CN215509287U - Cutter set for one-time continuous chamfering of square body - Google Patents

Abstract

The utility model discloses a one-time continuous chamfering cutter set for a square body, which is characterized in that: adopt 2 chamfer processing cutters to constitute the one-time for continuous chamfer processing cutter group that each limit of square physique carries out the chamfer, 2 chamfer processing cutters form the cutter body spatial distribution structure of two chamfer cutters about the common formation in space, about 2 chamfer cutters distribute respectively and set up in the square body left and right sides position department of waiting one-time continuous chamfer processing. The chamfering machine has the advantages that the chamfering processing can be carried out on 12 edges or multiple edges of square products or parts at one time, the low efficiency caused by the fact that chamfering processing is carried out after the products are clamped for many times is avoided, the production processing efficiency is improved, the chamfering machine processing technology is exerted to a greater extent, the chamfering processing is time-saving and labor-saving, the chamfering processing is easy and fast, the production processing working hour cost is effectively reduced, and the product competitiveness is improved.

Description

Cutter set for one-time continuous chamfering of square body

Technical Field

The present invention relates to a chamfering machine, and more particularly to a disposable continuous chamfering tool set for a square body used for chamfering 12 or more sides of a square body member or a workpiece product.

Background

Generally, in the machining process of some machined products or parts, the requirement of chamfering machining treatment on 12 edges or multiple edges of a square body is required so as to better meet the requirements of product service performance and/or use safety and the like; the existing mode of carrying out chamfering machining on 12 edges of a square body mostly adopts manual work to carry out gradual chamfering machining treatment on each edge, and the problems that during the chamfering machining treatment, after one edge is chamfered each time, the workpiece product or part needs to be turned over and then the other edge needs to be chamfered, the machining operation wastes time and labor, the machining efficiency is low, the consistency of the product machining quality control is poor and the like exist; particularly, when a large-weight large-size large-specification square body part needs to be subjected to chamfering machining treatment on 12 edges of the square body part, a single square body part to be subjected to chamfering treatment or a workpiece product usually has a weight of several kilograms to dozens of kilograms, and the turning action performed by manpower each time is performed is more time-consuming and labor-consuming, particularly the turning action when the square body is turned is time-consuming and labor-consuming, the machining efficiency is low and the like, so that potential safety hazard problems such as accidental injury and the like can be caused by carelessness; although some tools or equipment specially used for chamfering processing are provided, the tools or equipment can improve the chamfering processing production efficiency to a large extent, but also have the defects that the 12 sides or a plurality of sides of the square part can not be processed by one-time continuous chamfering machine, the chamfering processing operation needs to be continued after multiple clamping operations, and the like, the processing efficiency is not perfect and efficient enough, the production processing efficiency is not improved to the maximum extent, the effectiveness of the chamfering machine processing technology is not exerted to a great extent, the production labor cost is difficult to effectively improve, and the input cost of chamfering production processing personnel or processing equipment is high.

An authorized patent number ZL202021707818.4 with the publication date of 2020, 12 and 29 discloses a laser chamfering machine, which comprises a tool platform; the rear side of the tooling platform is connected with the equipment assembly; the right side of the equipment assembly is fixedly connected with a master control cabinet; the main control cabinet is connected with the movable operating platform through a data control line; the main control cabinet is fixedly provided with a touch screen; an X shaft is movably arranged at the top of the rear side of the equipment assembly; an auxiliary tool is fixedly arranged at the front end of the right side of the tool platform; a positioning cylinder is fixedly arranged at the front end of the equipment assembly; and a ball tray is fixedly arranged at the front end of the top of the tooling platform. Although this laser chamfering machine drives X axle, Y axle, Z axle and C axle through total control cabinet control servo motor and carries out the position removal, realizes the high cutting of laser fixed length, can effectively avoid in traditional laser cutting technique common such as cutting fender trouble, perforation splash, the scheduling problem that explodes, has improved the stability of equipment operation greatly, has reduced the defective rate of product. However, the chamfering machine still has the problems that the 12 edges of the square part cannot be processed by the one-time continuous chamfering machine at one time, the chamfering operation needs to be continued after long clamping, and the like, and the machining efficiency is not perfect and efficient enough, the production and machining efficiency is not improved to the maximum extent, the improvement effectiveness of the chamfering machining technology is not exerted to a greater extent, the production labor cost is difficult to effectively improve, and the input cost of chamfering production and machining personnel or machining equipment is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a processing method for chamfering 12 edges or a plurality of edges of square products or parts, which can solve the problems that the existing chamfering processing of 12 edges of square products or parts can not process and finish the 12 edges or a plurality of edges of square parts at one time by a continuous chamfering machine, the processing method needs to clamp and turn over for a plurality of times and then continue the chamfering processing operation of the corresponding edges, the processing efficiency is not perfect and efficient enough, the production processing efficiency can not be improved to the maximum extent, the improvement effectiveness of the chamfering processing technology can not be exerted to a greater extent, the production labor cost is difficult to effectively reduce, the input cost of chamfering production processing personnel or processing equipment is high, the potential safety hazard of large production processing exists, and the like, the machining technology of the chamfering machine is exerted to a greater extent, the production and machining working hour cost is effectively reduced, and the product competitiveness of the cutter set for the one-time continuous chamfering of the square body is improved.

The utility model adopts the following specific technical scheme for solving the technical problems: the utility model provides a disposable for chamfer knife tackle in succession of square body which characterized in that: adopt 2 chamfer processing cutters to constitute the one-time for continuous chamfer processing cutter group that each limit of square physique carries out the chamfer, 2 chamfer processing cutters form the cutter body spatial distribution structure of two chamfer cutters about the common formation in space, about 2 chamfer cutters distribute respectively and set up in the square body left and right sides position department of waiting one-time continuous chamfer processing. Adopt 2 chamfer processing cutters to constitute the one-time for the continuous chamfer processing cutter assembly that each limit of square physique carries out the chamfer, can carry out one-time for the continuous chamfer processing treatment on 12 limits or many limits of square physique product or spare part, avoid needing to carry out chamfer processing again after the clamping product many times and cause inefficiency, improve production machining efficiency, exert chamfer machine tooling technique to a great extent, chamfer processing treatment labour saving and time saving, light swift, effectively reduce production processing man-hour cost, promote product competitiveness.

Preferably, the left and right chamfering tools are equally divided into 2 pairs and are respectively provided with a horizontal chamfering tool set and a vertical chamfering tool, wherein the horizontal chamfering tool set is used for simultaneously chamfering two upper and lower horizontal strakes in the horizontal direction of the single side on the square body to be chamfered, and the vertical chamfering tool is used for chamfering two vertical strakes in the front and at the back of the single side on the square body to be chamfered. Horizontal chamfer knife tackle and vertical chamfer sword on two left and right sides chamfer cutters realize jointly that the 12 limits of other side physique carry out the disposable chamfer processing of continuity under the fixed condition of treating the chamfer processing product of clamping not changing, can carry out disposable chamfer processing in succession on 12 limits or many limits of other side physique product or spare part, it is low to avoid needing to carry out chamfer processing again behind the clamping product many times and cause, improve production machining efficiency, exert chamfer machine tooling technique to a great extent, chamfer processing labour saving and time saving, it is light swift, effectively reduce production and processing man-hour cost, promote product competitiveness.

Preferably, the horizontal chamfering tool group adopts 1-4 chamfering tools which are distributed and arranged up and down on the same tool body, and each group of chamfering tools form a structure which is uniformly distributed on the same tool body along the radial direction of the tool body. The processing efficiency of the chamfering tool during chamfering is improved, the overall strength and stress balance of the chamfering tool during processing are improved, and the service life of the chamfering tool is prolonged.

Preferably, the horizontal chamfering tool set comprises an upper chamfering tool and a lower chamfering tool, and the height interval distance between the upper chamfering tool and the lower chamfering tool is correspondingly matched with the height of a square body to be chamfered. The efficiency of the horizontal chamfering knife tackle chamfer processing is carried out to two horizontal strakes under the homonymy edge of square body simultaneously.

Preferably, the same cutter body is provided with a horizontal chamfering tool set limiting fixing groove and a vertical chamfering tool limiting fixing groove, each horizontal chamfering tool set is fixedly connected to the horizontal chamfering tool set limiting fixing groove through a fastening screw in a limiting manner, and each vertical chamfering tool is fixedly connected to the vertical chamfering tool set limiting fixing groove through a fastening screw in a limiting manner. The installation, the limiting, the fixing and the use reliability, the effectiveness and the maintenance convenience of the horizontal chamfering tool set and the vertical chamfering tool are improved.

Preferably, the vertical chamfering tool is arranged at the lowest end of the same tool body, and the horizontal chamfering tool set is arranged at the position above the vertical chamfering tool in the height space. The reasonable distribution effectiveness of the chamfering processing space of the horizontal chamfering tool set and the vertical chamfering tool on the same tool body and the stable and reliable chamfering processing effectiveness are improved.

Preferably, the 2 chamfering tools respectively correspond to the independent tool driving control mechanisms and the independent tool driving connecting seats, the tool driving control mechanisms are connected to the tool driving connecting seats, each tool driving control mechanism comprises a tool horizontal left-right adjusting and moving mechanism, a tool vertical adjusting and moving mechanism, a tool horizontal front-back adjusting and moving mechanism and a tool rotating and driving mechanism, the tool vertical adjusting and moving mechanism is arranged in front of the tool horizontal left-right adjusting and moving mechanism, the tool vertical adjusting and moving mechanism is in driving connection with the tool rotating and driving mechanism, the tool rotating and driving mechanism is in driving connection with the chamfering tool, and the horizontal front-back adjusting and moving mechanism is in driving connection with the tool driving connecting seats. The effectiveness of 2 chamfering tools in the process of chamfering processing, which is continuous, convenient and reliable to control, in all directions, lifting, moving and rotating is improved.

Preferably, the cutter horizontal left-right adjusting and moving mechanism comprises an adjusting screw rod or an adjusting screw rod which is arranged in the horizontal direction, and the adjusting screw rods or the adjusting screw rods of the left and right cutter horizontal left-right adjusting and moving mechanisms are horizontally arranged and distributed at the same height position above the square body to be chamfered. The convenience, flexibility and effectiveness of horizontal left-right movement adjustment of 2 chamfering tools in the process of performing left-right synchronous chamfering processing on square bodies are improved.

Preferably, the horizontal chamfering tool set adopts two sets of chamfering tools which are distributed and arranged up and down on the same tool body, and the two sets of chamfering tools form a uniform distribution structure which is 180 degrees along the radial direction of the tool body on the same tool body. The processing efficiency of the chamfering tool during chamfering is improved, the overall strength and stress balance of the chamfering tool during processing are improved, and the service life of the chamfering tool is prolonged.

Preferably, the horizontal chamfering tool set and the vertical chamfering tool set are in a staggered radial distribution structure on the radial spatial distribution of the tool body, that is, the vertical chamfering tool and the horizontal chamfering tool set are not on the same radial distribution surface. The processing efficiency of the chamfering tool during chamfering is improved, the overall strength and stress balance of the chamfering tool during processing are improved, and the service life of the chamfering tool is prolonged.

The utility model has the beneficial effects that: horizontal chamfer knife tackle and vertical chamfer sword on two left and right sides chamfer cutters realize jointly that the 12 limits of other side physique carry out the disposable chamfer processing of continuity under the fixed condition of treating the chamfer processing product of clamping not changing, can carry out disposable chamfer processing in succession on 12 limits or many limits of other side physique product or spare part, it is low to avoid needing to carry out chamfer processing again behind the clamping product many times and cause, improve production machining efficiency, exert chamfer machine tooling technique to a great extent, chamfer processing labour saving and time saving, it is light swift, effectively reduce production and processing man-hour cost, promote product competitiveness. Horizontal chamfer knife tackle and vertical chamfer sword on two left and right sides chamfer cutters realize jointly that the 12 limits of other side physique carry out the disposable chamfer processing of continuity under the fixed condition of treating the chamfer processing product of clamping not changing, can carry out disposable chamfer processing in succession on 12 limits or many limits of other side physique product or spare part, it is low to avoid needing to carry out chamfer processing again behind the clamping product many times and cause, improve production machining efficiency, exert chamfer machine tooling technique to a great extent, chamfer processing labour saving and time saving, it is light swift, effectively reduce production and processing man-hour cost, promote product competitiveness.

Description of the drawings:

the utility model is described in further detail below with reference to the figures and the detailed description.

FIG. 1 is a schematic view of a disposable continuous chamfering blade set for a square body according to the present invention.

FIG. 2 is a schematic view showing the structure of a single chamfering tool in the disposable continuous chamfering tool set for a square body according to the present invention.

Fig. 3 is a schematic bottom view of fig. 2.

FIG. 4 is a schematic view showing a structure of a rectangular body subjected to a one-time chamfering process by the disposable continuous chamfering blade set according to the present invention.

FIG. 5 is a schematic view showing the chamfering effect of the square body after the first chamfering process by the one-time continuous chamfering tool set according to the present invention.

Detailed Description

In the embodiment shown in fig. 1, 2 and 3, a disposable continuous chamfering tool set for a square body is adopted, 2 chamfering tools form the disposable continuous chamfering tool set for chamfering each edge of the square body, the 2 chamfering tools form a tool body space distribution structure of a left chamfering tool and a right chamfering tool together in space, and the left chamfering tool and the right chamfering tool are respectively distributed at the left side and the right side of the square body to be processed by the disposable continuous chamfering. The square body S with the length L and the height H shown in fig. 1 is only to better show the left and right distribution position effect when 2 chamfering tools are combined to perform chamfering on the square body S, and is not included in the technical scheme of the one-time continuous chamfering tool set per se, and this should not be taken as an unfavorable explanation and limitation.

The left and right chamfering tools 2 are respectively fixedly connected with a horizontal chamfering tool set 20 and a vertical chamfering tool set 30, wherein the horizontal chamfering tool set 20 (see figure 1, figure 2 and figure 3) is used for simultaneously chamfering the upper and lower horizontal strakes in the horizontal direction of a single side on the square body to be chamfered, when the upper and lower horizontal strakes are chamfered, each chamfering tool can move horizontally from the front end of the square body after being positioned and fixed to the rear end of the square body and chamfer the square body or move horizontally from the rear end of the square body after being positioned and fixed to the front end of the square body (refer to the front and rear end position direction of the square body shown in figure 4), the vertical chamfering tool set 30 is used for chamfering the front and rear vertical strakes in the vertical direction of the single side on the square body to be chamfered and processed, when the front and rear vertical strakes in the vertical direction of the single side are chamfered, each chamfering tool can be used for vertically moving and chamfering from bottom to top from the vertical edge at the front end of the positioned and fixed square body, or can be used for vertically moving and chamfering from top to bottom from the vertical edge at the front end of the positioned and fixed square body; or the vertical movement chamfering processing from bottom to top is carried out from the vertical edge at the rear end of the square body after the positioning and the fixing, or the vertical movement chamfering processing from top to bottom is carried out from the vertical edge at the rear end of the square body after the positioning and the fixing. The horizontal chamfering tool group 20 adopts 1-4 components to form chamfering tools which are distributed and arranged up and down on the same tool body 10, and each group of chamfering tools form a structure which is uniformly distributed on the same tool body along the radial direction of the tool body; the horizontal chamfer cutter set 20 is disposed at a radially outer edge on the same cutter body. The horizontal chamfering tool group 20 comprises an upper chamfering tool and a lower chamfering tool, and the height interval distance between the upper chamfering tool and the lower chamfering tool is correspondingly matched with the height of a square body to be chamfered. The same cutter main body 10 is provided with a horizontal chamfering tool set limiting fixing groove and a vertical chamfering tool limiting fixing groove, each horizontal chamfering tool set is respectively and fixedly connected to the horizontal chamfering tool set limiting fixing groove through a fastening screw, and each vertical chamfering tool is respectively and fixedly connected to the vertical chamfering tool set limiting fixing groove through a fastening screw. The vertical chamfering tool 30 is fixedly connected and arranged at the lowest end position of the same tool body 10, and the horizontal chamfering tool set is arranged at the position above the vertical chamfering tool in the height space. 2 chamfer processing cutter corresponds respectively and disposes independent cutter drive control mechanism and cutter drive connecting seat separately, cutter drive control mechanism connects and locates on the cutter drive connecting seat, every cutter drive control mechanism includes cutter level left and right sides regulation moving mechanism, cutter vertical adjustment moving mechanism, cutter level front and back regulation moving mechanism and cutter rotation drive mechanism, wherein cutter vertical adjustment moving mechanism locates cutter level left and right sides regulation moving mechanism the place ahead, cutter vertical adjustment moving mechanism drive connects cutter rotation drive mechanism, cutter rotation drive mechanism drive connects chamfer processing cutter, horizontal front and back regulation moving mechanism drive connects cutter drive connecting seat. (the tool driving control mechanism and the tool driving connecting seat can be referred or adopted by the tool driving control mechanism and the tool driving connecting seat in the prior art, and only the tool driving control mechanism and the tool driving connecting seat can be realized by combining the front-back left-right lifting movement and the rotation control continuity in the one-time continuous chamfering processing process of each edge of the square body according to the technical scheme of the application). The cutter horizontal left-right adjusting and moving mechanism comprises adjusting screws or adjusting screw rods arranged in the horizontal direction, and the adjusting screws or adjusting screw rods of the left and right cutter horizontal left-right adjusting and moving mechanisms are horizontally arranged at the same height position and are distributed above the square body to be chamfered. The horizontal chamfering tool set 20 adopts two sets of chamfering tools which are distributed and arranged up and down on the same tool body 10, and the two sets of chamfering tools form an evenly distributed structure which is 180 degrees along the radial direction of the tool body on the same tool body. The horizontal chamfering tool set 20 adopts the mutually facing cutting edges of the upper chamfering tool and the lower chamfering tool as chamfering processing stations for the upper and lower transverse edge strips in the horizontal direction on one side of the square body to be chamfered. For example, the height interval distance between the upper and lower horizontal edge strips in the horizontal direction of the single side of the square to be chamfered (i.e. the thickness of the square to be chamfered) may be the height interval distance between the upper and lower horizontal edge strips in the horizontal direction of the single side of the square to be chamfered. The height interval distance H of the middle part of the cutting edge between the upper chamfering tool and the lower chamfering tool is correspondingly matched with the height of the square body to be chamfered. The horizontal chamfering tool set 20 and the vertical chamfering tool 30 are in a mutually staggered radial distribution structure on the radial space distribution of the same tool body 10, that is, the vertical chamfering tool and the horizontal chamfering tool set are not on the same radial distribution surface (see fig. 2 and 3). That is, the horizontal chamfer cutter set 20 is fixedly mounted on the horizontal chamfer cutter mounting split body 11, the vertical chamfer cutter 30 is fixedly mounted on the vertical chamfer cutter mounting split body 12, the horizontal chamfer cutter mounting split body 11 and the vertical chamfer cutter split body 12 belong to different chamfer cutter mounting split bodies on the cutter main body 10, and a chamfer cutter mounting operation space is arranged between the mounting split bodies.

Specifically, the horizontal chamfering tool set adopts two sets of chamfering tools which are distributed and arranged up and down on the same tool body, and the two sets of chamfering tools mutually form an evenly distributed structure 180 degrees along the radial direction of the tool body on the same tool body. The processing efficiency of the chamfering tool during chamfering is improved, the overall strength and stress balance of the chamfering tool during processing are improved, and the service life of the chamfering tool is prolonged.

Specifically, three groups of chamfering tools which are distributed and arranged up and down can be adopted on the same cutter main body by adopting a horizontal chamfering tool group, and the three groups of chamfering tools form an evenly distributed structure which is adjacent to each other by 120 degrees along the radial direction of the cutter main body on the same cutter main body. The processing efficiency of the chamfering tool during chamfering is improved, the overall strength and stress balance of the chamfering tool during processing are improved, and the service life of the chamfering tool is prolonged.

The horizontal chamfering tool set adopts the mutually-oriented cutting edges of the upper chamfering tool and the lower chamfering tool as chamfering processing stations for the upper and lower transverse edge strips in the horizontal direction of the single side of the square body to be chamfered. The efficiency of the horizontal chamfering knife tackle chamfer processing is carried out to two horizontal strakes under the homonymy edge of square body simultaneously.

When the chamfering tool set is used, after the square body S to be chamfered is installed and fixed on the chamfering turntable, when the square body S needs to be chamfered on each side, after the first multi-side chamfering process can be carried out by the disposable continuous chamfering tool set of the square body, for example, the numbers S2, S4, S6 and S8 (see figure 4, namely the upper and lower horizontal strakes in the horizontal direction of one side on the square body S are chamfered and processed synchronously) can be simultaneously carried out on the left and right sides by using the horizontal chamfering tool set 20 respectively corresponding to 2 chamfering tools in the disposable continuous chamfering tool set of the square body S (2 horizontal strakes in the horizontal direction of one side in the technical scheme are used for carrying out chamfering process), and the upper and lower horizontal strakes in the horizontal direction of one side on the square body S which is chamfered and processed into the first corresponding chamfering edge S13, After S14, S15 and S16 (see figure 5), the vertical chamfering tool 30 in the same one-time chamfering tool for the square body can vertically chamfer the numbers S10 and S11 in each edge of the square body, and the vertical chamfering tool 30 in the chamfering tool set 2 in the one-time continuous chamfering tool set can chamfer the numbers S9 and S12 in each edge of the square body; in the process of chamfering the square body to be chamfered by the whole square body disposable chamfering tool, the square body S does not need to be assembled and disassembled for many times, and the square body S which is installed and fixed for one time can move relative to each other only by rotating the square body S along with the fixing tool, so that the subsequent one-time continuous chamfering of the four sides of the square body S1, S3, S5 and S7 can be finished finally; a square body part only need carry on the clamping once fixed back alright carry out disposable continuous chamfer processing, and need not to pass through the fixed square body operation of many times clamping and the chamfer processing mode of timesharing operation many times again, the effectual continuous chamfer machining efficiency who improves each side of square body fast reduces production and processing man-hour cost, and production and processing operation is light simple convenient, promotes product competitiveness. In the chamfering process, the cutter set for one-time continuous chamfering of the square body horizontally moves left and right (see the direction of an X arrow in fig. 1) or vertically moves up and down (see the direction of a Y arrow in fig. 1) relative to the square body S according to the actual situation.

The present invention is not limited to the above-described specific embodiments, and may have other structural embodiments, for example: the same cutter main body is provided with other quantity of horizontal chamfering cutter groups and other quantity of vertical chamfering cutters, the number of chamfering processing strips is not completely 12, and the like, and the technical scheme and the technical effect of the utility model are all within the protection scope of the utility model as long as the technical scheme and the technical effect are met.

In the positional relationship description of the present invention, the terms such as "inner", "outer", "upper", "lower", "left", "right", "front", "rear", etc., which indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, are presented only for the convenience of describing the embodiments and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, are not to be construed as limiting the present invention.

The foregoing summary and structure are provided to explain the principles, general features, and advantages of the product and to enable others skilled in the art to understand the utility model. The foregoing examples and description have been presented to illustrate the principles of the utility model and are intended to provide various changes and modifications within the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a disposable for chamfer knife tackle in succession of square body which characterized in that: adopt 2 chamfer processing cutters to constitute the one-time for continuous chamfer processing cutter group that each limit of square physique carries out the chamfer, 2 chamfer processing cutters form the cutter body spatial distribution structure of two chamfer cutters about the common formation in space, about 2 chamfer cutters distribute respectively and set up in the square body left and right sides position department of waiting one-time continuous chamfer processing.

2. The set of square, disposable, continuous chamfering blades according to claim 1, wherein: and the left and right chamfering tools are uniformly divided into 2 parts, the horizontal chamfering tool set and the vertical chamfering tool are respectively arranged on the chamfering tool set, the horizontal chamfering tool set is used for simultaneously processing the upper and lower horizontal strakes in the horizontal direction of the single side on the square body to be chamfered, and the vertical chamfering tool is used for processing the front and the back vertical strakes in the vertical direction of the single side on the square body to be chamfered.

3. The set of square, disposable, continuous chamfering blades according to claim 2, wherein: the horizontal chamfering tool set is characterized in that 1-4 chamfering tools distributed and arranged up and down are adopted on the same tool body, and each group of chamfering tools form a structure uniformly distributed along the radial direction of the tool body on the same tool body.

4. The set of square, disposable, continuous chamfering blades according to claim 2, wherein: the horizontal chamfering tool set comprises an upper chamfering tool and a lower chamfering tool, and the height interval distance between the upper chamfering tool and the lower chamfering tool is correspondingly matched with the height of a square body to be chamfered.

5. A disposable continuous chamfering blade set as in claim 3, wherein: the chamfering tool is characterized in that a horizontal chamfering tool set limiting fixing groove and a vertical chamfering tool limiting fixing groove are formed in the same tool body, each horizontal chamfering tool set is fixedly connected to the horizontal chamfering tool set limiting fixing groove through a fastening screw in a limiting mode, and each vertical chamfering tool is fixedly connected to the vertical chamfering tool set limiting fixing groove through a fastening screw in a limiting mode.

6. The set of square, disposable, continuous chamfering blades according to claim 2, wherein: the vertical chamfering tool is arranged at the lowest end of the same tool body, and the horizontal chamfering tool set is arranged at the position above the vertical chamfering tool in the height space.

7. The set of square, disposable, continuous chamfering blades according to claim 1, wherein: 2 chamfer processing cutter respectively corresponding to independent cutter drive control mechanism and cutter drive connecting seat separately, cutter drive control mechanism connects and locates on the cutter drive connecting seat, every cutter drive control mechanism includes that cutter level is controlled and is adjusted the moving mechanism, the perpendicular vertical regulation moving mechanism of cutter, cutter level is adjusted moving mechanism and cutter rotation drive mechanism around, wherein cutter level is controlled and is adjusted moving mechanism the place ahead, cutter vertical regulation moving mechanism drive connection cutter rotation drive mechanism, cutter rotation drive mechanism drive connection chamfer processing cutter, adjust moving mechanism drive connection cutter drive connecting seat around the level.

8. The set of square, disposable, continuous chamfering blades according to claim 7, wherein: the cutter horizontal left-right adjusting and moving mechanism comprises adjusting screws or adjusting screw rods arranged in the horizontal direction, and the adjusting screws or adjusting screw rods of the left and right cutter horizontal left-right adjusting and moving mechanisms are horizontally arranged at the same height position and are distributed above the square body to be chamfered.

9. A disposable continuous chamfering blade set as in claim 3, wherein: the horizontal chamfering tool group adopts two chamfering tools which are distributed and arranged up and down on the same tool body, and the two chamfering tools form an evenly distributed structure which is 180 degrees along the radial direction of the tool body on the same tool body.

10. The set of square, disposable, continuous chamfering blades according to claim 2, wherein: the horizontal chamfering tool set and the vertical chamfering tool are in staggered radial distribution structures on the radial spatial distribution of the tool body, namely the vertical chamfering tool and the horizontal chamfering tool set are not on the same radial distribution surface.

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