CN213053953U - Milling device for milling and grinding milling cutter on side - Google Patents

Abstract

The utility model discloses a milling cutter side grinding device, which comprises a milling cutter moving mechanism, a milling cutter clamping mechanism and a milling cutter processing mechanism which are all arranged on a workbench; the milling cutter moving mechanism comprises an X-axis sliding rail pair, a Y-axis sliding rail pair, a milling cutter placing platform and a milling cutter transferring assembly; the milling cutter placing platform is connected to the X-axis sliding rail pair in a sliding mode; the milling cutter transfer component is connected to the Y-axis sliding rail pair in a sliding mode and used for transferring milling cutters on the milling cutter placing platform into the milling cutter clamping mechanism; the milling cutter clamping mechanism comprises a milling cutter clamping seat and a rotating motor in driving connection with the milling cutter clamping seat, and the milling cutter clamping seat is used for fixing a milling cutter conveyed by the milling cutter transferring component and rotating to the milling cutter processing mechanism to process the milling cutter; the milling cutter processing mechanism comprises a grinding disc and a processing motor in driving connection with the grinding disc, and the grinding disc is used for processing the milling cutter; the utility model discloses contrast in artifical polishing in the past, have the advantage efficient, that the precision is high of polishing.

Description

Milling device for milling and grinding milling cutter on side

Technical Field

The utility model relates to a cutter processing equipment technical field, in particular to gong sword side grinds processingequipment.

Background

The milling cutter is characterized in that a chip removal groove is large, so that chips can be removed smoothly during drilling, and the heat productivity is small; the pore wall stain is few, be applicable to the high ductility metal sheet materials such as the aluminium base board of cutting, full copper foil, because aluminium base board area is less, the assembly hole site is also less, therefore the general diameter of gong sword is very little, and what be used for processing at present gong sword all places it and processes in the milling cutter fish tail machine, the knife edge after the final manual work was taken out and is carried out the finish machining and polish, nevertheless because gong sword diameter is very little, the manual work is polished and is not good to be observed, the precision of polishing is poor, and manual work efficiency is low, consequently, need research and development a device for polishing the gong sword, in order to solve above-.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a gong sword side grinds processingequipment to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a milling cutter side grinding device comprises a workbench and an outer cover arranged on the workbench; an exhaust hole is formed above the outer cover; the exhaust hole is externally connected with a negative pressure device; the milling cutter clamping mechanism is arranged on the workbench and comprises a milling cutter moving mechanism, a milling cutter clamping mechanism and a milling cutter processing mechanism;

the milling cutter moving mechanism comprises an X-axis sliding rail pair, a Y-axis sliding rail pair, a milling cutter placing platform and a milling cutter transferring assembly; the milling cutter placing platform is connected to the X-axis sliding rail pair in a sliding mode; the gong-knife transfer component is connected to the Y-axis sliding rail pair in a sliding manner and used for transferring the gong knife on the gong-knife placing platform into the gong-knife clamping mechanism;

the gong-knife clamping mechanism comprises a gong-knife clamping seat and a rotating motor in driving connection with the gong-knife clamping seat, and the gong-knife clamping seat is used for fixing the gong knife conveyed by the gong-knife transfer component and rotating to the front of the gong-knife processing mechanism to process the gong knife;

the milling cutter processing mechanism comprises a grinding disc and a processing motor in driving connection with the grinding disc, and the grinding disc is used for processing the milling cutter.

Furthermore, the X-axis slide rail pair comprises an X-axis motor and an X-axis lead screw slide rail; the X-axis lead screw slide rail is arranged on the workbench; and the X-axis motor is connected to one side of the X-axis lead screw slide rail in a driving manner.

Furthermore, the Y-axis slide rail pair comprises a Y-axis motor and a Y-axis lead screw slide rail; the Y-axis lead screw slide rail is arranged above the X-axis slide rail pair through a portal frame; and the Y-axis motor is connected to one side of the Y-axis lead screw slide rail in a driving manner.

Furthermore, the number of the gong knife placing platforms is two, the gong knife placing platforms are arranged in parallel and connected to the X-axis sliding rail pair in a sliding mode, and a plurality of circular grooves used for inserting the gong knives are formed in the gong knife placing platforms in an array mode.

Furthermore, two groups of gong-knife transfer assemblies are arranged, and each group comprises a Z-axis cylinder and a clamping jaw cylinder; the Z-axis cylinder is connected to the Y-axis sliding rail pair in a sliding manner; the clamping jaw cylinder is arranged at the output end of the Z-axis cylinder.

Further, a cutter fixing column is further arranged at the output end of the clamping jaw air cylinder; the cutter fixing column is evenly divided into two parts, and the two parts are respectively arranged on the two clamping jaws at the output end of the clamping jaw air cylinder and used for enhancing the clamping stability and preventing the cutter fixing column from falling off in the transferring process.

Further, the routing cutter processing mechanism further comprises a processing fixed seat and a cutting fluid nozzle; the processing fixed seat is arranged on the workbench; the grinding disc and the processing motor are respectively arranged at the front end and the rear end of the processing fixed seat and are in driving connection through a belt; the cutting fluid nozzle is arranged on the processing fixed seat, and the spraying direction of the cutting fluid nozzle points to the processing end of the grinding disc.

Further, the milling cutter reinforcing mechanism is further included; the routing cutter reinforcing mechanism comprises a Y-axis cylinder and routing cutter reinforcing blocks; the Y-axis cylinder is arranged on the workbench and is positioned in front of the milling cutter processing mechanism; the milling cutter reinforcing block is arranged at the output end of the Y-axis cylinder, and a groove is formed in the front of the milling cutter reinforcing block and used for fixing the milling cutter and buffering radial force applied during machining.

The utility model has the advantages that 1, the polishing efficiency and the precision are high; the utility model discloses a gong sword moving mechanism, gong sword fixture, gong sword processing agency have been set up, gong sword transfer assembly slides and is used for shifting the gong sword on the gong sword place the platform to gong sword fixture, and gong sword fixture is used for fixing the gong sword that gong sword transfer assembly transported and come, and rotate to and process this gong sword before the gong sword processing agency, above mechanism is automatic to the gong sword processing, compare in manual polishing in the past, have efficient, advantage that the precision is high; 2. polishing stably; the milling cutter transfer assembly is provided with a Z-axis cylinder, a clamping jaw cylinder and a cutter fixing column, and the clamping jaw cylinder is arranged on the output end of the Z-axis cylinder; the cutter fixed column evenly divide into two parts to set up respectively on two clamping jaws of clamping jaw cylinder output, when the closure, the gong sword is cliied to the round hole at cutter fixed column center ability is fine, prevents to run the position, and still be equipped with gong sword reinforcing mechanism, Y axle cylinder drive gong sword reinforcing block withstands the gong sword forward when polishing for fixed gong sword, cushion its radial force that receives man-hour, prevent the offset of gong sword, guarantee the stability of polishing.

Drawings

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

FIG. 2 is a schematic view of a partial structure of the present invention;

fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

100. A work table; 101. a housing; 102. an exhaust hole; 200. a milling cutter moving mechanism; 201. an X-axis motor; 202. an X-axis lead screw slide rail; 203. a Y-axis motor; 204. a Y-axis lead screw slide rail; 205. a gantry; 206. a milling cutter placing platform; 207. a circular groove; 208. a Z-axis cylinder; 209. a clamping jaw cylinder; 210. A cutter fixing column; 300. a milling cutter clamping mechanism; 301. a milling cutter clamping seat; 302. a rotating electric machine; 303. A spring jacket; 400. a milling cutter processing mechanism; 401. a grinding disc; 402. processing a motor; 403. processing a fixed seat; 404. a cutting fluid nozzle; 500. a routing reinforcement mechanism; 501. a Y-axis cylinder; 502. routing a cutter reinforcing block; 503. and (4) a groove.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It should be noted that the drawings of the present invention are simplified and use non-precise ratios, and are only used for the purpose of facilitating and clearly assisting the description of the embodiments of the present invention.

As shown in fig. 1 to 3, a milling and side grinding device includes a table 100, and a housing 101 disposed on the table 100; an exhaust hole 102 is arranged above the outer cover 101; the exhaust hole 102 is externally connected with a negative pressure device; the milling and turning device further comprises a milling and turning moving mechanism 200, a milling and turning clamping mechanism 300, a milling and turning processing mechanism 400 and a milling and turning reinforcing mechanism 500 which are all arranged on the workbench 100;

the milling cutter moving mechanism 200 comprises an X-axis sliding rail pair, a Y-axis sliding rail pair, a milling cutter placing platform 206 and a milling cutter transferring component;

the X-axis slide rail pair comprises an X-axis motor 201 and an X-axis lead screw slide rail 202; the X-axis lead screw slide rail 202 is arranged on the workbench 100; the X-axis motor 201 is connected to one side of the X-axis lead screw slide rail 202 in a driving manner;

the Y-axis slide rail pair comprises a Y-axis motor 203 and a Y-axis lead screw slide rail 204; the Y-axis lead screw slide rail 204 is arranged above the X-axis slide rail pair through a portal frame 205; the Y-axis motor 203 is connected to one side of the Y-axis lead screw slide rail 204 in a driving manner;

the two gong-knife placing platforms 206 are arranged in parallel and slidably connected to the X-axis lead screw slide rail 202, and are provided with a plurality of circular grooves 207 for inserting gongs and knives;

the gong-cutter transfer assemblies are provided with two groups, and each group comprises a Z-axis cylinder 208, a clamping jaw cylinder 209 and a cutter fixing column 210; the Z-axis cylinder 208 is slidably connected to the Y-axis lead screw slide rail 204; the clamping jaw air cylinder is arranged at the output end of the Z-axis air cylinder 208; the cutter fixing column 210 is uniformly divided into two parts and is respectively arranged on the two clamping jaws at the output end of the clamping jaw cylinder 209, and when the clamping jaws are closed, a round hole in the center of the cutter fixing column 210 can well clamp a milling cutter to prevent dislocation;

the gong-knife clamping mechanism 300 comprises a gong-knife clamping seat 301 and a rotating motor 302 in driving connection with the gong-knife clamping seat 301, wherein a spring jacket 303 is arranged on the upper part of the gong-knife clamping seat 301, and the spring jacket 303 is used for clamping a gong-knife;

the milling cutter machining mechanism 400 comprises a grinding disc 401, a machining motor 402 in driving connection with the grinding disc 401, a machining fixing seat 403 and a cutting fluid nozzle 404; the processing fixing seat 403 is arranged on the workbench 100; the grinding disc 401 and the processing motor 402 are respectively arranged at the front end and the rear end of the processing fixed seat 403 and are in driving connection through a belt; the cutting fluid nozzle 404 is disposed on the processing fixing seat 403, and the spraying direction of the cutting fluid is directed to the processing end of the grinding disc 401.

The routing reinforcing mechanism 500 comprises a Y-axis cylinder 501 and a routing reinforcing block 502; the Y-axis cylinder 501 is disposed on the worktable 100 and located in front of the milling and cutting mechanism 400; the routing reinforcing block 502 is arranged at the output end of the Y-axis cylinder 501, and a groove 503 is arranged at the front part of the routing reinforcing block.

The working principle is as follows: firstly, unprocessed gong sword material is placed in first on gong sword place the platform 206, gong sword transfer unit moves to the leftmost side, and this gong sword place the platform 206 with gong sword material move to gong sword transfer unit below, first group later in the gong sword transfer unit Z axle cylinder 208 drive clamping jaw cylinder 209 removes downwards, clamping jaw cylinder 209 passes through cutter fixed column 210 presss from both sides gong sword material, and remove to on gong sword grip slipper 301, and by rotating electrical machines 302 degree of rotation right, support gong sword material to process on the mill 401 of working, simultaneously Y axle cylinder 501 drive gong sword reinforcing block 502 withstands the gong sword forward for fixed gong sword cushions its radial force that adds that receives when man-hour, prevents gong sword skew, after the processing, gong sword reinforcing block 502 resets, this sword is organized by the second gong sword transfer unit to the second and deposit on the gong sword place the platform 206 and deposit And placing and circularly taking up the rest unprocessed milling cutter materials on the first milling cutter placing platform 206 for processing.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A milling cutter side grinding device comprises a workbench and an outer cover arranged on the workbench; an exhaust hole is formed above the outer cover; the exhaust hole is externally connected with a negative pressure device; the method is characterized in that: the milling cutter clamping mechanism is arranged on the workbench and comprises a milling cutter moving mechanism, a milling cutter clamping mechanism and a milling cutter processing mechanism;

the milling cutter moving mechanism comprises an X-axis sliding rail pair, a Y-axis sliding rail pair, a milling cutter placing platform and a milling cutter transferring assembly; the milling cutter placing platform is connected to the X-axis sliding rail pair in a sliding mode; the gong-knife transfer component is connected to the Y-axis sliding rail pair in a sliding manner and used for transferring the gong knife on the gong-knife placing platform into the gong-knife clamping mechanism;

the gong-knife clamping mechanism comprises a gong-knife clamping seat and a rotating motor in driving connection with the gong-knife clamping seat, and the gong-knife clamping seat is used for fixing the gong knife conveyed by the gong-knife transfer component and rotating to the front of the gong-knife processing mechanism to process the gong knife;

the milling cutter processing mechanism comprises a grinding disc and a processing motor in driving connection with the grinding disc, and the grinding disc is used for processing the milling cutter.

2. The milling device of claim 1, wherein: the X-axis slide rail pair comprises an X-axis motor and an X-axis lead screw slide rail; the X-axis lead screw slide rail is arranged on the workbench; and the X-axis motor is connected to one side of the X-axis lead screw slide rail in a driving manner.

3. The milling device of claim 1, wherein: the Y-axis slide rail pair comprises a Y-axis motor and a Y-axis lead screw slide rail; the Y-axis lead screw slide rail is arranged above the X-axis slide rail pair through a portal frame; and the Y-axis motor is connected to one side of the Y-axis lead screw slide rail in a driving manner.

4. The milling device of claim 1, wherein: the milling cutter placing platforms are arranged in two, are connected to the X-axis sliding rail pair in a parallel sliding mode, and are provided with a plurality of circular grooves used for inserting milling cutters in an array mode.

5. The milling device of claim 1, wherein: the milling cutter transfer assemblies are provided with two groups, and each group comprises a Z-axis cylinder and a clamping jaw cylinder; the Z-axis cylinder is connected to the Y-axis sliding rail pair in a sliding manner; the clamping jaw cylinder is arranged at the output end of the Z-axis cylinder.

6. The milling device of claim 5, wherein: the output end of the clamping jaw air cylinder is also provided with a cutter fixing column; the cutter fixing column is evenly divided into two parts, and the two parts are respectively arranged on the two clamping jaws at the output end of the clamping jaw air cylinder and used for enhancing the clamping stability and preventing the cutter fixing column from falling off in the transferring process.

7. The milling device of claim 1, wherein: the milling cutter processing mechanism also comprises a processing fixed seat and a cutting fluid nozzle; the processing fixed seat is arranged on the workbench; the grinding disc and the processing motor are respectively arranged at the front end and the rear end of the processing fixed seat and are in driving connection through a belt; the cutting fluid nozzle is arranged on the processing fixed seat, and the spraying direction of the cutting fluid nozzle points to the grinding disc.

8. The milling device of claim 1, wherein: the milling cutter reinforcing mechanism is also included; the routing cutter reinforcing mechanism comprises a Y-axis cylinder and routing cutter reinforcing blocks; the Y-axis cylinder is arranged on the workbench and is positioned in front of the milling cutter processing mechanism; the milling cutter reinforcing block is arranged at the output end of the Y-axis cylinder, and a groove is formed in the front of the milling cutter reinforcing block and used for fixing the milling cutter and buffering radial force applied during machining.

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