lifting unit and cutting unit through the displacement assembly and remove on 2 axis of ordinates of aluminum alloy plate material, can drive cutting unit through lifting unit and be close to and cut aluminum alloy plate material 2.

The displacement assembly comprises a first hydraulic cylinder 43, a guide rail 41 and a sliding plate 42, wherein the guide rail 41 is fixedly arranged on one side of the support frame 3, two mounting seats 422 are respectively arranged at two ends of the sliding plate 42, rollers 423 are respectively rotatably mounted in the two mounting seats 422, and the mounting seats 422 and the rollers 423 are respectively located in the guide rail 41, so that the sliding plate 42 can slide on the guide rail 41 more conveniently. Both sides of the sliding plate 42 are fixedly provided with vertical plates 421, and the vertical plates 421 are connected with the outer wall of the guide rail 41, so that the sliding plate 42 is prevented from accidentally sliding out of the guide rail 41. Two sliding frames 44 are fixedly mounted on the sliding plate 42, the first hydraulic cylinder 43 is fixedly mounted on one side of the guide rail 41, an output shaft of the first hydraulic cylinder 43 is fixedly connected with one of the sliding frames 44, and the sliding frame 44 and the sliding plate 42 can be driven to slide on the guide rail 41 by starting the first hydraulic cylinder 43.

The lifting assembly comprises a second hydraulic cylinder 51, a lifting plate 52, a first motor 54 and a lead screw 541, the second hydraulic cylinder 51 is fixedly mounted on the sliding plate 42 and located between the two sliding frames 44, the lifting plate 52 is fixedly mounted on an output shaft of the second hydraulic cylinder 51, sliding grooves 441 are formed in the two sliding frames 44, sliding blocks are fixedly arranged on two sides of the lifting plate 52 and located in the sliding grooves 441, and the lifting plate 52 is lifted along the sliding grooves 441. The lifting plate 52 is fixedly provided with a first connecting block 521 and a second connecting block 522, the screw rod 541 is installed between the first connecting block 521 and the second connecting block 522 in a transmission manner, the first motor 54 is fixedly installed on the lifting plate 52 and is located on one side of the first connecting block 521, an output shaft of the first motor 54 is fixedly connected with the screw rod 541, and the first motor 54 is started to drive the screw rod 541 to rotate. The lifting plate 52 is fixedly mounted with a load block 53 at one side of the first motor 54, and the balance between both ends of the lifting plate 52 is further maintained by mounting the load block 53.

A through groove 523 is formed between the first connecting block 521 and the second connecting block 522, the cutting assembly is installed in the through groove 523, and the length dimension of the through groove 523 is greater than the width dimension of the aluminum alloy plate 2, so that the cutting assembly can completely cut the aluminum alloy plate 2. Cutting assembly includes transmission piece 61, the connecting plate 62, installation piece 63 and second motor 64, threaded hole 611 has been seted up on the transmission piece 61, threaded hole 611 is passed through to transmission piece 61's one end and is installed on lead screw 541, the other end passes logical groove 523 and is located the lifter plate 52 below, connecting plate 62 fixed mounting is at the end of transmission piece 61, installation piece 63 is installed on connecting plate 62, mounting groove 631 has been seted up on the installation piece 63, second motor 64 fixed mounting is in mounting groove 631, the terminal fixed mounting of output shaft of second motor 64 has emery wheel 65, start through second motor 64, can drive emery wheel 65 and rotate, thereby can vertically cut aluminum alloy plate 2. The first motor 54 is started, and the transmission block 61 can be driven to move on the lead screw 541, so that the cutting position between the grinding wheel 65 and the aluminum alloy plate 2 can be adjusted, and the aluminum alloy plate with different longitudinal specifications can be cut. First baffle 66 and second baffle 67 are installed respectively to emery wheel 65 both sides, and the width dimension of first baffle 66 and second baffle 67 is less than emery wheel 65's diameter, makes emery wheel 65 when cutting aluminum alloy plate 2, and the piece that the cutting produced can be blocked by first baffle 66 and second baffle 67, avoids splashing, simultaneously, can play the effect of supporting aluminum alloy plate 2 from the top, more convenient cutting. The second baffle plate 67 is screwed with a first screw 68 and a second screw 681, and the first screw 68 and the second screw 681 penetrate through the first baffle plate 66 and are screwed at the ends thereof to the driving block 61, so that the first baffle plate 66 and the second baffle plate 67 can move together with the cutting assembly. A groove 661 is formed in the first baffle 66, and an output shaft of the second motor 64 penetrates out of the groove 661, so that the first baffle 66 can be conveniently mounted.

Seted up through-hole 621 on the connecting plate 62, seted up spacing groove 622 on the connecting plate 62, through-hole 621 and spacing groove 622 intercommunication, spacing groove 622 is 90 degrees, and fixed mounting has spliced pole 7 on the installation piece 63, and fixed mounting has stopper 71 on the spliced pole 7, and the through-hole 621 is worn out to spliced pole 7, and stopper 71 offsets with one side of spacing groove 622 to it is corresponding to guarantee that emery wheel 65 among the cutting assembly is with the longitudinal axis of aluminum alloy plate 2. The connecting column 7 is provided with an external thread at the other end of the limiting block 71, a gasket 72 is arranged on the connecting column 7, a nut 73 is screwed on the connecting column 7, and the nut 73, the gasket 72 and the connecting column 7 are matched with each other, so that the connecting column 7 and the connecting plate 62 are fixed in position, and the mounting block 63 and the connecting plate 62 are fixed in position. The nut 73 is fixedly connected with a connecting rod 731, and the nut 73 can be fastened and unscrewed conveniently through the connecting rod 731. Handle 74 is installed to the end of spliced pole 7, and the center fixed mounting of handle 74 has screw thread post 741, and handle 74 passes through screw thread post 741 spiro union at the end of spliced pole 7, has seted up anti-skidding line 742 on the handle 7, and the use of the handle 74 of being convenient for, through the installation of handle 74, when avoiding loosening nut 73, nut 73 drops.

When the longitudinal axis cutting is completed and the transverse axis cutting is needed, and the aluminum alloy plate 2 is divided into more specific different specifications, the first bolt 68 and the second bolt 681 are taken down from the first baffle plate 66 and the second baffle plate 67, the first baffle plate 66 and the second baffle plate 67 are taken down, the nut 73 is unscrewed through the connecting rod 731, the handle 74 is rotated, the limit block 71 is rotated from one side of the limit groove 622 to the other side, the mounting block 63, the second motor 64 and the grinding wheel 65 are driven to rotate for 90 degrees, the grinding wheel 65 is converted from the longitudinal cutting to the transverse cutting, the nut 73 is screwed, the rotated position is fixed, the first baffle plate 66 and the second baffle plate 67 are mounted on two sides of the grinding wheel 65, the third bolt 69 is screwed between the transmission block 61 on one side of the first baffle plate 66 and the second baffle plate 67, the positions of the first baffle plate 66 and the second baffle plate 67 are fixed, the first baffle plate 66 and the second baffle plate 67 can move along with the cutting assembly, the second cutting is completed, the aluminum alloy plate 2 is cut into different specifications as needed, the subsequent processing steps are reduced, and the utilization rate of the aluminum alloy plate 2 is improved.

In this embodiment, when the aluminum alloy cutting machine is used, an aluminum alloy plate 2 is placed on a support plate 1, then the air cylinders 32 on two sides of the support plate 1 are started, the output shafts of the air cylinders 32 drive the fastening columns 34 to abut against two sides of the aluminum alloy plate 2, so that the aluminum alloy plate 2 is fastened on the support plate 1, the first motor 54 is started according to the required longitudinal width of the aluminum alloy plate 2, the first motor 54 drives the lead screw 541 to rotate, so as to drive the cutting assembly to move along the direction of the through groove 523, after the cutting assembly moves to a required position, the first motor 54 stops working, the second hydraulic cylinder 51 is started, the second hydraulic cylinder 51 drives the lifting plate 52 to descend, so as to enable the grinding wheel 65 to contact with the longitudinal outer side of the aluminum alloy plate 2, the first baffle plate 66 and the second baffle plate 67 abut against the aluminum alloy plate 2 in the longitudinal direction, the second motor 64 is started, the second motor 64 starts to drive the grinding wheel 65 to rotate, cutting is started, the first hydraulic cylinder 43 is started, the output shaft of the first hydraulic cylinder 43 drives the lifting assembly and the cutting assembly to move on the guide rail 41, and the output shaft of the first hydraulic cylinder 43 is controlled to extend according to the required specification, so as to complete longitudinal cutting; when transverse cutting is needed, the displacement assembly, the lifting assembly and the cutting assembly are reset, the first bolt 68 and the second bolt 681 are taken down from the first baffle 66 and the second baffle 67, the first baffle 66 and the second baffle 67 are taken down, the nut 73 is unscrewed through the connecting rod 731, the handle 74 is rotated, the limiting block 71 is rotated from one side to the other side of the limiting groove 622, the mounting block 63, the second motor 64 and the grinding wheel 65 are driven to rotate for 90 degrees, the grinding wheel 65 is converted from longitudinal cutting to transverse cutting, then the nut 73 is screwed, the rotated position is fixed, the first baffle 66 and the second baffle 67 are mounted on two sides of the grinding wheel 65, the lifting plate 52 is lowered by starting the second hydraulic cylinder 51, the grinding wheel 65 is abutted against the transverse outer side face of the aluminum alloy plate 2, the second motor 64 is started, the grinding wheel 65 starts cutting, the first hydraulic cylinder 43 is started, the output group of the first hydraulic cylinder 43 is controlled to extend according to the required transverse specification, the first motor 54 is started, the grinding wheel 65 drives the grinding wheel 65 to move along the required direction, the transverse direction, the cutting switch 541 is controlled to finish the displacement of the cutting motor 541 according to the required specification, and the required transverse cutting distance of the lead screw 54, and the cutting motor 541 is controlled; according to different required specifications, the aluminum alloy plate 2 can be cut for multiple times during longitudinal cutting and transverse cutting, so that the aluminum alloy plate 2 is divided into a plurality of different specifications, subsequent processing steps are reduced, the utilization rate of the aluminum alloy plate 2 is improved, and the labor intensity of workers is reduced.

The above description of the specific embodiments of the cutting device for processing aluminum alloy plate provided by the present invention is only for assisting understanding of the method and the core concept of the present invention. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a cutting device is used in aluminum alloy plate processing which characterized in that: the aluminum alloy plate cutting device comprises two supporting plates, a plurality of rotating shafts are rotatably arranged between the two supporting plates at equal intervals, the aluminum alloy plate is placed on the plurality of rotating shafts, fastening components are arranged on two sides of the two supporting plates, a displacement mechanism is arranged on one side of one of the fastening components, the displacement mechanism comprises a displacement component, a lifting component and a cutting component, the lifting component is arranged on the displacement component, the cutting component is arranged on the lifting component, the lifting component comprises a second hydraulic cylinder, a lifting plate, a first motor and a lead screw, the second hydraulic cylinder is fixedly arranged on the displacement component, the lifting plate is fixedly arranged on an output shaft of the second hydraulic cylinder, a sliding groove is formed in the displacement component, a sliding block is fixedly arranged on the lifting plate and is positioned in the sliding groove, and a first connecting block and a second connecting block are fixedly arranged on the lifting plate, the cutting assembly comprises a transmission block, a connecting plate, an installation block and a second motor, wherein the transmission block is provided with a threaded hole, one end of the transmission block is arranged on the screw rod through the threaded hole, the other end of the transmission block passes through the through groove and is positioned below the lifting plate, the connecting plate is fixedly arranged at the tail end of the transmission block, the installation block is arranged on the connecting plate, the installation block is provided with an installation groove, and the second motor is fixedly arranged in the installation groove, the tail end of an output shaft of the second motor is fixedly provided with a grinding wheel;

a first baffle and a second baffle are respectively arranged on two sides of the grinding wheel, the width sizes of the first baffle and the second baffle are smaller than the diameter of the grinding wheel, a first screw rod and a second screw rod are screwed on the second baffle, the first screw rod and the second screw rod penetrate through the first baffle, the tail ends of the first screw rod and the second screw rod are screwed on the transmission block, a groove is formed in the first baffle, and an output shaft of the second motor penetrates through the groove;

the utility model discloses a nut, including the spliced pole, the spliced pole is equipped with the nut, the through-hole has been seted up on the connecting plate, the spacing groove has been seted up on the connecting plate, through-hole and spacing groove intercommunication, the spacing groove is 90 degrees, fixed mounting has the spliced pole on the installation piece, fixed mounting has the stopper on the spliced pole, the through-hole is worn out to the spliced pole, the stopper offsets with one side of spacing groove, the external screw thread has been seted up in the other end of stopper on the spliced pole, install the gasket on the spliced pole, the spiro union has the nut on the spliced pole, the handle is installed to the end of spliced pole, the central fixed mounting of handle has the screw thread post, the handle passes through the screw thread post spiro union at the end of spliced pole.

2. The cutting device for processing the aluminum alloy sheet according to claim 1, wherein: two fastening components's structure is the same, fastening components includes support frame, mounting panel, cylinder and mounting panel, mounting panel fixed mounting is on the support frame, cylinder fixed mounting is on the mounting panel, mounting panel fixed mounting is on the output shaft of cylinder, equidistant fixed a plurality of fastening posts that are provided with on the mounting panel.

3. The cutting device for processing the aluminum alloy plate as recited in claim 2, wherein: the displacement subassembly includes first pneumatic cylinder, guide rail and sliding plate, the guide rail is fixed to be set up in one side of support frame, the both ends of sliding plate are provided with two mount pads respectively, two all rotate in the mount pad and install the roller, mount pad and roller all are located the guide rail, the both sides of sliding plate are all fixed and are provided with the riser, the riser meets with the outer wall of guide rail, fixed mounting has two carriages on the sliding plate, first pneumatic cylinder fixed mounting is in one side of guide rail, the output shaft and one of them carriage fixed connection of first pneumatic cylinder.

4. The cutting device for processing the aluminum alloy plate as recited in claim 3, wherein: a plurality of rotating columns are fixedly arranged on the rotating shaft at equal intervals, and the aluminum alloy plates are placed on the rotating columns.

5. The cutting device for processing the aluminum alloy sheet according to claim 4, wherein: the nut is fixedly connected with a connecting rod.

6. The cutting device for processing the aluminum alloy plate as recited in claim 5, wherein: the handle is provided with anti-skid lines.

7. The cutting device for processing the aluminum alloy plate as recited in claim 6, wherein: and the lifting plate is fixedly provided with a load weight on one side of the first motor.

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