CN203401360U - Full-automatic multiple-cutting-edge keyway vertical milling and grinding end-tooth machine tool - Google Patents

Abstract

The utility model provides a full-automatic multiple-cutting-edge keyway vertical milling and grinding end-tooth machine tool, and belongs to the technical field of machinery. The full-automatic multiple-cutting-edge keyway vertical milling and grinding end-tooth machine tool solves the problems that a plurality of machine tools need to be combined for machining end teeth in a multiple-cutting-edge keyway vertical milling process at present, so that working efficiency is low, and accuracy is low. The full-automatic multiple-cutting-edge keyway vertical milling and grinding end-tooth machine tool comprises a machine frame, a rotating grinding disk and a first motor, wherein the rotating grinding disk and the first motor are arranged on the machine frame, the rotating grinding disk is provided with a spindle box, a second motor is arranged above the spindle box, a transverse guide rail is arranged below the machine frame, a transverse carriage is arranged on the transverse guide rail, a longitudinal carriage is arranged on the transverse carriage and provided with a grinding end edge end groove structure and a front grinding edge structure, and the machine frame is further provided with a feeding structure used for conveying workpeices into the spindle box. The full-automatic multiple-cutting-edge keyway vertical milling and grinding end-tooth machine tool has the advantages of being high in machining efficiency, high in machining accuracy and the like.

Description

Full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of lathe, particularly a kind of full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe.

Background technology

In existing slotting end mill end tooth processing, all using old cutter and tool grinding machine at home, a workpiece is divided into three process, each procedure all needs a machine tool, a workman, and each operation very important person frock folder is once, then plate is determined angle, and each face is processed successively.Such result causes one. and clamping times is many, and tolerance build-up is beaten, and precision is not high.Two. pull angle many, make angle inaccurate.Three. manual operation makes the poor consistency of every product.Four. benefit is low, and hand labor intensity is large, and cost of labor is high, and human factor is many, the height that manufactures a finished product, percent defective is high, to workman's technical merit and working experience, requires high.Abroad, the multi-shaft interlocked interpolation of above-mentioned machine adopted completes.But due to technical sophistication, Er Shi with high costs domestic manufacturer cannot buy, even if bought, be also that production cost is high and make product cost very high.

Summary of the invention

The purpose of this utility model is to have the problems referred to above for existing technology, has proposed the full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe that a kind of working (machining) efficiency is high, machining accuracy is high.

The purpose of this utility model can realize by following technical proposal:

This full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, comprise frame, the motor one of being located at the rotating grinding board in frame and driving this rotating grinding board circumferentially to rotate, described motor one vertically arranges and is positioned at the below of rotating grinding board, described rotating grinding board is provided with the main spindle box for holding workpiece, described main spindle box top is provided with drive shaft case inner main axis along the circumferential motor two rotating of self axis, it is characterized in that, the below of described frame is provided with cross slide way, described cross slide way is provided with can be along the cross slide of its transverse shifting, described cross slide is provided with longitudinal planker that can vertically move along it, described longitudinal planker is provided with for workpiece being ground to the mill end sword groove structure of end sword groove and for workpiece being ground to the mill front edge structure of front edge, in described frame, be also provided with for workpiece being delivered to the feeding structure in main spindle box.

Adding man-hour, motor one drives rotating grinding board rotation, makes main spindle box turn to feeding structure place, and feeding structure is fed through workpiece in main spindle box; Now motor one drives rotating grinding board to rotate, make main spindle box turn to mill end sword groove structure structure place, mill end sword groove structure is carried out the first mill end sword groove processing to workpiece, after processing, longitudinally planker drives mill end sword groove structure that it is return, motor two drive shaft circumferentially turn an angle, mill end sword groove structure is carried out the second mill end sword groove processing to workpiece, after processing, longitudinally planker drives mill end sword groove structure that it is return, motor two drive shaft circumferentially turn an angle again, and mill end sword groove structure is carried out the 3rd mill end sword groove processing to workpiece.Then, motor one drives rotating grinding board, makes main spindle box turn to mill front edge structure place, and the identical mode of operation of mill end sword groove structure is installed, and workpiece is carried out to the operation of No. three mill front edges.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described feeding structure comprises supporting plate, be fixed at the feeding cylinder on supporting plate and be located at the flitch being oppositely arranged with main spindle box on feeding cylinder, described supporting plate is provided with draw runner, described draw runner is provided with the feeding slide block by the piston rod driving of feeding cylinder, described feeding slide block is provided with for flitch workpiece is pushed to the feeding rod in main spindle box, is also provided with for driving supporting plate along the drives structure of frame transverse shifting between described supporting plate and frame.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described drives structure comprises the bearing that is fixed in frame, is located at the cylinder slide bar on bearing and is set in the planker slide block on this cylinder slide bar, described planker slide block is provided with planker, above-mentioned feeding structure is located on this planker, is also provided with for driving planker along the driving cylinder of cylinder slide bar transverse shifting on described bearing.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described mill end sword groove structure comprises supporting seat, is located at the mill end sword groove motor of supporting seat top and is located at the mill end sword groove cutter on mill end sword groove motor output shaft, described main spindle box center and the line between flitch are projected in and on longitudinal planker, form projection line one, line between described main spindle box center and mill end sword groove cutter is projected on longitudinal planker and forms projection line two, and described projection line one and the angle between projection line two are 110 °.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described mill front edge structure comprises riser, the screw mandrel planker of being located at riser sidepiece of being vertically located on longitudinal planker and is located at the motor three for driving screw mandrel planker to move up and down of riser top, described screw mandrel planker is provided with mill front edge motor, the output shaft of described mill front edge motor is provided with the front angle of throat of mill, is also provided with for regulating the adjustment structure at mill front edge motor angle of inclination on described screw mandrel planker.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described adjustment structure comprises that one end is hinged on the gripper shoe on screw mandrel planker, above-mentioned mill front edge motor is arranged in this gripper shoe, on described screw mandrel planker, be also hinged with an angle cylinder, the piston rod of described angle cylinder and the other end of above-mentioned gripper shoe are hinged.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described main spindle box center and the line between flitch are projected in and on longitudinal planker, form projection line one, line before described main spindle box center and mill between angle of throat is projected on longitudinal planker and forms projection line three, and described projection line one and the angle between projection line three are 90 °.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, on described riser, be vertically provided with two screw mandrels that are arranged in parallel, above-mentioned screw mandrel planker is arranged on this screw mandrel.

In above-mentioned full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, described cross slide is provided with two longitudinal rails that are arranged in parallel, and above-mentioned longitudinal planker is arranged on this longitudinal rail.

Compared with prior art, this full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe has the following advantages: the reasonable in design of this lathe, high to the working (machining) efficiency of workpiece, machining accuracy is high, reduce manual operation, improved security performance, only need manually workpiece to be put on flitch, reduced production and processing cost, improved working (machining) efficiency, can grind two-edged to multiple-cutting-edge key cutter end mill head, applied widely.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of preferred embodiment of providing of the utility model.

Fig. 2 is the side view of the mill front edge structure that provides of the utility model.

In figure, 1, frame; 11, rotating grinding board; 12, motor one; 13, main spindle box; 14, motor two; 15, cross slide way; 16, cross slide; 17, longitudinal planker; 19, longitudinal rail; 2, drive cylinder; 20, planker; 21, supporting plate; 22, feeding cylinder; 23, flitch; 24, draw runner; 25, feeding slide block; 26, feeding rod; 27, bearing; 28, cylinder slide bar; 29, planker slide block; 31, supporting seat; 32, mill end sword groove motor; 33, mill end sword groove cutter; 41, riser; 42, screw mandrel planker; 43, motor three; 44, mill front edge motor; 45, angle of throat before mill; 46, gripper shoe; 47, angle cylinder; 48, screw mandrel.

The specific embodiment

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

This full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe, the motor 1 that as shown in Figure 1, comprises frame 1, is located at the rotating grinding board 11 in frame 1 and drives this rotating grinding board 11 circumferentially to rotate, motor 1 vertically arranges and is positioned at the below of rotating grinding board 11.As shown in Figure 1, rotating grinding board 11 is provided with the main spindle box 13 for holding workpiece, and main spindle box 13 tops are provided with drive shaft case 13 inner main axis along the circumferential motor 2 14 rotating of self axis.As shown in Figure 1, the below of frame 1 is provided with cross slide way 15, cross slide way 15 is provided with can be along the cross slide 16 of its transverse shifting, and cross slide 16 is provided with two longitudinal rails that are arranged in parallel 19, and this longitudinal rail 19 is provided with longitudinal planker 17 that can vertically move along it.

In the present embodiment, as shown in Figure 1, this longitudinal planker 17 is provided with for workpiece being ground to the mill end sword groove structure of end sword groove and for workpiece being ground to the mill front edge structure of front edge, as shown in Figure 1, being also provided with for workpiece being delivered to the feeding structure in main spindle box 13 in frame 1.

Adding man-hour, motor 1 drives rotating grinding board 11 rotations, makes main spindle box 13 turn to feeding structure place, and feeding structure is fed through workpiece in main spindle box 13, now motor 1 drives rotating grinding board 11 to rotate, make main spindle box 13 turn to mill end sword groove structure structure place, mill end sword groove structure is carried out the first mill end sword groove processing to workpiece, after processing, longitudinally planker 17 drives mill end sword groove structure that it is return, motor 2 14 drive shaft circumferentially turn an angle, mill end sword groove structure is carried out the second mill end sword groove processing to workpiece, after processing, longitudinally planker 17 drives mill end sword groove structure that it is return, motor 2 14 drive shaft circumferentially turn an angle again, mill end sword groove structure is carried out the 3rd mill end sword groove processing to workpiece.Then, motor 1 drives rotating grinding board 11, makes main spindle box 13 turn to mill front edge structure place, and the identical mode of operation of mill end sword groove structure is installed, and workpiece is carried out to the operation of No. three mill front edges.

Concrete, as shown in Figure 1, feeding structure comprises supporting plate 21, be fixed at the feeding cylinder 22 on supporting plate 21 and be located at the flitch 23 being oppositely arranged with main spindle box 13 on feeding cylinder 22, supporting plate 21 is provided with draw runner 24, draw runner 24 is provided with the feeding slide block 25 by the piston rod driving of feeding cylinder 22, feeding slide block 25 is provided with for flitch 23 workpiece are pushed to the feeding rod 26 in main spindle box 13, is also provided with for driving supporting plate 21 along the drives structure of frame 1 transverse shifting between supporting plate 21 and frame 1.

As shown in Figure 1, this drives structure comprises the bearing 27 that is fixed in frame 1, is located at the cylinder slide bar 28 on bearing 27 and is set in the planker slide block 29 on this cylinder slide bar 28, planker slide block 29 is provided with planker 20, feeding structure is located on this planker 20, is also provided with for driving planker 20 along the driving cylinder 2 of cylinder slide bar 28 transverse shiftings on bearing 27.

Concrete, as shown in Figure 1, mill end sword groove structure comprises supporting seat 31, is located at the mill end sword groove motor 32 of supporting seat 31 tops and is located at the mill end sword groove cutter 33 on mill end sword groove motor 32 output shafts.In the present embodiment, line between main spindle box 13 centers and flitch 23 is projected on longitudinal planker 17 and forms projection line one, line between main spindle box 13 centers and mill end sword groove cutter 33 is projected on longitudinal planker 17 and forms projection line two, and the angle between projection line one and projection line two is 110 °.

As shown in Figure 1, mill front edge structure comprises the riser 41 be vertically located on longitudinal planker 17, be located at the screw mandrel planker 42 of riser 41 sidepieces and be located at the motor 3 43 for driving screw mandrel planker 42 to move up and down of riser 41 tops, screw mandrel planker 42 is provided with mill front edge motor 44, as shown in Figure 2, the output shaft of mill front edge motor 44 is provided with the front angle of throat 45 of mill, is also provided with for regulating the adjustment structure at mill front edge motor 44 angles of inclination on screw mandrel planker 42.As shown in Figure 2, be vertically provided with two screw mandrels that are arranged in parallel 48 on riser 41, screw mandrel planker 42 is arranged on this screw mandrel 48.

As shown in Figure 2, this adjustment structure comprises that one end is hinged on the gripper shoe 46 on screw mandrel planker 42, mill front edge motor 44 is arranged in this gripper shoe 46, is also hinged with an angle cylinder 47 on screw mandrel planker 42, and the other end of the piston rod of angle cylinder 47 and above-mentioned gripper shoe 46 is hinged.

In the present embodiment, line between main spindle box 13 centers and flitch 23 is projected on longitudinal planker 17 and forms projection line one, line before main spindle box 13 centers and mill between angle of throat 45 is projected on longitudinal planker 17 and forms projection line three, and the angle between projection line one and projection line three is 90 °.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Claims (9)

1. a full-automatic multiple-cutting-edge keyway vertical milling is ground end tooth lathe, comprise frame (1), the motor one (12) of being located at the rotating grinding board (11) in frame (1) and driving this rotating grinding board (11) circumferentially to rotate, described motor one (12) vertically arranges and is positioned at the below of rotating grinding board (11), described rotating grinding board (11) is provided with the main spindle box (13) for holding workpiece, described main spindle box (13) top is provided with drive shaft case (13) inner main axis along the circumferential motor two (14) rotating of self axis, it is characterized in that, the below of described frame (1) is provided with cross slide way (15), described cross slide way (15) is provided with can be along the cross slide (16) of its transverse shifting, described cross slide (16) is provided with longitudinal planker (17) that can vertically move along it, described longitudinal planker (17) is provided with for workpiece being ground to the mill end sword groove structure of end tooth and for workpiece being ground to the mill front edge structure of front edge, in described frame (1), be also provided with for workpiece being delivered to the feeding structure in main spindle box (13).

2. full-automatic multiple-cutting-edge keyway vertical milling according to claim 1 is ground end tooth lathe, it is characterized in that, described feeding structure comprises supporting plate (21), be fixed at the feeding cylinder (22) on supporting plate (21) and be located at the flitch (23) being oppositely arranged with main spindle box (13) on feeding cylinder (22), described supporting plate (21) is provided with draw runner (24), described draw runner (24) is provided with the feeding slide block (25) by the piston rod driving of feeding cylinder (22), described feeding slide block (25) is provided with for flitch (23) workpiece being pushed to the feeding rod (26) in main spindle box (13), between described supporting plate (21) and frame (1), be also provided with for driving supporting plate (21) along the drives structure of frame (1) transverse shifting.

3. full-automatic multiple-cutting-edge keyway vertical milling according to claim 2 is ground end tooth lathe, it is characterized in that, described drives structure comprises the bearing (27) that is fixed in frame (1), is located at the cylinder slide bar (28) on bearing (27) and is set in the planker slide block (29) on this cylinder slide bar (28), described planker slide block (29) is provided with planker (20), it is upper that above-mentioned feeding structure is located at this planker (20), is also provided with for driving planker (20) along the driving cylinder (2) of cylinder slide bar (28) transverse shifting on described bearing (27).

4. full-automatic multiple-cutting-edge keyway vertical milling according to claim 1 is ground end tooth lathe, it is characterized in that, described mill end sword groove structure comprises supporting seat (31), be located at the mill end sword groove motor (32) of supporting seat (31) top and be located at the mill end sword groove cutter (33) on mill end sword groove motor (32) output shaft, line between described main spindle box (13) center and flitch (23) is projected in the upper projection line one that forms of longitudinal planker (17), line between described main spindle box (13) center and mill end sword groove cutter (33) is projected in the upper projection line two that forms of longitudinal planker (17), described projection line one and the angle between projection line two are 110 °.

5. full-automatic multiple-cutting-edge keyway vertical milling according to claim 1 is ground end tooth lathe, it is characterized in that, described mill front edge structure comprises the riser (41) of being vertically located on longitudinal planker (17), be located at the screw mandrel planker (42) of riser (41) sidepiece and be located at the motor three (43) for driving screw mandrel planker (42) to move up and down of riser (41) top, described screw mandrel planker (42) is provided with mill front edge motor (44), the output shaft of described mill front edge motor (44) is provided with the front angle of throat (45) of mill, on described screw mandrel planker (42), be also provided with for regulating the adjustment structure at mill front edge motor (44) angle of inclination.

6. full-automatic multiple-cutting-edge keyway vertical milling according to claim 5 is ground end tooth lathe, it is characterized in that, described adjustment structure comprises that one end is hinged on the gripper shoe (46) on screw mandrel planker (42), above-mentioned mill front edge motor (44) is arranged in this gripper shoe (46), on described screw mandrel planker (42), be also hinged with an angle cylinder (47), the other end of the piston rod of described angle cylinder (47) and above-mentioned gripper shoe (46) is hinged.

7. full-automatic multiple-cutting-edge keyway vertical milling according to claim 6 is ground end tooth lathe, it is characterized in that, line between described main spindle box (13) center and flitch (23) is projected in the upper projection line one that forms of longitudinal planker (17), line before described main spindle box (13) center and mill between angle of throat (45) is projected in the upper projection line three that forms of longitudinal planker (17), and described projection line one and the angle between projection line three are 90 °.

8. according to the full-automatic multiple-cutting-edge keyway vertical milling mill end tooth lathe described in claim 5 or 6 or 7, it is characterized in that, on described riser (41), be vertically provided with two screw mandrels that are arranged in parallel (48), above-mentioned screw mandrel planker (42) is arranged on this screw mandrel (48).

9. full-automatic multiple-cutting-edge keyway vertical milling according to claim 1 is ground end tooth lathe, it is characterized in that, described cross slide (16) is provided with two longitudinal rails that are arranged in parallel (19), and above-mentioned longitudinal planker (17) is arranged on this longitudinal rail (19).

Images