CN116372237A - Double-sided milling cutter structure for processing aluminum profile mold and processing and forming method thereof - Google Patents

Abstract

The invention relates to the technical field of machining tools, in particular to a double-sided milling cutter structure for aluminum profile die machining and a machining forming method thereof, comprising a cutter seat, wherein a cutter fixing seat is arranged on the peripheral side surface of the cutter seat, and a cutter is arranged on the cutter fixing seat; the medial surface in cutter groove has the buffer board through buffer spring connection, and first bolt hole has been seted up to one side in cutter groove, and the inside of first bolt hole has horizontal positioning bolt through threaded connection, and the other end of horizontal positioning bolt is provided with positioning nut. According to the invention, after the cutter is placed in the cutter groove, the cutter is fixed through the transverse positioning bolt, the disassembly and the assembly are convenient, the buffer plate and the buffer spring are arranged in the cutter groove, and when the cutter is required to be disassembled and replaced, the cutter is automatically ejected out under the action of the buffer spring only by rotating the transverse positioning bolt anticlockwise, so that the assembly and disassembly efficiency is further accelerated.

Description

Double-sided milling cutter structure for processing aluminum profile mold and processing and forming method thereof

Technical Field

The invention relates to a double-sided milling cutter structure and a machining and forming method thereof, in particular to a double-sided milling cutter structure for aluminum profile die machining and a machining and forming method thereof, and belongs to the technical field of machining cutters.

Background

When the surface of the aluminum profile die is machined and milled, a double-sided milling cutter is needed, the two sides of the workpiece are milled respectively in a workpiece fixing state when the traditional surface milling cutter is milled, after one side milling is finished, the workpiece is required to be turned over to be fixed again, and the other side is required to be milled after the tool is set, so that the milling efficiency is low, and large machining errors are easy to generate.

The milling amount is large when the surface of the aluminum profile die is processed, once the cutter is worn seriously, the cutter needs to be replaced, in order to fix the cutter, the traditional method is to penetrate the cutter through bolts so as to achieve the purpose of fixing the cutter, so that a great amount of time is wasted once the cutter is replaced, the efficiency of installation and disassembly is greatly reduced, and the milling efficiency and quality are seriously reduced.

Therefore, there is a need for an improvement in the structure of a double-sided milling cutter for processing an aluminum profile mold, so as to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a double-sided milling cutter structure for processing an aluminum profile die and a processing and molding method thereof, wherein after a cutter is placed in a cutter groove, the cutter is fixed through a transverse positioning bolt, the disassembly and the assembly are relatively convenient, a buffer plate and a buffer spring are arranged in the cutter groove, when the cutter is required to be disassembled and replaced, the cutter is automatically ejected under the action of the buffer spring only by rotating the transverse positioning bolt anticlockwise, and the assembly and disassembly efficiency is further accelerated.

In order to achieve the above purpose, the main technical scheme adopted by the invention comprises the following steps:

the double-sided milling cutter structure for processing the aluminum profile mold comprises a cutter seat, wherein a plurality of cutter fixing seats which are uniformly distributed are arranged on the peripheral side surface of the cutter seat, cutter grooves are formed in the cutter fixing seats, and cutters are arranged in the cutter grooves;

the inner side surface of the cutter groove is connected with a buffer plate through a buffer spring, the buffer plate is propped against one side surface of the cutter, and the cutting end of the cutter protrudes out of the cutter seat and extends to the outer side surface of the cutter seat;

a first bolt hole is formed in one side of the cutter groove, a transverse positioning bolt is connected in the first bolt hole through threads, one end of the transverse positioning bolt penetrates through the first bolt hole and abuts against one side face of the cutter, a positioning nut is fixedly arranged at the other end of the transverse positioning bolt, and a hexagonal positioning hole is formed in the outer side face of the positioning nut;

the milling amount is large when the surface of the aluminum profile die is processed, once the cutter is worn seriously, the cutter needs to be replaced, in order to fix the cutter, the traditional method is to penetrate the cutter through bolts so as to achieve the purpose of fixing the cutter, so that a great amount of time is wasted when the cutter is replaced once, the efficiency of mounting and dismounting is greatly reduced, and the milling efficiency and quality are seriously reduced;

the plurality of cutters are arranged in the cutter fixing seat on the cutter seat in a central mode, so that the cutting range can be greatly improved, the plurality of cutters can be used for cutting simultaneously, the cutting speed is increased, after the cutters are placed in the cutter groove, the cutters are fixed through the transverse positioning bolts on the first bolt holes, the cutter fixing seat is simple in structure, the cutters can be fixed without penetrating through the cutters, the disassembly and the installation are convenient, the installation efficiency is greatly improved, and therefore the milling efficiency can be improved;

meanwhile, the buffer plate and the buffer spring are arranged in the cutter groove, the buffer plate is extruded by the cutter in the installation process, the length of the cutter can be prolonged according to the requirement in the process of pressing the cutter, and the use range and the flexibility of the cutter can be further improved;

when the cutter needs to be removed and replaced, only the transverse positioning bolt is required to rotate anticlockwise, the cutter is automatically ejected out under the action of the buffer spring, and the installation and removal efficiency is further improved.

Preferably, the cutter slides and sets up the inside in cutter groove, the lateral surface of cutter with the lateral surface of cutter seat is on the coplanar, and the direct joint of cutter is in the inside in cutter groove, can fix a position and fix the cutter through the cutter fixing base moreover, promotes the stability of cutter, simple structure simultaneously, simple to operate promotes the efficiency of installation.

Preferably, the port department of the side of cutter groove is provided with the horizontal fixed block of cutter, the horizontal fixed block of cutter pass through welded mode with the lateral surface fixed connection of cutter seat, set up the second bolt hole on the horizontal fixed block of cutter, the inside of second bolt hole has vertical positioning bolt through threaded connection, vertical positioning bolt runs through the second bolt hole and with a side of cutter offsets, the horizontal fixed block of cutter passes through welded mode and cutter seat fixed connection, promotes the structural strength of the horizontal fixed block of cutter, and then further promotes the stability of cutter, carries out horizontal fixed through horizontal positioning bolt to the cutter at fixed in-process, carries out fore-and-aft fixed to the cutter through vertical positioning bolt, promotes the stability of cutter by a wide margin.

Preferably, one side of cutter groove side port department is fixed and is provided with a plurality of evenly distributed's location marking, the location marking with the cutter corresponds, and the location marking is corresponding with the cutter, and at the in-process of installing the cutter, can prolong the length of cutter as required, reaches the purpose of cutting, promotes scope and the flexibility of use, in order to keep all cutters at same level in the in-process of moving the cutter, can be through the location marking of cutter fixing base lateral surface as the benchmark, simple structure ensures the cutter at same height, promotes the precision of milling.

Preferably, the lower side of cutter seat has seted up the kerve, set up a plurality of evenly distributed's spliced pole pilot hole on the kerve, the inside of spliced pole pilot hole is provided with connecting bolt, connecting bolt runs through the spliced pole pilot hole is connected with the cutter seat connecting piece, the cutter seat connecting piece sets up and keeps away from one side of kerve, be connected with the connecting cylinder on the cutter seat connecting piece, set up the mounting groove of symmetric distribution on the connecting cylinder, two the constant head tank has been seted up between the mounting groove, the kerve has been seted up to the bottom side of cutter seat, runs through spliced pole pilot hole and cutter seat connecting piece fixed connection through connecting bolt, then passes through mounting groove and constant head tank and lathe fixed connection with the connecting cylinder on the cutter seat connecting piece, and simple structure promotes structural strength promptly, and the flexibility of use is convenient for again, the inside fixed of connecting cylinder is provided with anti-skidding line, promotes the structural strength of cutter seat and lathe.

A processing and forming method of a double-sided milling cutter structure for processing an aluminum profile die comprises the following steps:

step one: cutting and forming the cutter seat by using a milling machine, and cutting a plurality of cutter fixing seats on the periphery of the cutter seat;

step two: cutting a cutter groove on the cutter fixing seat, and drilling a first bolt hole communicated with the cutter groove on the cutter fixing seat through a drilling machine;

step three: cutting the cutter by using a milling machine, and processing the cutter into a required shape and size;

step four: inserting a cutter into the cutter groove, projecting the cutting end of the cutter out of the cutter groove, fixing the cutter through a transverse positioning bolt, and fixing the cutter into the cutter groove;

step five: fixing the cutter again by fastening a longitudinal positioning bolt on the cutter transverse fixing block;

step six: finally, the cutter seat is fixed on the lathe through the connecting cylinder.

In the fourth step, in the process of installing the cutter, the cutter is extruded into the cutter groove, and then the transverse positioning bolt and the longitudinal positioning bolt are respectively fixed;

and meanwhile, the cutter is positioned through a positioning marking line on one side of the cutter groove so as to prolong the protruding length of the cutter.

The invention has at least the following beneficial effects:

1. after the cutter is placed in the cutter groove, the cutter is fixed through the transverse positioning bolt, the disassembly and the assembly are convenient, the buffer plate and the buffer spring are arranged in the cutter groove, when the cutter is required to be disassembled and replaced, the cutter is automatically ejected out under the action of the buffer spring only by rotating the transverse positioning bolt anticlockwise, and the assembly and disassembly efficiency is further improved;

2. the buffer plate and the buffer spring are arranged in the cutter groove, the buffer plate is extruded by the cutter in the installation process, the length of the cutter can be prolonged according to the requirement in the process of pressing the cutter, and the use range and the flexibility of the cutter can be further improved;

3. the positioning marking corresponds to the cutter, the length of the cutter can be prolonged according to the requirement in the process of installing the cutter, the purpose of cutting is achieved, the use range and flexibility are improved, in order to keep all the cutters at the same horizontal height in the process of moving the cutter, the positioning marking on the outer side surface of the cutter fixing seat can be used as a reference, the structure is simple, the cutters are ensured to be at the same height, and the milling precision is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

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

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a perspective view III of the present invention;

FIG. 4 is a perspective view of a tool holder of the present invention;

FIG. 5 is a front view of the present invention;

FIG. 6 is a top view of the present invention;

FIG. 7 is an enlarged view of B in FIG. 3;

fig. 8 is an enlarged view B of fig. 3.

In the figure, a 1-cutter seat, a 101-bottom groove, a 102-connecting column assembly hole, a 2-cutter fixing seat, a 201-cutter groove, a 202-first bolt hole, a 3-cutter transverse fixing block, a 301-second bolt hole, a 4-transverse positioning bolt, a 401-positioning nut, a 402-hexagonal positioning hole, a 5-longitudinal positioning bolt, a 6-cutter, a 7-cutter seat connecting piece, a 701-connecting cylinder, a 702-mounting groove, a 703-positioning groove, an 8-buffer plate, a 9-buffer spring, a 10-positioning marking line and a 11-connecting bolt.

Detailed Description

The embodiments of the present application will be described in detail below with reference to the accompanying drawings and examples, so that the implementation process of how the technical means are applied to solve the technical problems and achieve the technical effects of the present application can be fully understood and implemented accordingly.

As shown in fig. 1-8, the double-sided milling cutter structure for processing an aluminum profile mold provided by the embodiment comprises a cutter seat 1, wherein a plurality of cutter fixing seats 2 which are uniformly distributed are arranged on the peripheral side surface of the cutter seat 1, cutter grooves 201 are formed in the cutter fixing seats 2, cutters 6 are arranged in the cutter grooves 201, the inner side surfaces of the cutter grooves 201 are connected with buffer plates 8 through buffer springs 9, the buffer plates 8 are propped against one side surface of the cutters 6, and cutting ends of the cutters 6 protrude out of the cutter seat 1 and extend to the outer side surface of the cutter seat 1;

a first bolt hole 202 is formed in one side of the cutter groove 201, a transverse positioning bolt 4 is connected in the first bolt hole 202 through threads, one end of the transverse positioning bolt 4 penetrates through the first bolt hole 202 and abuts against one side surface of the cutter 6, a positioning nut 401 is fixedly arranged at the other end of the transverse positioning bolt 4, and a hexagonal positioning hole 402 is formed in the outer side surface of the positioning nut 401;

the milling amount is large when the surface of the aluminum profile die is processed, once the cutter is worn seriously, the cutter needs to be replaced, in order to fix the cutter, the traditional method is to penetrate the cutter through bolts so as to achieve the purpose of fixing the cutter, so that a great amount of time is wasted when the cutter is replaced once, the efficiency of mounting and dismounting is greatly reduced, and the milling efficiency and quality are seriously reduced;

the plurality of cutter fixing seats 2 which are distributed on the cutter seat 1 in the center are arranged in the cutter fixing seats, so that the cutting range can be greatly improved, a plurality of cutters 6 can be simultaneously cut, the cutting speed is increased, after the cutters 6 are placed in the cutter groove 201, the cutters 6 are fixed through the transverse positioning bolts 4 on the first bolt holes 202, the cutter fixing seat is simple in structure, the cutters 6 can be fixed without penetrating through the cutters 6, the disassembly and the installation are relatively convenient, the installation efficiency is greatly improved, and the milling efficiency can be improved;

meanwhile, the buffer plate 8 and the buffer spring 9 are arranged in the cutter groove 201, the buffer plate 8 is extruded through the cutter 6 in the installation process, the length of the cutter 6 can be prolonged according to the requirement in the process of pressing the cutter 6, and the use range and the flexibility of the cutter 6 can be further improved;

when the cutter 6 is required to be removed and replaced, only the transverse positioning bolt 4 is required to be rotated anticlockwise, the cutter 6 is automatically ejected out under the action of the buffer spring 9, and the installation and removal efficiency is further improved;

further, as shown in fig. 1, 2 and 3, the cutter 6 is slidably disposed in the cutter groove 201, the outer side surface of the cutter 6 is on the same plane with the outer side surface of the cutter seat 1, the cutter 6 is directly clamped in the cutter groove 201, and the cutter 6 can be positioned and fixed by the cutter fixing seat 2, so that the stability of the cutter 6 is improved, and meanwhile, the structure is simple, the installation is convenient, and the installation efficiency is improved;

in addition, the port department of the side of cutter groove 201 is provided with the horizontal fixed block 3 of cutter, the horizontal fixed block 3 of cutter passes through welded mode and cutter seat 1's lateral surface fixed connection, second bolt hole 301 has been seted up on the horizontal fixed block 3 of cutter, the inside of second bolt hole 301 is through threaded connection there being vertical positioning bolt 5, vertical positioning bolt 5 runs through second bolt hole 301 and offsets with a side of cutter 6, the horizontal fixed block 3 of cutter passes through welded mode and cutter seat 1 fixed connection, promote the structural strength of the horizontal fixed block 3 of cutter, and then further promote the stability of cutter 6, carry out horizontal fixed to cutter 6 through horizontal positioning bolt 4 at fixed in-process, carry out vertical fixed to cutter 6 through vertical positioning bolt 5, promote the stability of cutter 6 by a wide margin.

Further, as shown in fig. 4 and 8, a plurality of uniformly distributed positioning marks 10 are fixedly arranged on one side of the side port of the cutter groove 201, the positioning marks 10 correspond to the cutters 6, the length of the cutters 6 can be prolonged as required in the process of installing the cutters 6, the purpose of cutting is achieved, the use range and the flexibility are improved, in order to keep all the cutters 6 at the same horizontal height in the process of moving the cutters 6, the positioning marks 10 on the outer side surface of the cutter fixing seat 2 can be used as a reference, the structure is simple, the cutters 6 are ensured to be at the same height, and the milling precision is improved.

Still further, as shown in fig. 3 and 4, the lower side of the tool holder 1 is provided with a bottom groove 101, a plurality of evenly distributed connecting column assembly holes 102 are formed in the bottom groove 101, connecting bolts 11 are arranged in the connecting column assembly holes 102, the connecting bolts 11 penetrate through the connecting column assembly holes 102 and are connected with the tool holder connecting pieces 7, the tool holder connecting pieces 7 are arranged on one side far away from the bottom groove 101, a connecting cylinder 701 is connected to the tool holder connecting pieces 7, symmetrically distributed mounting grooves 702 are formed in the connecting cylinder 701, a positioning groove 703 is formed between the two mounting grooves 702, anti-skidding threads are fixedly arranged in the connecting cylinder 701, the structural strength of the tool holder 1 and a lathe is improved, the bottom groove 101 is formed in the bottom side of the tool holder 1, the connecting cylinders on the tool holder connecting pieces 7 are fixedly connected with the lathe through the connecting bolts 11 penetrating through the connecting column assembly holes 102, and then the connecting cylinders 701 are fixedly connected with the positioning groove 703 through the mounting grooves 701, and the mounting grooves 703 are simple in structure, the mounting structure is convenient, and the flexibility of use is improved.

As shown in fig. 1 to 8, the method for forming the double-sided milling cutter structure for processing the aluminum profile mold according to the embodiment includes the following steps:

step one: cutting and forming the tool seat 1 by using a milling machine, and cutting a plurality of tool fixing seats 2 on the periphery of the tool seat 1;

step two: cutting a cutter groove 201 on the cutter fixing seat 2, and drilling a first bolt hole 202 communicated with the cutter groove 201 on the cutter fixing seat 2 through a drilling machine;

step three: cutting the cutter 6 by a milling machine, and processing the cutter into a required shape and size;

step four: inserting the cutter 6 into the cutter groove 201, projecting the cutting end of the cutter 6 out of the cutter groove 201, fixing the cutter 6 through the transverse positioning bolt 4, and fixing the cutter 6 into the cutter groove 201;

and simultaneously, the cutter 6 is positioned by the positioning mark line 10 on one side of the cutter groove 201 so as to prolong the protruding length of the cutter 6.

Step five: the cutter 6 is fixed again by fastening the longitudinal positioning bolts 5 on the cutter transverse fixing blocks 3;

step six: finally, the tool holder 1 is fixed on the lathe through the connecting cylinder 701.

The method for forming a double-sided milling cutter structure for aluminum profile mold processing according to claim 1, wherein in step four, during the process of installing the cutter 6, the cutter 6 is pressed toward the inside of the cutter groove 201, and then the lateral positioning bolts 4 and the longitudinal positioning bolts 5 are respectively fixed.

Certain terms are used throughout the description and claims to refer to particular components. Those of skill in the art will appreciate that a hardware manufacturer may refer to the same component by different names. The description and claims do not take the form of an element differentiated by name, but rather by functionality. As used throughout the specification and claims, the word "comprise" is an open-ended term, and thus should be interpreted to mean "include, but not limited to. By "substantially" is meant that within an acceptable error range, a person skilled in the art can solve the technical problem within a certain error range, substantially achieving the technical effect.

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

While the foregoing description illustrates and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as limited to other embodiments, and is capable of numerous other combinations, modifications and environments and is capable of changes or modifications within the scope of the inventive concept as described herein, either as a result of the foregoing teachings or as a result of the knowledge or technology in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (10)

1. The double-sided milling cutter structure for processing the aluminum profile die comprises a cutter seat (1) and is characterized in that a plurality of cutter fixing seats (2) which are uniformly distributed are arranged on the peripheral side face of the cutter seat (1), cutter grooves (201) are formed in the cutter fixing seats (2), and cutters (6) are arranged in the cutter grooves (201);

the inner side surface of the cutter groove (201) is connected with a buffer plate (8) through a buffer spring (9), the buffer plate (8) is propped against one side surface of the cutter (6), and the cutting end of the cutter (6) protrudes out of the cutter seat (1) and extends to the outer side surface of the cutter seat (1);

a first bolt hole (202) is formed in one side of the cutter groove (201), a transverse positioning bolt (4) is connected to the first bolt hole (202) through threads, one end of the transverse positioning bolt (4) penetrates through the first bolt hole (202) and abuts against one side face of the cutter (6), a positioning nut (401) is fixedly arranged at the other end of the transverse positioning bolt (4), and a hexagonal positioning hole (402) is formed in the outer side face of the positioning nut (401).

2. The double-sided milling cutter structure for processing an aluminum profile mold according to claim 1, wherein: the cutter (6) is slidably arranged in the cutter groove (201), and the outer side surface of the cutter (6) and the outer side surface of the cutter seat (1) are on the same plane.

3. The double-sided milling cutter structure for processing an aluminum profile mold according to claim 1, wherein: the port of the side face of the cutter groove (201) is provided with a cutter transverse fixing block (3), and the cutter transverse fixing block (3) is fixedly connected with the outer side face of the cutter seat (1) in a welding mode.

4. The double-sided milling cutter structure for processing an aluminum profile mold according to claim 1, wherein: the cutter transverse fixing block (3) is provided with a second bolt hole (301), the inside of the second bolt hole (301) is connected with a longitudinal positioning bolt (5) through threads, and the longitudinal positioning bolt (5) penetrates through the second bolt hole (301) and abuts against one side face of the cutter (6).

5. The double-sided milling cutter structure for processing an aluminum profile mold according to claim 1, wherein: one side of the side port of the cutter groove (201) is fixedly provided with a plurality of uniformly distributed positioning marked lines (10), and the positioning marked lines (10) correspond to the cutters (6).

6. The double-sided milling cutter structure for processing an aluminum profile mold according to claim 1, wherein: the lower side of cutter seat (1) has seted up kerve (101), set up a plurality of evenly distributed spliced pole pilot hole (102) on kerve (101), the inside of spliced pole pilot hole (102) is provided with connecting bolt (11), connecting bolt (11) run through spliced pole pilot hole (102) and be connected with cutter seat connecting piece (7).

7. The double-sided milling cutter structure for processing the aluminum profile mold according to claim 6, wherein: the tool holder connecting piece (7) is arranged on one side far away from the bottom groove (101), a connecting cylinder (701) is connected to the tool holder connecting piece (7), symmetrically distributed mounting grooves (702) are formed in the connecting cylinder (701), and positioning grooves (703) are formed between the two mounting grooves (702).

8. The double-sided milling cutter structure for processing the aluminum profile mold according to claim 7, wherein: anti-skid patterns are fixedly arranged in the connecting cylinder (701).

9. A processing and forming method of a double-sided milling cutter structure for processing an aluminum profile die is characterized by comprising the following steps of: the method comprises the following steps:

step one: cutting and forming the tool seat (1) by using a milling machine, and cutting a plurality of tool fixing seats (2) on the periphery of the tool seat (1);

step two: cutting a cutter groove (201) on a cutter fixing seat (2), and drilling a first bolt hole (202) communicated with the cutter groove (201) on the cutter fixing seat (2) through a drilling machine;

step three: cutting the cutter (6) by a milling machine, and processing the cutter into a required shape and size;

step four: inserting a cutter (6) into the cutter groove (201), projecting the cutting end of the cutter (6) out of the cutter groove (201), fixing the cutter (6) through a transverse positioning bolt (4), and fixing the cutter (6) into the cutter groove (201);

step five: fixing the cutter (6) again by fastening a longitudinal positioning bolt (5) on the cutter transverse fixing block (3);

step six: finally, the cutter seat (1) is fixed on the lathe through the connecting cylinder (701).

10. The method for forming the double-sided milling cutter structure for processing the aluminum profile die according to claim 9, wherein the method comprises the following steps: in the fourth step, during the process of installing the cutter (6), the cutter (6) is extruded into the cutter groove (201), and then the transverse positioning bolt (4) and the longitudinal positioning bolt (5) are respectively fixed;

and meanwhile, the cutter (6) is positioned through the positioning marking line (10) at one side of the cutter groove (201) so as to prolong the protruding length of the cutter (6).

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