CN204893588U - Automatic machine that grinds of milling cutter - Google Patents

Abstract

The utility model provides an automatic machine that grinds of milling cutter belongs to mechanical technical field. It has been solved current milling cutter and has ground the problem that quick -witted degree of automation is low, use cost is high. The utility model discloses a frame, locate the headstock on the frame, locate in the headstock by a motor driven emery wheel with locate the numerical control unit in the headstock, motor no. 1 and numerical control unit connection, the control panel who is connected with the numerical control unit has on the headstock, be equipped with motor no. 2 and guide rail no. 1 on the frame, be equipped with on the guide rail no. 1 under the effect of motor no. 2 along the slide no. 1 of a guide rail removal, the articulated roating seat that has is gone up to slide no. 1, have on the roating seat be used for installing the collet chuck by three drivens in a motor installation section of thick bamboo, still be equipped with on the slide no. 1 and be used for driving the roating seat around its pin joint pivoted motor no. 4, motor no. 2, motor no. 3 and motor no. 4 and numerical control unit connection, be equipped with the drive structure that is used for driving emery wheel axial motion in the headstock. The utility model has the advantages of degree of automation is high, use cost is low.

Description

Milling cutter autogenous mill

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of grinder, particularly a kind of milling cutter autogenous mill.

Background technology

Cutting tool is process tool important in machining, these cutters are mostly made up of materials such as excellent carbide alloy, cermets, cost of manufacture is higher, and in machining, cutter blade must produce wear phenomenon, the major accident such as even collapse angle time serious, fracture, causes cutter can not continue to use.The cutter that wearing and tearing occur all through again grinding to reuse, effectively can cut down finished cost.Milling cutter, as the one of cutting tool, obtains increasing application in machining, and the milling cutter at angle of wearing and tearing, collapse is ground the cost that effectively can reduce machining again.

Existing milling cutter utilizes large-scale milling cutter grinder to grind, it mainly utilizes complicated operating structure to grind, grinder is when carrying out milling cutter grinding, normally need the cutter selecting grinding, select corresponding locker again, milling cutter is placed on the relevant position of the emery wheel of high-speed rotation, more omnibearing grinding is carried out to various milling cutter.Large-scale milling cutter grinds special grinding machine for machining floor space greatly, and manufacturing cost is high, is unsuitable for applying; And large-scale milling cutter grinds special grinding machine for machining complicated operation, need the staff of specialty to operate, labour cost is high, and automaticity is low.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, proposes the milling cutter autogenous mill that a kind of automaticity is high.

The purpose of this utility model realizes by following technical proposal:

This milling cutter autogenous mill, comprise support, be located at the main spindle box on support, the numerical control unit be located at the emery wheel driven by motor one in main spindle box and be located in main spindle box, described motor one is connected with numerical control unit, described main spindle box has the control panel be connected with numerical control unit, it is characterized in that, described support is provided with motor two and guide rail one, described guide rail one is provided with the slide one along guide rail one movement under the effect of motor two, described slide one is hinged with rotating seat, described rotating seat has the mounting cylinder driven by motor three for installing collet chuck, described slide one is also provided with the motor four for driving rotating seat to rotate around its pin joint, described motor two, motor three is connected with numerical control unit with motor four, the drives structure for driving emery wheel axially-movable is provided with in described main spindle box.

Control panel, can in this display screen observation real time data and input related data with display screen.Before the milling, confirm milling handle diameter, select suitable collet chuck and set of knives, set of knives to be embedded in collet chuck with suitable angle and passes through nut check, milling cutter is encased in set of knives, then the collet chuck of set of knives is encased in mounting cylinder, by control panel, relevant parameter is set according to the length of milling cutter, diameter and angle.

In above-mentioned milling cutter autogenous mill, described drives structure comprises the guide rail two arranged with grinding wheel spindle line parallel be located on support, be located at the slide two on guide rail two and be located on support for driving slide two along the motor five of guide rail two movement, above-mentioned emery wheel and motor one are located on this slide two, and described motor five is connected with above-mentioned numerical control unit.

In above-mentioned milling cutter autogenous mill, described slide two is provided with tool rest.This tool setting seat is positioned at the rear of emery wheel, is mainly used in tool setting, and sets milling cutter length.

In above-mentioned milling cutter autogenous mill, described support is provided with the swivel plate fitting in frame upper surface, above-mentioned guide rail one and motor two are located on this swivel plate, described support is equipped with the rotating shaft that upper end and swivel plate are connected, the below of described swivel plate is provided with motor six, the output shaft of described motor six is provided with worm screw one, and the lower end of described rotating shaft has the worm gear one be equipped with this worm screw one, and described motor six is connected with numerical control unit.This rotating shaft is positioned at immediately below emery wheel, motor six drives output shaft rotation, worm screw one with under the effect of worm gear one, driven rotary axle rotates, because the upper end of rotating shaft and swivel plate are connected, driven rotary plate rotates in frame upper surface, thus drives mounting cylinder to rotate around emery wheel, and the angle of mounting cylinder and emery wheel changes.

In above-mentioned milling cutter autogenous mill, described rotating seat is hinged on above-mentioned slide one by jointed shaft, and the output shaft of above-mentioned motor four is provided with worm screw two, described jointed shaft is arranged with the worm gear two be equipped with worm screw two.Motor four rotates, and drive worm screw two to rotate, worm screw two coordinates with worm gear two, drives worm gear two to rotate, thus drives jointed shaft to rotate, and realizes the rotation of rotating seat.

In above-mentioned milling cutter autogenous mill, described motor three be arranged in parallel with mounting cylinder, and described mounting cylinder is arranged with driving wheel, and the output shaft of described motor three is arranged with driving wheel, and described driving wheel is in transmission connection by belt and driving wheel.When motor three works, drive driving wheel to rotate, driving wheel is rotated by belt drive driving wheel, realizes the rotation of mounting cylinder, and final collet chuck and the milling cutter of driving rotates.

In above-mentioned milling cutter autogenous mill, described support is provided with cover cap, and the front portion of described cover cap is provided with observation port, and described observation port place is hinged with transparent cover plate.

Compared with prior art, this milling cutter autogenous mill has the following advantages:

Adopt control panel and numerical control unit CNC to carry out full auto-programs control, whole operation can have been ground by clamped one time, effectively ensure that precision and the symmetry of milling cutter, effectively can extend the service life of milling cutter; Control panel, with display screen, can make operator easily use, quick left-hand seat, and a key starts and can easily grind without the need to skill, and program can reset by customer demand, edit, and effectively saves labour turnover, and improves utilization benefit.

Accompanying drawing explanation

Fig. 1 is the structural representation of the preferred embodiment that the utility model provides.

Fig. 2 is the internal structure schematic diagram of Fig. 1 that the utility model provides.

Fig. 3 is the structural representation of another state of Fig. 2 that the utility model provides.

Fig. 4 is the top view of Fig. 3 that the utility model provides.

Fig. 5 is the part-structure schematic diagram of the preferred embodiment that the utility model provides.

Fig. 6 is the structural representation of another state of Fig. 5 that the utility model provides.

In figure, 11, support; 12, main spindle box; 21, motor one; 22, motor two; 23, motor three; 24, motor four; 25, motor five; 26, motor six; 3, emery wheel; 13, control panel; 41, guide rail one; 42, guide rail two; 43, slide two; 44, to tool rest; 51, slide one; 52, rotating seat; 53, collet chuck; 54, jointed shaft; 6, swivel plate; 61, rotating shaft; 71, driving wheel; 72, driving wheel; 8, cover cap; 9, transparent cover plate.

Detailed description of the invention

Be below specific embodiment of the utility model and 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 embodiments.

This milling cutter autogenous mill, as shown in Figures 2 and 3, comprise support 11, be located at the main spindle box 12 on support 11, be located at the emery wheel 3 driven by motor 1 in main spindle box 12 and the numerical control unit be located in main spindle box 12, motor 1 is connected with numerical control unit, main spindle box 12 has the control panel 13 be connected with numerical control unit, as shown in Figure 5 and Figure 6, support 11 is provided with motor 2 22 and guide rail 1, guide rail 1 is provided with the slide 1 along guide rail 1 movement under the effect of motor 2 22, slide 1 is hinged with rotating seat 52, as shown in Figure 2 and Figure 6, rotating seat 52 has the mounting cylinder driven by motor 3 23 for installing collet chuck 53, slide 1 is also provided with the motor 4 24 for driving rotating seat 52 to rotate around its pin joint, motor 2 22, motor 3 23 is connected with numerical control unit with motor 4 24, the drives structure for driving emery wheel 3 axially-movable is provided with in main spindle box 12.

In the present embodiment, control panel 13, can in this display screen observation real time data and input related data with display screen.Before the milling, confirm milling handle diameter, select suitable collet chuck 53 and set of knives, set of knives to be embedded in collet chuck 53 with suitable angle and passes through nut check, milling cutter is encased in set of knives, then the collet chuck 53 of set of knives is encased in mounting cylinder, by control panel 13, relevant parameter is set according to the length of milling cutter, diameter and angle.

As shown in Figure 5 and Figure 6, drives structure comprises the guide rail 2 42 arranged with emery wheel 3 axis being parallel be located on support 11, be located at the slide 2 43 on guide rail 2 42 and be located on support 11 for driving slide 2 43 along the motor 5 25 of guide rail 2 42 movement, emery wheel 3 and motor 1 are located on this slide 2 43, and motor 5 25 is connected with above-mentioned numerical control unit.

As shown in Figure 2, slide 2 43 is provided with tool rest 44, and this is positioned at the rear of emery wheel 3 to tool rest 44, is mainly used in tool setting, and sets milling cutter length.

As shown in Figures 2 and 3, support 11 is provided with the swivel plate 6 fitting in support 11 upper surface, guide rail 1 and motor 2 22 are located on this swivel plate 6, support 11 is equipped with the rotating shaft 61 that upper end and swivel plate 6 are connected, as shown in Figure 5 and Figure 6, the below of swivel plate 6 is provided with motor 6 26, and the output shaft of motor 6 26 is provided with worm screw one, the lower end of rotating shaft 61 has the worm gear one be equipped with this worm screw one, and motor 6 26 is connected with numerical control unit.This rotating shaft 61 is positioned at immediately below emery wheel 3, motor 6 26 drives output shaft rotation, worm screw one with under the effect of worm gear one, driven rotary axle 61 rotates, because the upper end of rotating shaft 61 and swivel plate 6 are connected, driven rotary plate 6 rotates in support 11 upper surface, thus drives mounting cylinder to rotate around emery wheel 3, and the angle of mounting cylinder and emery wheel 3 changes.

As shown in Figure 6, rotating seat 52 is hinged on slide 1 by jointed shaft 54, and the output shaft of motor 4 24 is provided with worm screw two, jointed shaft 54 is arranged with the worm gear two be equipped with worm screw two.Motor 4 24 rotates, and drive worm screw two to rotate, worm screw two coordinates with worm gear two, drives worm gear two to rotate, thus drives jointed shaft 54 to rotate, and realizes the rotation of rotating seat 52.

As shown in Figure 6, motor 3 23 and mounting cylinder be arranged in parallel, and mounting cylinder is arranged with driving wheel 71, the output shaft of motor 3 23 is arranged with driving wheel 72, driving wheel 72 is in transmission connection by belt and driving wheel 71.When motor 3 23 works, drive driving wheel 72 to rotate, driving wheel 72 is rotated by belt drive driving wheel 71, realizes the rotation of mounting cylinder, and final collet chuck 53 and the milling cutter of driving rotates.

As shown in Figure 1, support 11 is provided with cover cap 8, the front portion of cover cap 8 is provided with observation port, and observation port place is hinged with transparent cover plate 9.

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 amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (7)

1. a milling cutter autogenous mill, comprise support (11), be located at the main spindle box (12) on support (11), be located at the emery wheel (3) driven by motor one (21) in main spindle box (12) and the numerical control unit be located in main spindle box (12), described motor one (21) is connected with numerical control unit, described main spindle box (12) has the control panel (13) be connected with numerical control unit, it is characterized in that, described support (11) is provided with motor two (22) and guide rail one (41), described guide rail one (41) is provided with the slide one (51) along guide rail one (41) movement under the effect of motor two (22), described slide one (51) is hinged with rotating seat (52), described rotating seat (52) has the mounting cylinder driven by motor three (23) for installing collet chuck (53), described slide one (51) is also provided with the motor four (24) for driving rotating seat (52) to rotate around its pin joint, described motor two (22), motor three (23) is connected with numerical control unit with motor four (24), the drives structure for driving emery wheel (3) axially-movable is provided with in described main spindle box (12).

2. milling cutter autogenous mill according to claim 1, it is characterized in that, described drives structure comprises the guide rail two (42) arranged with emery wheel (3) axis being parallel be located on support (11), be located at the slide two (43) on guide rail two (42) and be located on support (11) for driving slide two (43) along the motor five (25) of guide rail two (42) movement, above-mentioned emery wheel (3) and motor one (21) are located on this slide two (43), and described motor five (25) is connected with above-mentioned numerical control unit.

3. milling cutter autogenous mill according to claim 2, is characterized in that, described slide two (43) is provided with tool rest (44).

4. milling cutter autogenous mill according to claim 1, it is characterized in that, described support (11) is provided with the swivel plate (6) fitting in support (11) upper surface, above-mentioned guide rail one (41) and motor two (22) are located on this swivel plate (6), described support (11) is equipped with the rotating shaft (61) that upper end and swivel plate (6) are connected, the below of described swivel plate (6) is provided with motor six (26), the output shaft of described motor six (26) is provided with worm screw one, the lower end of described rotating shaft (61) has the worm gear one be equipped with this worm screw one, described motor six (26) is connected with numerical control unit.

5. milling cutter autogenous mill according to claim 1, it is characterized in that, described rotating seat (52) is hinged on above-mentioned slide one (51) by jointed shaft (54), the output shaft of above-mentioned motor four (24) is provided with worm screw two, and described jointed shaft (54) is arranged with the worm gear two be equipped with worm screw two.

6. milling cutter autogenous mill according to claim 1, it is characterized in that, described motor three (23) be arranged in parallel with mounting cylinder, described mounting cylinder is arranged with driving wheel (71), the output shaft of described motor three (23) is arranged with driving wheel (72), and described driving wheel (72) is in transmission connection by belt and driving wheel (71).

7. milling cutter autogenous mill according to claim 1, is characterized in that, described support (11) is provided with cover cap (8), and the front portion of described cover cap (8) is provided with observation port, and described observation port place is hinged with transparent cover plate (9).