CN204700614U - Wind-force elasticity self-feed formula is vertically to lathe - Google Patents

Abstract

The utility model provides a kind of wind-force elasticity self-feed formula vertically to comprise fixed block to lathe, cylinder is processed with poroid vertically to through wind-force track in described fixed block, slidably air inlet pipe is equipped with up and down in described wind-force track, described air inlet pipe bottom is equipped with and drives from inner air intake the wind wheel rotated, described wind wheel circumference is evenly equipped with vertical blade, the bottom of described wind wheel is fixedly equipped with cutter chuck, and described cutter chuck is equipped with cutting tool.This lathe realizes the transmission of power by wind-force, so only needs the pipeline that can pass into high pressure draught to complete transmission, and structure is more simple, and in the process of cutting, cutting tool can elasticity withstand on downwards on workpiece, can not disfiguring workpiece.Stop operating even if cutter is stuck, drive apparatus also can not generate heat along bad.

Description

Wind-force elasticity self-feed formula is vertically to lathe

Technical field

The present invention is lathe equipments technical field, especially relates to a kind of wind-force elasticity self-feed formula vertically to lathe.

Background technology

The lathe of cutting type normally utilizes harder than object, sharper keen instrument by the mode of rotary cutting or rotary squeezing, cutting workpiece on the surface of object, workpiece is made to reach the appearance and size wanted, the lathe of cutting type uses widely, except the processing of traditional machinery production, building, carpenter's production, jade processing etc. all need to use these lathes.Present lathe is all use motor as dynamical element, the transmission to cutting or boring cutter head is realized by traditional structures such as gear, chain, belts, these drive mechanisms have larger power attenuation in the process of transmission, simultaneously in order to make these transmission mechanisms can along work, need drive mechanism to add comparatively perfect lubricating structure.Make to be used in traditional drive mechanism cost on lathe so comparatively high.Lathe traditional in addition uses motor as power source, need comparatively stable transmission process, part carries out in the process of processing, once cutting output is excessive or the impact of other events causes the interruption of transmission, motor is very easily burned, and in traditional cutting way, cutter tip is easy to be crumbled.

Summary of the invention

For above-mentioned problem, the object of the present invention is to provide a kind of use wind power transmission wind, drive cutting head to rotate by air-flow, cutting tool can from the wind-force elasticity self-feed formula of main regulation chip dynamics vertically to lathe.

The technical solution adopted for the present invention to solve the technical problems is: this wind-force elasticity self-feed formula vertically comprises fixed block to lathe, cylinder is processed with poroid vertically to through wind-force track in described fixed block, slidably air inlet pipe is equipped with up and down in described wind-force track, described air inlet pipe bottom is equipped with and drives from inner air intake the wind wheel rotated, described wind wheel circumference is evenly equipped with vertical blade, the bottom of described wind wheel is fixedly equipped with cutter chuck, and described cutter chuck is equipped with cutting tool.

This wind-force elasticity self-feed formula vertically accesses charge air flow to lathe by the wind-force track of described fixed block, charge air flow is by wind-force track, air inlet pipe blows into from the inside of wind wheel, by the windbreak design of wind wheel blade, air-flow is blowed to outside process from the inside of wind wheel and promotes wind wheel rotation, described like this wind wheel just can drive the cutting tool of bottom to rotate by cutter chuck, thus the workpiece being positioned over cutting tool bottom is processed, the processing mode of this lathe enters air-flow by described fixed block, by the described wind-engaging rotational structure utilizing described wind wheel, carry its tools chuck and cutter rotate, complete cutting.

As preferably, described wind wheel top is assembled mutually by bearing and described air inlet pipe outer wall, the inwall of described wind-force track is designed with vertical chute, and the top of described air inlet pipe is fixed with level and stretches out the limited block be slidably assemblied in described chute, and described chute is designed with limited step.

As preferably, described wind wheel also includes the upper plate of toroidal, the lower plate of disc-shape; The external diameter of described upper plate, lower plate is equal, and the internal diameter of described upper plate is equal with the internal diameter of described air inlet pipe; Described blade is vertically to being distributed between described upper plate, lower plate, and the outside of described blade and the outer of described upper plate flush, and the inner side of described blade and the interior edge of described upper plate flush.

As preferably, the upper design of described lower plate has from blade interior side contacts position along axis projection upwards.

As preferably, the top of described fixed block is fixedly connected with funnel shaped air inlet bucket, and the opening of the bottom of described air inlet bucket is connected with described the suitable for reading of wind-force track; The ventricumbent supply fan of blowing is equipped with above described air inlet bucket.

As preferably, described cutting tool is drill bit.

Beneficial effect of the present invention is: this lathe realizes the transmission of power by wind-force, the pipeline that can pass into high pressure draught is so only needed to complete transmission, structure is simpler, it is less that energy loss in transmission process compares traditional machine driving, described air inlet pipe can slide up and down and be assemblied in described wind-force track simultaneously, cutting tool cutting tool in the process of cutting can elasticity be withstood on downwards on workpiece, simultaneously when downward stressed excessive of cutting tool, described air inlet pipe upward sliding, described cutting tool can by elasticity upwards jack-up, effectively prevent cutting tool from damaging.And owing to being wind power transmission wind, even if cutting tool is stuck and stops operating, drive apparatus also can not generate heat along bad.

Accompanying drawing explanation

Fig. 1 be should wind-force elasticity self-feed formula vertically to the structural representation of lathe forward section.

Fig. 2 is the syndeton schematic diagram of air inlet pipe and wind wheel.

Fig. 3 is the structural representation that wind wheel overlooks direction.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described:

As shown in embodiment in Fig. 1 and Fig. 2, this wind-force elasticity self-feed formula is vertically to lathe, and it comprises fixed block 1, and described fixed block 1 is fixedly connected with by the fixed mount of lathe.Cylinder is processed with poroid vertically to through wind-force track 11 in described fixed block 1, air inlet pipe 2 is slidably equipped with up and down in described wind-force track 11, described air inlet pipe 2 bottom is equipped with and drives from inner air intake the wind wheel 3 rotated, described wind wheel 3 circumference is evenly equipped with vertical blade 31, the bottom of described wind wheel 31 is fixedly equipped with cutter chuck 4, and described cutter chuck 4 is equipped with cutting tool 5.

As shown in Figure 1, this wind-force elasticity self-feed formula vertically accesses charge air flow to lathe by the wind-force track 11 of described fixed block 1, and this lathe can design special wind generators structure thereon, also directly can access airflow pipeline.Charge air flow in described wind-force track 11 is by wind-force track 11, air inlet pipe 2 blows into from the inside of wind wheel 3, by the windbreak design of wind wheel 3 blade 31, air-flow is blowed to from the inside of wind wheel 3 outside process, promote wind wheel 3 to rotate, described like this wind wheel 3 just can drive the cutting tool 5 of bottom to rotate by cutter chuck 4, thus the workpiece being positioned over cutting tool 5 bottom is processed, the processing mode of this lathe enters air-flow by described fixed block 1, by the described wind-engaging rotational structure utilizing described wind wheel 3, carry its tools chuck 4 and cutter 5 rotate, complete cutting.

This lathe realizes the transmission of power by wind-force, the pipeline that can pass into high pressure draught is so only needed to complete transmission, structure is simpler, it is less that energy loss in transmission process compares traditional machine driving, described air inlet pipe 2 can slide up and down and be assemblied in described wind-force track 11 simultaneously, cutting tool 5 cutting tool 5 in the process of cutting can elasticity be withstood on downwards on workpiece, simultaneously when downward stressed excessive of cutting tool 5, described air inlet pipe 2 upward sliding, described cutting tool 5 can, by elasticity upwards jack-up, effectively prevent cutting tool 5 from damaging.And owing to being wind power transmission wind, even if cutting tool 5 is stuck stop operating, drive apparatus also can not generate heat along bad.

Specifically, as depicted in figs. 1 and 2, described wind wheel 3 top is assembled mutually by bearing 6 and described air inlet pipe 2 outer wall, the inwall of described wind-force track 11 is designed with vertical chute 12, the top of described air inlet pipe 2 is fixed with level and stretches out the limited block 21 be slidably assemblied in described chute 12, and described chute 12 is designed with limited step.It is spacing that the design of described like this chute 12 and limited block 21 effectively can carry out circumference to described air inlet pipe 2, prevent it from rotating in a circumferential direction, moving up and down of air inlet pipe 2 can be ensured again simultaneously, described limited step and wind-force track 11 inwall are designed to flush and make air-tightness better so in this embodiment, and windage loss is less.Connected by bearing 6, the less capacity usage ratio of frictional force relatively rotated is higher.

As shown in Figures 2 and 3, described wind wheel 3 also includes the upper plate 32 of toroidal, the lower plate 33 of disc-shape; The external diameter of described upper plate 32, lower plate 33 is equal, and the internal diameter of described upper plate 32 is equal with the internal diameter of described air inlet pipe 2; Described blade 31 is vertically to being distributed between described upper plate 32, lower plate 33, and the outside of described blade 31 and the outer of described upper plate 32 flush, and the inner side of described blade 31 and the interior edge of described upper plate 32 flush.This structure make the air intake of described air inlet pipe 2 can along power through described upper plate 32, be blown between upper and lower plates face, then because described lower plate 33 stops, wind blown out from the circumference of described wind wheel 3.The inner side tangent line of described blade 31 points to the linear position of described air inlet pipe, and the lateral outside sweep of described blade 31, makes described blade 31 have larger wind-engaging ability, can produce larger moment of torsion.

As shown in Figures 2 and 3, the upper design of described lower plate 33 has from blade 31 interior side contacts position along axis projection 34 upwards.Described protruding 34 well can lead to the air-flow entered from described air inlet pipe 2, make air-flow be more prone to blow out to circumference.

As shown in Figure 1, the top of described fixed block 1 is fixedly connected with funnel shaped air inlet bucket 7, and the opening of the bottom of described air inlet bucket 7 is connected with described the suitable for reading of wind-force track 11; The ventricumbent supply fan 8 of blowing is equipped with above described air inlet bucket 7.Described supply fan 8 can blow to described air inlet bucket by directly carrying out exhausting, by the gathering of described air inlet bucket 7, can produce larger blast.This structure is simply easy to implement, between be used on this lathe, just do not need external origin, it is more convenient to use.

As depicted in figs. 1 and 2, described cutting tool 5 is drill bit.This lathe is drilling machine like this, this drilling machine when in use can directly by workpiece by cutting tool 5 i.e. drill bit upwards jack-up, at this moment the downward force that is subject to of described cutting tool 5 is constant.Whole boring procedure cutting movement can be made so more even, and drilling effect is better.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (6)

1. a wind-force elasticity self-feed formula is vertically to lathe, it is characterized in that: it comprises fixed block (1), cylinder is processed with poroid vertically to through wind-force track (11) in described fixed block (1), air inlet pipe (2) is slidably equipped with up and down in described wind-force track (11), described air inlet pipe (2) bottom is equipped with and drives from inner air intake the wind wheel (3) rotated, described wind wheel (3) circumference is evenly equipped with vertical blade (31), the bottom of described wind wheel (3) is fixedly equipped with cutter chuck (4), described cutter chuck (4) is equipped with cutting tool (5).

2. wind-force elasticity self-feed formula according to claim 1 is vertically to lathe, it is characterized in that: described wind wheel (3) top is assembled with described air inlet pipe (2) outer wall mutually by bearing (6), the inwall of described wind-force track (11) is designed with vertical chute (12), the top of described air inlet pipe (2) is fixed with level and stretches out the limited block (21) be slidably assemblied in described chute (12), and (12) are designed with limited step with described chute.

3. wind-force elasticity self-feed formula according to claim 1 is vertically to lathe, it is characterized in that: described wind wheel (3) also includes the upper plate (32) of toroidal, the lower plate (33) of disc-shape; The external diameter of described upper plate (32), lower plate (33) is equal, and the internal diameter of described upper plate (32) is equal with the internal diameter of described air inlet pipe (2); Described blade (31) is vertically to being distributed between described upper plate (32), lower plate (33), the outside of described blade (31) and the outer of described upper plate (32) flush, and the inner side of described blade (31) and the interior edge of described upper plate (32) flush.

4. wind-force elasticity self-feed formula according to claim 3 is vertically to lathe, it is characterized in that: the upper design of described lower plate (33) has from blade (31) interior side contacts position along axis projection (34) upwards.

5. wind-force elasticity self-feed formula according to claim 1 is vertically to lathe, it is characterized in that: the top of described fixed block (1) is fixedly connected with funnel shaped air inlet bucket (7), the opening of the bottom of described air inlet bucket (7) and suitable for reading being connected of described wind-force track (11); Described air inlet bucket (7) top is equipped with the ventricumbent supply fan of blowing (8).

6. wind-force elasticity self-feed formula according to claim 1 is vertically to lathe, it is characterized in that: described cutting tool (5) is drill bit.