CN218224900U - Cutter for machining disc-shaped parts - Google Patents

Abstract

The utility model provides a cutter for processing disk-shaped parts, which relates to the technical field of cutters and solves the problem that most of the existing cutters can not limit the cutter and parts in the cutting process; comprises a bearing structure and a cutting device; the top of the bearing structure is movably connected with a fixed structure; cutting device fixed connection is at the top of accepting the structure, and cutting device and fixed knot construct and laminate mutually, and cutting device and fixture swing joint, and fixture installs in the bottom of accepting the structure, cutting device's top fixedly connected with drive structure, cutting device including: the tool comprises a tool, a hollow groove and a tool tip, wherein the hollow groove is formed inside the tool, and the tool tip is arranged at the hollow part of the tool; the utility model discloses cutting device's setting can make the cutter laminate the inboard of disk part through the fretwork groove, can carry on spacingly between cutter and the disk part, and the depth of parallelism after can effectual improvement parts machining accomplishes has improved the qualification rate of part.

Description

Cutter for machining disc-shaped parts

Technical Field

The utility model relates to a cutter technical field especially relates to cutter of disk type spare part processing.

Background

A part is a single piece that is used to assemble a machine, and the part requires machining by a tool or the like during the manufacturing process.

The inventor finds that when the existing cutter for machining the disc-shaped parts is used, the parallelism requirement of the disc-shaped parts on two planes is high, most of the existing cutters cannot limit the cutter and the parts in the cutting process, and the parallelism cannot be effectively guaranteed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cutter of disk type spare part processing to solve the current most cutter that proposes among the above-mentioned background art and can't carry out spacing problem at the in-process of cutting to cutter and part.

The purpose and the efficacy of the cutter for processing the disc-shaped parts are achieved by the following specific technical means:

a cutter for machining disc-shaped parts comprises a bearing structure and a cutting device; the top of the bearing structure is movably connected with a fixed structure; cutting device fixed connection is at the top of accepting the structure, and cutting device and fixed knot construct mutually and laminate, and cutting device and fixture swing joint, and fixture installs in the bottom of accepting the structure, cutting device's top fixedly connected with drive structure, cutting device including: the tool comprises a tool, a hollow groove and a tool tip, wherein the hollow groove is arranged inside the tool, and the tool tip is arranged at the hollow part of the tool.

Further, the receiving structure includes: the receiving structure includes: the device comprises a bottom plate, a telescopic rod, a bearing plate, a rotating groove A and a sliding groove, wherein the two ends of the bottom plate are respectively and fixedly connected with the telescopic rod; two ends of the bearing plate are respectively fixedly connected with the telescopic rods, and a rotating groove A is formed in the bearing plate; the sliding tray sets up on the bottom plate, and the telescopic link adopts electric telescopic handle, and its effect does, can fix the overlap joint piece through the telescopic link, can also drive the overlap joint piece simultaneously and control the regulation.

Further, the fixing structure includes: the device comprises a lapping block, a connecting frame A and a rotating groove B, wherein the lapping block is movably connected to the top of the bearing plate through the rotating groove A, two ends of the lapping block are fixedly connected with the connecting frame A respectively, and two ends of the lapping block are fixedly connected with a telescopic rod respectively; the connecting frame A is internally provided with a rotating groove B, and the lapping blocks are arranged in a ladder shape and used for bearing disc-shaped parts.

Further, the fixing structure further includes: the rotary column is rotatably connected inside the connecting frame A through the rotary groove B, and the nut is fixedly connected inside the rotary column; the nut is connected with the lifting rod through threads, and the bottom of the lifting rod is fixedly connected with a pressing plate; one side and the link A of clamp plate are laminated mutually, and the bottom and the overlap joint piece looks overlap joint of clamp plate are equipped with the screw thread on the lifter, and its effect does, when the nut rotates, can drive the lifter and go up and down, can carry on spacingly to the lifter through the clamp plate simultaneously.

Further, the cutting device further comprises: link B, the support column, the baffle, the fixed plate, link B fixed connection is on the bottom plate, and link B and support column sliding connection, and the top fixedly connected with baffle of support column, and the bottom of baffle laminates with link B mutually, fixed plate fixed connection is in the bottom of support column, and fixed plate and cutter fixed connection, one side of cutter is equipped with the fretwork groove, and can make the cutter laminate the inboard of disk part through the fretwork groove, can carry on spacingly between cutter and the disk part.

Further, the clamping mechanism includes: the connecting blocks are arranged in four groups, and the four groups of connecting blocks are respectively and fixedly connected to the top of the connecting frame B; the knob is fixedly connected to one end of the control rod, the control rod is movably connected with the connecting block, and the control rod is in threaded connection with the clamp; two ends of the guide rod are respectively fixedly connected with the connecting blocks, and the connecting blocks are respectively connected with the clamp in a sliding manner; anchor clamps are two sets of settings, and two sets of anchor clamps set up relatively, and two sets of anchor clamps are laminated mutually with the support column respectively, are equipped with the screw thread on the control lever, and the screw thread at control lever both ends is two-way setting, and its effect does, and the control lever can control anchor clamps and inwards carry out the centre gripping at the pivoted in-process, and anchor clamps are the U-shaped structure, and its effect does, and anchor clamps through the U-shaped structure can make good laminating of anchor clamps on the support column.

Further, the driving structure includes: motor, connecting plate, slider, carousel, dead lever, motor fixed connection is at the top of connecting plate, the bottom fixedly connected with slider of connecting plate, and slider sliding connection is in the inside of sliding tray, carousel fixed connection is in the one end of motor, and the both ends of dead lever respectively with carousel, overlap joint piece fixed connection, the motor adopts servo motor, its effect does, servo motor can the controlled speed, the position precision is very accurate.

Compare with current structure under, the utility model has the advantages of as follows:

1. the utility model discloses fixed knot constructs's setting can carry out the overlap joint with the disk part through the overlap joint piece, can also fix the disk part through the clamp plate is quick after the overlap joint is accomplished, and fixed mode is comparatively firm, can effectually prevent that the cutter from making the disk part take place the skew at the in-process of cutting.

2. The utility model discloses cutting device's setting can make the cutter laminate the inboard of disk part through the fretwork groove, can carry on spacingly between cutter and the disk part, and the depth of parallelism after can effectual improvement parts machining accomplishes, further improvement the qualification rate of part.

3. The utility model discloses accept the setting of structure, can drive the overlap joint piece through the telescopic link and slide, the overlap joint piece can drive the disc part at gliding in-process and carry out the skew, can effectually process the center of disc part, is convenient for expand the center of disc part.

4. The utility model discloses fixture's setting, laminating that anchor clamps can be good on the support column, when highly adjusting the support column, can also fix the support column, be convenient for highly adjusting the cutter, can effectual improvement cutting device's suitability.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the bottom view structure of the present invention;

fig. 3 is a schematic structural view of the driving structure of the present invention;

FIG. 4 is a schematic structural view of the cutting device of the present invention;

fig. 5 is a schematic structural view of the fixing structure of the present invention;

fig. 6 is a schematic structural view of the clamping mechanism of the present invention;

fig. 7 is a schematic structural view of the receiving structure of the present invention.

In the figure:

1. a receiving structure; 101. a base plate; 102. a telescopic rod; 103. a carrier plate; 104. a rotating groove A; 105. a sliding groove;

2. a fixed structure; 201. a lapping block; 202. a connecting frame A; 203. a rotating groove B; 204. rotating the column; 205. a nut; 206. a lifting rod; 207. pressing a plate;

3. a cutting device; 301. a connecting frame B; 302. a support pillar; 303. a baffle plate; 304. a cutter; 305. hollowing out the grooves; 306. a knife tip; 307. a fixing plate;

4. a clamping mechanism; 401. connecting blocks; 402. a knob; 403. a control lever; 404. a guide rod; 405. a clamp;

5. a drive structure; 501. an electric motor; 502. a connecting plate; 503. a slider; 504. a turntable; 505. and (6) fixing the rod.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings and described below. While the invention will be described in conjunction with the exemplary embodiment, it will be understood that this description is not intended to limit the invention to this exemplary embodiment. On the contrary, the invention is intended to cover not only the exemplary embodiment, but also various alternative, modified, equivalent and other embodiments, which may be included within the spirit and scope of the invention as defined by the appended claims.

Referring to fig. 1 to 7, a cutter for machining disc-shaped parts comprises a bearing structure 1 and a cutting device 3; the top of the bearing structure 1 is movably connected with a fixed structure 2; cutting device 3 fixed connection is at the top of accepting structure 1, and cutting device 3 laminates with fixed knot constructs 2 mutually, and cutting device 3 and 4 swing joint of fixture, and fixture 4 installs in the bottom of accepting structure 1, cutting device 3's top fixedly connected with drive structure 5, cutting device 3 including: the tool comprises a tool 304, a hollow groove 305 and a tool tip 306, wherein the hollow groove 305 is arranged inside the tool 304, and the tool tip 306 is arranged at the hollow part of the tool 304.

As shown in fig. 7, the receiving structure 1 includes: the device comprises a bottom plate 101, an expansion link 102, a bearing plate 103, a rotating groove A104 and a sliding groove 105, wherein the expansion link 102 is fixedly connected to two ends of the bottom plate 101 respectively; two ends of the bearing plate 103 are respectively fixedly connected with the telescopic rods 102, and a rotating groove A104 is formed in the bearing plate 103; the sliding groove 105 is formed in the bottom plate 101, the telescopic rod 102 can drive the lapping block 201 to slide, the lapping block 201 can drive the disc-shaped part to shift in the sliding process, the center of the disc-shaped part can be effectively machined, and the center of the disc-shaped part can be conveniently expanded.

As shown in fig. 5, wherein the fixing structure 2 comprises: the device comprises a lapping block 201, a connecting frame A202 and a rotating groove B203, wherein the lapping block 201 is movably connected to the top of a bearing plate 103 through a rotating groove A104, two ends of the lapping block 201 are fixedly connected with the connecting frame A202 respectively, and two ends of the lapping block 201 are fixedly connected with a telescopic rod 102 respectively; the connecting frame A202 is provided with a rotating groove B203 inside.

As shown in fig. 5, the fixing structure 2 further includes: the rotary column 204 is rotatably connected inside the connecting frame A202 through a rotary groove B203, and the nut 205 is fixedly connected inside the rotary column 204; the nut 205 is connected with the lifting rod 206 through threads, and the bottom of the lifting rod 206 is fixedly connected with a pressing plate 207; one side of the pressing plate 207 is attached to the connecting frame A202, the bottom of the pressing plate 207 is in lap joint with the lap joint block 201, the disc-shaped parts can be lapped through the lap joint block 201, the disc-shaped parts can be rapidly fixed through the pressing plate 207 after the lap joint is completed, the fixing mode is firm, and the disc-shaped parts can be effectively prevented from being deviated by the cutter 304 in the cutting process.

As shown in fig. 4, the cutting device 3 further includes: link B301, support column 302, baffle 303, fixed plate 307, link B301 fixed connection is on bottom plate 101, and link B301 and support column 302 sliding connection, and the top fixedly connected with baffle 303 of support column 302, and the bottom of baffle 303 laminates with link B301 mutually, fixed plate 307 fixed connection is in the bottom of support column 302, and fixed plate 307 and cutter 304 fixed connection, can make cutter 304 laminate the inboard of disc part through fretwork groove 305, can carry on spacingly between cutter 304 and the disc part, the depth of parallelism after can effectual improvement parts machining is accomplished, further improvement the qualification rate of part.

As shown in fig. 6, the clamping mechanism 4 includes: the connecting device comprises connecting blocks 401, a knob 402, a control rod 403, guide rods 404 and a clamp 405, wherein the connecting blocks 401 are arranged in four groups, and the four groups of connecting blocks 401 are respectively and fixedly connected to the top of a connecting frame B301; the knob 402 is fixedly connected to one end of the control rod 403, the control rod 403 is movably connected with the connecting block 401, and the control rod 403 is in threaded connection with the clamp 405; two ends of the guide rod 404 are respectively fixedly connected with the connecting block 401, and the connecting block 401 is respectively connected with the clamp 405 in a sliding manner; anchor clamps 405 is two sets of settings, and two sets of anchor clamps 405 sets up relatively, and two sets of anchor clamps 405 laminate with support column 302 respectively mutually, and the laminating that anchor clamps 405 can be good is on support column 302, when highly adjusting support column 302, can also fix support column 302, is convenient for highly adjusting cutter 304, can effectual improvement cutting device 3's suitability.

As shown in fig. 3, among others, the driving structure 5 includes: motor 501, connecting plate 502, slider 503, carousel 504, dead lever 505, motor 501 fixed connection is at the top of connecting plate 502, and the bottom fixed connection of connecting plate 502 has slider 503, and slider 503 sliding connection is in the inside of sliding tray 105, and carousel 504 fixed connection is in the one end of motor 501, and the both ends of dead lever 505 respectively with carousel 504, overlap joint piece 201 fixed connection.

The working principle of the embodiment is as follows:

the utility model discloses in, place the part on overlap joint piece 201, later rotate and rotate post 204 control lifter 206 and clamp plate 207 and go up and down, and fix the part, simultaneously after rotating post 204 stall, can fix lifter 206 through nut 205, later rotate knob 402 and drive control lever 403 and rotate, control lever 403 is at the pivoted in-process, can drive two sets of anchor clamps 405 simultaneously and carry out the centre gripping to inside, and fix support column 302, support column 302 sliding connection is on link B301, simultaneously can adjust tool 304's height, after accomplishing tool 304's regulation, open motor 502 and drive overlap joint piece 201 and rotate, tool 304 can rotate when overlap joint piece 201 rotates, cut the disc part, and at the in-process of cutting, can drive overlap joint piece 201 through telescopic link 102 and slide, be convenient for expand the centre bore to the disc part.

The details of the present invention are well known to those skilled in the art.

In summary, although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments or equivalent replacements may be made to some technical features of the embodiments, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a cutter of disk type spare part processing which characterized in that: comprises a bearing structure (1) and a cutting device (3); the top of the bearing structure (1) is movably connected with a fixed structure (2); cutting device (3) fixed connection is at the top of accepting structure (1), and cutting device (3) laminate mutually with fixed knot constructs (2), and cutting device (3) and fixture (4) swing joint, and fixture (4) install in the bottom of accepting structure (1), the top fixedly connected with drive structure (5) of cutting device (3), cutting device (3) including: the tool comprises a tool (304), a hollow groove (305) and a tool nose (306), wherein the hollow groove (305) is arranged inside the tool (304), and the tool nose (306) is arranged at the hollow part of the tool (304).

2. The tool for machining the disc-shaped part according to claim 1, wherein: the receiving structure (1) comprises: the device comprises a bottom plate (101), an expansion link (102), a bearing plate (103), a rotating groove A (104) and a sliding groove (105), wherein the expansion link (102) is fixedly connected to two ends of the bottom plate (101) respectively; two ends of the bearing plate (103) are respectively fixedly connected with the telescopic rod (102), and a rotating groove A (104) is formed in the bearing plate (103); the slide groove (105) is provided on the base plate (101).

3. The tool for machining the disc-shaped part according to claim 2, wherein: the fixed structure (2) comprises: the device comprises a lapping block (201), a connecting frame A (202) and a rotating groove B (203), wherein the lapping block (201) is movably connected to the top of a bearing plate (103) through the rotating groove A (104), the two ends of the lapping block (201) are fixedly connected with the connecting frame A (202) respectively, and the two ends of the lapping block (201) are fixedly connected with a telescopic rod (102) respectively; a rotating groove B (203) is arranged in the connecting frame A (202).

4. The tool for machining disc-shaped parts according to claim 3, wherein: the fixed structure (2) further comprises: the rotary column (204) is rotatably connected inside the connecting frame A (202) through a rotary groove B (203), and the nut (205) is fixedly connected inside the rotary column (204); the nut (205) is connected with the lifting rod (206) through threads, and the bottom of the lifting rod (206) is fixedly connected with the pressing plate (207); one side of the pressing plate (207) is attached to the connecting frame A (202), and the bottom of the pressing plate (207) is overlapped with the overlapping block (201).

5. The tool for machining the disc-shaped part according to claim 4, wherein: the cutting device (3) further comprises: link B (301), support column (302), baffle (303), fixed plate (307), link B (301) fixed connection is on bottom plate (101), and link B (301) and support column (302) sliding connection, and the top fixedly connected with baffle (303) of support column (302), and the bottom of baffle (303) laminates with link B (301) mutually, fixed plate (307) fixed connection is in the bottom of support column (302), and fixed plate (307) and cutter (304) fixed connection.

6. The tool for machining the disc-shaped part according to claim 5, wherein: the clamping mechanism (4) comprises: the connecting device comprises connecting blocks (401), a knob (402), control rods (403), guide rods (404) and a clamp (405), wherein the connecting blocks (401) are arranged in four groups, and the four groups of connecting blocks (401) are respectively and fixedly connected to the top of a connecting frame B (301); the knob (402) is fixedly connected to one end of the control rod (403), the control rod (403) is movably connected with the connecting block (401), and the control rod (403) is in threaded connection with the clamp (405); two ends of the guide rod (404) are respectively fixedly connected with the connecting block (401), and the connecting block (401) is respectively connected with the clamp (405) in a sliding manner; the clamps (405) are arranged in two groups, the two groups of clamps (405) are arranged oppositely, and the two groups of clamps (405) are respectively attached to the supporting column (302).

7. The tool for machining disc-shaped parts according to claim 6, wherein: the drive structure (5) comprises: motor (501), connecting plate (502), slider (503), carousel (504), dead lever (505), motor (501) fixed connection is at the top of connecting plate (502), the bottom fixedly connected with slider (503) of connecting plate (502), and slider (503) sliding connection is in the inside of sliding tray (105), carousel (504) fixed connection is in the one end of motor (501), and the both ends of dead lever (505) respectively with carousel (504), overlap joint piece (201) fixed connection.

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