CN220533573U - Batch processing tool for polygonal thin plate workpiece side grooves - Google Patents

Abstract

The utility model relates to a batch processing tool for polygonal thin plate workpiece side grooves. The batch processing tool comprises a central shaft, guide corner strips, a baffle plate and a compression nut; the number of the guide corner strips is the same as that of the edges of the polygonal thin plate workpiece; the multiple polygonal thin plate workpieces can be stacked to form a polygonal prism, the inner wall surface of each guide corner strip is matched with the outer corner of the polygonal prism in shape, each guide corner strip corresponds to the outer corner of one polygonal prism, the guide corner strips fixed with the baffle are uniformly distributed, gaps exist between the adjacent guide corner strips, the stacked polygonal prisms can be exposed out of the gaps, and the passing of the cutter head can be ensured through the gaps; the two ends of the central shaft can be matched with a machine tool rotary table. The utility model can realize batch processing, has good support, can not cause the processing deformation of the sheet workpiece, and ensures the processing quality and the processing precision.

Description

Batch processing tool for polygonal thin plate workpiece side grooves

Technical Field

The utility model relates to the technical field of batch processing of sheet workpieces, in particular to a batch processing tool for polygonal sheet workpiece side grooves.

Background

The prior art often relates to the machining of polygonal sheet work pieces consisting of uniformly distributed polygonal sheet work piece side grooves and precision holes. When the polygonal thin plate workpiece side groove is machined, in the prior art, a single part is usually machined by scribing, aligning and scribing, and clamping and aligning are required to be repeated for a plurality of times when one part is machined after one groove is machined, so that the quality problem is easily caused by part deformation, and the machining efficiency is extremely low.

Disclosure of Invention

The purpose of the utility model is as follows: the batch processing tool for the polygonal sheet workpiece side grooves is provided, and batch processing of sheet workpieces is realized.

The technical scheme of the utility model is as follows: the batch processing tool for the polygonal sheet workpiece side grooves comprises a polygonal sheet part 1, wherein at least one side of the polygonal sheet part is provided with a position to be processed, and the polygonal sheet part is provided with a central through hole 1-2;

the batch processing tool comprises a central shaft 2, a guide corner strip 3, a baffle 4 and a compression nut 5;

the number of the guide corner strips is the same as that of the edges of the polygonal thin plate workpiece 1; the multiple polygonal thin plate workpieces can be stacked to form a polygonal prism, the inner wall surface of each guide corner strip 3 is matched with the outer corner of the polygonal prism in shape, and each guide corner strip 3 corresponds to the outer corner of one polygonal prism and is used for forming a surrounding for the polygonal prism;

the baffle plate 4 is also a polygonal thin plate, each corner of the baffle plate 4 corresponds to one guide corner strip 3 and is fixedly connected with the end part of the guide corner strip 3, each side of the baffle plate 4 is provided with an open slot 4-1, and the open slot 4-1 is used for avoiding a cutter head during processing; the guide corner strips 3 fixed with the baffle plates 4 are uniformly distributed, gaps exist between the adjacent guide corner strips 3, the gaps can expose the superposed polygonal prisms, and the gaps can ensure the cutter heads to pass through;

the center of the central shaft is provided with an optical axis 2, one end of the central shaft forms a step seat 2-1, the other end of the central shaft is provided with an external thread 2-2 to be matched with the compression nut 5, the optical axis 2-3 is used for penetrating through the baffle 4 and the stacked polygonal prism, the compression nut 5 can compress the stacked polygonal prism on the baffle 4, and two ends of the central shaft 2 can be matched with a machine tool rotary table, so that the central shaft coincides with the rotation center of the machine tool.

The using method of the scheme comprises the following steps:

during assembly, each corner of the baffle plate 4 corresponds to one guide corner strip 3 and is fixedly connected with the end part of the guide corner strip 3 to form a polygonal prism inner frame, a plurality of polygonal sheet workpieces are stacked to form a polygonal prism, the polygonal prism is placed into the polygonal prism inner frame, the optical axis 2-3 penetrates through the baffle plate 4 and the stacked polygonal prism, the pressing nut 5 presses the stacked polygonal prism on the baffle plate 4, two ends of the central axis 2 are installed and clamped in a machine tool rotating table, the central axis 2 is enabled to coincide with the rotation center of the machine tool, the machine tool rotating table is rotated, one surface of the alignment workpiece 1 is fixed, machining of one groove of the polygonal prism is achieved by stacking the polygonal sheet workpieces, the operation is repeated, and the other surface of the alignment workpiece 1 is fixed, so that machining of all the polygonal sheet workpieces is stacked to form one polygonal prism groove is achieved.

Further, the polygonal thin plate workpiece 1 is a hexagonal plate or an octagonal plate.

Furthermore, two ends of the central shaft 2 extend out of clamping ends of the machine tool, and the clamping ends are matched with a chuck or a center of the machine tool.

Further, the optical axis 2-3 in the central axis 2 can be provided with a plurality of workpieces 1.

Further, the polygonal thin plate workpieces are stacked to form a polygonal prism, the polygonal prism is placed into the polygonal prism inner frame, and the polygonal prism inner frame is matched with the edges of the two vertex angles of the workpieces 1, so that all the workpiece orientations are consistent.

Further, the tool is matched with a processing platform of the milling machine.

The utility model has the beneficial effects that: compared with the prior art, the technical scheme has the advantages that a plurality of polygonal thin plate workpieces can be assembled on the central shaft at one time, so that the batch production of the polygonal thin plate workpieces is realized; the workpiece, the central shaft and the polygonal thin plate workpieces are overlapped into a polygonal prism to be placed into the inner frame of the polygonal prism for orientation, so that the workpieces 1 are ensured not to move in series during processing. The two ends of the central shaft are arranged in the machine tool rotary table to be clamped, so that the central shaft coincides with the rotation center of the machine tool, the machine tool rotary table is rotated, one surface of the alignment workpiece is fixed, the processing of a groove formed by stacking a plurality of polygonal thin plate workpieces into a polygonal prism is realized, and the processing of the groove formed by stacking all the plurality of polygonal thin plate workpieces into the polygonal prism is realized by repeating the operation. The utility model can realize batch processing, has good support, can not cause the processing deformation of the sheet workpiece, and ensures the processing quality and the processing precision.

Drawings

Fig. 1 is: the structure of the utility model is schematically shown;

fig. 2 is: the structure of the utility model is schematically shown;

fig. 3 is: schematic structural diagram of polygonal sheet workpiece;

fig. 4 is: a schematic structural view of the central shaft;

fig. 5 is: a structural schematic diagram of the guide corner strip;

fig. 6 is: a structural schematic diagram of the baffle;

fig. 7 is: a structural schematic diagram of the compression nut;

in the figure: 1 is a polygonal sheet workpiece, 2 is a central shaft, 3 is a guide corner strip, 4 is a baffle, 5 is a compression nut, 1-1 is a groove, 1-2 is a central through hole, 2-1 is a step seat, 2-2 is an external thread, 2-3 is an optical axis, 3-1 is an inner wall surface, 4-1 is an open groove, and 4-2 is a through hole.

Detailed Description

The disclosed examples will be described more fully with reference to the accompanying drawings, in which some, but not all of the disclosed examples are shown. Indeed, many different examples may be described and should not be construed as limited to the examples set forth herein. Rather, these examples are described so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The purpose of the utility model is as follows: the batch processing tool for the polygonal sheet workpiece side grooves is provided, and batch processing of sheet workpieces is realized.

The technical scheme of the utility model is as follows: a batch processing tool for side grooves of polygonal sheet workpieces, wherein at least one side of a polygonal sheet part 1 is provided with a position to be processed, and the polygonal sheet part is provided with a central through hole 1-2;

the batch processing tool comprises a central shaft 2, a guide corner strip 3, a baffle 4 and a compression nut 5;

the number of the guide corner strips is the same as that of the edges of the polygonal thin plate workpiece 1; the multiple polygonal thin plate workpieces can be stacked to form a polygonal prism, the inner wall surface of each guide corner strip 3 is matched with the outer corner of the polygonal prism in shape, and each guide corner strip 3 corresponds to the outer corner of one polygonal prism and is used for forming a surrounding for the polygonal prism;

the baffle plate 4 is also a polygonal thin plate, each corner of the baffle plate 4 corresponds to one guide corner strip 3 and is fixedly connected with the end part of the guide corner strip 3, each side of the baffle plate 4 is provided with an open slot 4-1, and the open slot 4-1 is used for avoiding a cutter head during processing; the guide corner strips 3 fixed with the baffle plates 4 are uniformly distributed, gaps exist between the adjacent guide corner strips 3, the gaps can expose the superposed polygonal prisms, and the gaps can ensure the cutter heads to pass through;

the center of the central shaft is provided with an optical axis 2, one end of the central shaft forms a step seat 2-1, the other end of the central shaft is provided with an external thread 2-2 to be matched with the compression nut 5, the optical axis 2-3 is used for penetrating through the baffle 4 and the stacked polygonal prism, the compression nut 5 can compress the stacked polygonal prism on the baffle 4, and two ends of the central shaft 2 can be matched with a machine tool rotary table, so that the central shaft coincides with the rotation center of the machine tool.

The polygonal sheet workpiece 1 is a hexagonal sheet.

Two ends of the central shaft 2 extend out of clamping ends of the machine tool, and the clamping ends are matched with a chuck or a center of the machine tool.

The optical axis 2-3 of the central axis 2 may be provided with a plurality of workpieces 1.

The polygonal thin plate workpieces are stacked to form a polygonal prism, the polygonal prism is placed into an inner frame of the polygonal prism, and the polygonal prism is matched with edges of two vertex angles of the workpieces 1, so that all the workpiece orientations are consistent.

The tool is matched with a processing platform of the milling machine.

Different examples of the systems, devices, and methods disclosed herein include various components, features, and functions. It should be understood that the various examples of the systems, devices, and methods disclosed herein may include any of the components, features, and functions of any of the other examples of the systems, devices, and methods disclosed herein in any combination or any sub-combination, and all such possibilities are intended to be within the scope of the present utility model.

The description of the different advantageous arrangements has been presented for purposes of illustration and description, but is not intended to be exhaustive or limited to the examples in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. Additionally, the different advantageous examples may describe different advantages compared to other advantageous examples. The example or examples selected are chosen and described in order to best explain the principles of the examples, the practical application, and to enable others of ordinary skill in the art to understand the disclosure for various examples with various modifications as are suited to the particular use contemplated.

Claims (6)

1. A batch processing frock of polygon sheet workpiece limit slot, its characterized in that: at least one side of the polygonal sheet workpiece (1) is provided with a position to be processed, and the polygonal sheet workpiece is provided with a central through hole (1-2);

the batch processing tool comprises a central shaft (2), guide corner strips (3), baffles (4) and compression nuts (5);

the number of the guide corner strips is the same as that of the edges of the polygonal thin plate workpiece (1); the multiple polygonal thin plate workpieces can be stacked to form a polygonal prism, the inner wall surface of each guide corner strip (3) is matched with the outer corner of the polygonal prism in shape, and each guide corner strip (3) corresponds to the outer corner of one polygonal prism and is used for forming a surrounding for the polygonal prism;

the baffle plate (4) is also a polygonal thin plate, each corner of the baffle plate (4) corresponds to one guide corner strip (3) and is fixedly connected with the end part of the guide corner strip (3), each side of the baffle plate (4) is provided with an open slot (4-1), and the open slot (4-1) is used for avoiding a cutter head during processing; the guide corner strips (3) fixed with the baffle plates (4) are uniformly distributed, gaps exist between the adjacent guide corner strips (3), the gaps can expose stacked polygonal prisms, and the gaps can ensure the passing of the cutter heads;

the center of the central shaft is provided with an optical axis (2-3), one end of the central shaft forms a step seat (2-1), the other end of the central shaft is provided with an external thread (2-2) to be matched with the compression nut (5), the optical axis (2-3) is used for penetrating through the baffle plate (4) and the stacked polygonal prism, the compression nut (5) can compress the stacked polygonal prism on the baffle plate (4), and two ends of the central shaft (2) can be matched with a machine tool rotating table, so that the central shaft coincides with the rotation center of the machine tool.

2. The batch processing tool for polygonal sheet workpiece side grooves according to claim 1, wherein: the polygonal thin plate workpiece (1) is a hexagonal plate or an octagonal plate.

3. The batch processing tool for polygonal sheet workpiece side grooves according to claim 1, wherein: two ends of the central shaft (2) extend out of clamping ends of the machine tool, and the clamping ends are matched with a chuck or a center of the machine tool.

4. The batch processing tool for polygonal sheet workpiece side grooves according to claim 1, wherein: the optical axis (2-3) of the central shaft (2) can be equipped with a plurality of workpieces (1).

5. The batch processing tool for polygonal sheet workpiece side grooves according to claim 1, wherein: the polygonal thin plate workpieces are stacked into a polygonal prism which is placed into an inner frame of the polygonal prism and matched with edges of two vertex angles of the workpieces (1), so that all the workpiece orientations are consistent.

6. The batch processing tool for polygonal sheet workpiece side grooves according to claim 1, wherein: the tool is matched with a processing platform of the milling machine.