CN209970246U - Automatic hydraulic multi-face lathe damping device - Google Patents

Abstract

The utility model discloses an automatic hydraulic multi-face lathe damping device, which comprises a transmission damper, a limiting damper, a knife rest and an oil cylinder, wherein the transmission damper comprises a bolt, a telescopic baffle, a nut, a gasket, a disc baffle, a telescopic sleeve, a large spring, a plastic protective layer, a telescopic sleeve and a fixed plate, the tail part of the knife rest is welded on the convex side of the outer side wall of the telescopic baffle, the telescopic sleeve is welded on the concave side of the outer side wall of the telescopic baffle, the tail part of the outer side wall of the telescopic sleeve is inserted at the head end of the inner side wall of the telescopic sleeve, the tail part of the outer side wall of the telescopic sleeve is welded on the surface of the fixed plate, the middle part of the telescopic baffle is provided with a screw hole, the inner side wall of the screw hole is movably connected with the bolt, the transmission damper of the utility model can reduce the vibration generated, is suitable for wide popularization and application.

Description

Automatic hydraulic multi-face lathe damping device

Technical Field

The utility model relates to a damping device, in particular to automatic hydraulic pressure multiaspect lathe damping device.

Background

The bottom pillar of current automatic hydraulic pressure multiaspect lathe does not have damper, and the lathe is adding the vibrations that produce to different work pieces and is being different, the different knife rest of hydro-cylinder drive moves according to appointed order, can realize the automatic processing of work piece, the in-process that the drive knife rest removed can be because junction damping cylinder or guide rail are because of connecting imperfectly, not the integration, vibrations produce in the conduction process, the knife rest removes the processing material in-process and can be because of the knife rest overlength, the material size that produces unnecessary vibrations because of the action of gravity knife rest end in the transmission process and cause the processing produces the deviation, for this reason, we have proposed an automatic hydraulic pressure multiaspect lathe damping device.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an automatic hydraulic pressure multiaspect lathe damping device, the transmission bumper shock absorber can drive the telescope tube through big spring motion and slide at the telescope tube inside wall and absorb vibrations, transmit drive power to the knife rest through flexible fender version, it is imperfect because of junction damping cylinder or guide rail connection when lightening the motion of cylinder drive knife rest, not integration, produce vibrations in the conduction process, spacing bumper shock absorber can lighten partly vibrations through rubber package, the knife rest rocks the vibration of production and is conducted to the shock sleeve by a plurality of little springs, conduct to lathe workstation or ground by the fixed arm, alleviate the bigger and bigger vibration that rocks when driving because of the knife rest overlength from this and cause, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic hydraulic multi-face lathe damping device comprises a transmission damper, a limiting damper, a tool rest and an oil cylinder, wherein the transmission damper comprises a first bolt, a telescopic baffle, a first nut, a second nut, a gasket, a disc baffle, a telescopic sleeve, a large spring, a plastic protective layer, a telescopic sleeve and a fixing plate, the tail part of the tool rest is welded on the convex side of the outer side wall of the telescopic baffle, the telescopic sleeve is welded on the concave side of the outer side wall of the telescopic baffle, the tail part of the outer side wall of the telescopic sleeve is inserted at the head end of the inner side wall of the telescopic sleeve, the tail part of the outer side wall of the telescopic sleeve is welded on the surface of the fixing plate, the middle part of the telescopic baffle is provided with a first screw hole, the inner side wall of the first screw hole is movably connected with a first bolt, the head part of the outer side wall of a, the circular disc baffle is characterized in that a gasket is seamlessly connected to the convex side of the circular disc baffle, the gasket is connected with a second nut, a third nut is seamlessly connected to the center of the concave side of the outer side wall of the circular disc baffle, the concave side of the outer side wall of the circular disc baffle is connected with the top end of a large spring in a buckling mode, the tail portion of the large spring is welded to the surface of a fixed plate, a plastic protective layer wraps the outer side wall of the large spring, the limiting shock absorber comprises a shock absorption sleeve, a fixed arm, a second screw hole, a fixed base, a small spring, a rubber shock absorption layer and a second bolt, the outer side wall of the knife rest is wrapped with the rubber shock absorption layer, a plurality of small springs are bonded to the surface of the rubber shock absorption layer, the surface of the outer side wall of the knife rest is connected with the inner side wall of the shock absorption sleeve, the fixed base is movably connected with the machine tool through a second screw hole and a second bolt.

Further, the head of the first bolt is positioned on the convex side of the telescopic baffle.

Furthermore, No. two nuts, gasket and No. three nut all swing joint at a bolt screw rod lateral wall afterbody.

Furthermore, a screw hole is formed in the center of the disc baffle and is movably connected with the tail part of the outer side wall of the bolt screw.

Further, the large spring is located inside the telescopic sleeve.

Furthermore, the power output end of the oil cylinder is connected with the power input end of the tool rest through a transmission shock absorber, and the power output end of the outer side wall of the tool rest is connected with the power receiving end of the machine tool through a limiting shock absorber.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the transmission shock absorber can drive the telescopic sleeve to slide on the inner side wall of the telescopic sleeve through the movement of the large spring to absorb shock, the driving force is transmitted to the tool rest through the telescopic baffle, and the vibration generated in the transmission process due to imperfect connection of a damping cylinder or a guide rail at the joint when the tool rest is driven by the oil cylinder is reduced.

2. Spacing bumper shock absorber can alleviate partly vibrations through rubber package, and the vibration that the knife rest rocked the production is conducted to the shock attenuation sleeve by a plurality of little springs, is conducted to lathe workstation or ground by the fixed arm, rocks the bigger and bigger vibration that causes when alleviateing from this because of the knife rest overlength transmission.

3. The fixed base can be dismantled, does not need to dismantle when processing some work pieces, can fix the platform of any firm on lathe workstation or ground when needing, convenient and practical, and big spring is lived to plastic protection layer parcel, prevents that big spring from rustting, prolongs its life.

Drawings

Fig. 1 is the utility model discloses an automatic hydraulic pressure multiaspect lathe damping device's transmission bumper shock absorber overall structure sketch map.

Fig. 2 is the utility model relates to an automatic hydraulic pressure multiaspect lathe damping device's spacing bumper shock absorber overall structure sketch map.

Fig. 3 is the utility model discloses an automatic hydraulic pressure multiaspect lathe damping device's concave side structure sketch map of disc baffle.

Fig. 4 is the utility model discloses an automatic hydraulic pressure multiaspect lathe damping device's spacing bumper shock absorber section structure sketch map.

In the figure: 1. a tool holder; 2. a first bolt; 3. a telescopic baffle; 4. a first nut; 5. A second nut; 6. a gasket; 7. a disc baffle plate; 8. a telescopic sleeve; 9. a large spring; 10. A plastic protective layer; 11. a telescopic sleeve; 12. a fixing plate; 13. a shock-absorbing sleeve; 14. a fixed arm; 15. a second screw hole; 16. a fixed base; 17. a third nut; 18. a first screw hole; 19. a small spring; 20. a rubber shock-absorbing layer; 21. a second bolt; 22. a transmission damper; 23. limiting shock absorbers.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-4, an automatic hydraulic multi-face lathe damping device comprises a transmission damper 22, a limiting damper 23, a tool rest 1 and an oil cylinder, wherein the transmission damper 22 comprises a bolt 2, a telescopic baffle 3, a nut 4, a nut 5, a gasket 6, a disc baffle 7, a telescopic sleeve 8, a large spring 9, a plastic protective layer 10, a telescopic sleeve 11 and a fixing plate 12, the tail part of the tool rest 1 is welded on the convex side of the outer side wall of the telescopic baffle 3, the telescopic sleeve 8 is welded on the concave side of the outer side wall of the telescopic baffle 3, the tail part of the outer side wall of the telescopic sleeve 8 is inserted at the head end of the inner side wall of the telescopic sleeve 11, the tail part of the outer side wall of the telescopic sleeve 11 is welded on the surface of the fixing plate 12, a screw hole 18 is formed in the middle part of the telescopic baffle 3, the inner side wall of the screw hole 18 is movably connected with the bolt 2, and the head part The connection is sewed, bolt 2 screw rod lateral wall afterbody swing joint has disc baffle 7, disc baffle 7 convex side seamless connection has gasket 6, gasket 6 is connected with No. two nuts 5, disc baffle 7 lateral wall concave side center seamless connection has No. three nuts 17, disc baffle 7 lateral wall concave side buckle connection has big spring 9 top, the welding of big spring 9 afterbody is just on fixed plate 12 surface, big spring 9 lateral wall parcel has plastic protection layer 10, spacing bumper shock absorber 23 includes shock attenuation sleeve 13, fixed arm 14, No. two screw 15, unable adjustment base 16, little spring 19, rubber shock absorber layer 20 and No. two bolts 21, knife rest 1 lateral wall parcel has rubber shock absorber layer 20, rubber shock absorber layer 20 surface bonds has a plurality of little spring 19, knife rest 1 lateral wall surface is connected with the inside wall of shock attenuation sleeve 13 through rubber shock absorber layer 20 and little spring 19, the welding of shock attenuation sleeve 13 bottom has fixed arm 14, the welding of 14 bottoms of fixed arm has fixed base 16, No. two screw 15 and No. two bolt 21 swing joint have been seted up to fixed base 16 lateral wall, fixed base 16 is through No. two screw 15 and No. two bolt 21 and lathe swing joint.

In the embodiment, as shown in fig. 1, the transmission damper 22 can drive the telescopic sleeve 8 to slide on the inner side wall of the telescopic sleeve 11 through the movement of the large spring 9 to absorb shock, the driving force is transmitted to the tool rest 1 through the telescopic baffle 3, the imperfect connection and non-integration of a damping cylinder or a guide rail at a joint when the tool rest 1 is driven by the oil cylinder are reduced, shock is generated in the transmission process, the limit damper 23 can be wrapped by the rubber damping layer 20 to reduce a part of shock, the shock generated by the shaking of the tool rest is transmitted to the damping sleeve 13 through the small springs 19 and transmitted to the machine tool workbench or the ground through the fixing arm 14, so that the increasing shock caused by the overlong transmission of the tool rest 1 is reduced, the fixing base 16 can be detached, and if some workpieces are processed, the fixing base can be fixed to the machine tool workbench or any stable, convenient and practical, the plastic protection layer 10 wraps the large spring 9, the large spring 9 is prevented from rusting, and the service life of the large spring is prolonged.

Wherein, 2 heads of the first bolt are positioned on the convex side of the telescopic baffle 3.

In this embodiment, as shown in fig. 1, the fixing of the retractable barrier 3 is facilitated.

And the second nut 5, the gasket 6 and the third nut 17 are movably connected to the tail part of the outer side wall of the screw of the first bolt 2.

In this embodiment, as shown in fig. 1, the disc retainer 7 is fixed.

Wherein, the center of the disc baffle 7 is provided with a first screw hole 18, and the first screw hole 18 is movably connected with the tail part of the outer side wall of the screw of the first bolt 2.

In this embodiment, as shown in fig. 1, the disassembly is facilitated.

Wherein the large spring 9 is located inside the telescopic sleeve 11.

In this embodiment, as shown in fig. 1, the large spring 9 is convenient for transmitting the driving force through the telescopic sleeve 11.

The power output end of the oil cylinder is connected with the power input end of the tool rest 1 through a transmission shock absorber 22, and the power output end of the outer side wall of the tool rest 1 is connected with the power receiving end of a machine tool through a limiting shock absorber 23.

In this embodiment, as shown in fig. 1, the transmission damper 22 and the limit damper 23 are convenient for damping.

It should be noted that the utility model relates to an automatic hydraulic multi-face lathe damping device, during operation, the oil cylinder transmits the driving force to the fixed plate 12, the fixed plate 12 transmits the driving force to the large spring 9, the plastic protective layer 10 wraps the large spring 9 to prevent the large spring 9 from rusting, the service life of the automatic hydraulic multi-face lathe damping device is prolonged, the large spring 9 transmits the driving force to the disc baffle 7 after absorbing the vibration in a stretching way, the driving force is transmitted to the knife rest 1 through the bolt 2 and the telescopic baffle 3, the transmission damper 22 can drive the telescopic sleeve 8 to slide on the inner side wall of the telescopic sleeve 11 through the movement of the large spring 9 to absorb the vibration, the driving force is transmitted to the knife rest 1 through the telescopic baffle 3, the connection of the damping cylinder or the guide rail at the connection part is not perfect and not integrated when the oil cylinder drives the knife rest 1 to move, the vibration is generated in the transmission process, the knife rest 1 can work more, the fixed base 16 can be disassembled, if the fixed base is not required to be disassembled when processing some workpieces, the fixed base can be fixed on a machine tool workbench or any stable platform on the ground when needed, the tool rest 1 is convenient and practical, because of a certain length, in the driving force transmission process, the tail end is not fixed because of being suspended in the air, the shaking and the vibration are easily generated, the shaking and the vibration of the tail end are transmitted to the rubber shock absorption layer 20 tightly wrapping the tool rest 1 together, the rubber shock absorption layer 20 reduces a small part of the shaking and the vibration, the rest most of the shaking and the vibration are transmitted to the shock absorption sleeve 13 through a plurality of small springs 19 which are uniformly distributed, the fixed base 16 is transmitted to the stable platform to be fixed, the tool rest can work more accurately, the limiting shock absorber 23 can wrap the rubber shock absorption layer 20 to reduce a part of the vibration, the vibration generated by the shaking of the tool rest is transmitted to the shock absorption sleeve 13 through, this reduces the vibrations which are increasingly greater as a result of the tool holder 1 being shaken during an excessively long drive.

The utility model relates to an automatic hydraulic multi-face lathe damping device, which comprises a tool rest 1; 2. a first bolt; 3. a telescopic baffle; 4. a first nut; 5. A second nut; 6. a gasket; 7. a disc baffle plate; 8. a telescopic sleeve; 9. a large spring; 10. a plastic protective layer; 11. a telescopic sleeve; 12. a fixing plate; 13. a shock-absorbing sleeve; 14. A fixed arm; 15. a second screw hole; 16. a fixed base; 17. a third nut; 18. a first screw hole; 19. a small spring; 20. a rubber shock-absorbing layer; 21. a second bolt; 22. a transmission damper; 23. the limiting shock absorber and the components are all universal standard parts or components known by a person skilled in the art, and the structure and the principle of the limiting shock absorber are known by the person skilled in the art through technical manuals or through routine experiment methods.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. 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 (6)

1. The utility model provides an automatic hydraulic pressure multiaspect lathe damping device, includes transmission bumper shock absorber (22), spacing bumper shock absorber (23), knife rest (1) and hydro-cylinder, its characterized in that: drive bumper shock absorber (22) include bolt (2), telescopic baffle (3), nut (4), No. two nut (5), gasket (6), disc baffle (7), telescope tube (8), big spring (9), plastic protection layer (10), telescopic sleeve (11) and fixed plate (12), knife rest (1) afterbody welding is in telescopic baffle (3) lateral wall protruding side, telescopic sleeve (8) lateral wall recess side welding has telescopic sleeve (8), telescopic sleeve (8) lateral wall afterbody is pegged graft at telescopic sleeve (11) inside wall head end, telescopic sleeve (11) lateral wall afterbody welding is on fixed plate (12) surface, No. one screw hole (18) has been seted up at telescopic baffle (3) middle part, No. one screw hole (18) inside wall swing joint has bolt (2), bolt (2) screw rod lateral wall prelude swing joint has nut (4) and telescopic baffle (4), (4) and telescopic baffle (12) 3) The concave side is in seamless connection, the tail part of the screw rod outer side wall of the first bolt (2) is movably connected with a disc baffle plate (7), the convex side of the disc baffle plate (7) is in seamless connection with a gasket (6), the gasket (6) is connected with a second nut (5), the center of the concave side of the outer side wall of the disc baffle plate (7) is in seamless connection with a third nut (17), the concave side of the outer side wall of the disc baffle plate (7) is in buckle connection with the top end of a large spring (9), the tail part of the large spring (9) is welded on the surface of a fixing plate (12), the outer side wall of the large spring (9) is wrapped with a plastic protective layer (10), the limiting shock absorber (23) comprises a shock absorption sleeve (13), a fixing arm (14), a second screw hole (15), a fixing base (16), a small spring (19), a rubber shock absorption layer (20) and a second, rubber shock absorber layer (20) surface bonding has a plurality of little springs (19), knife rest (1) lateral wall surface is connected with the inside wall of shock attenuation sleeve (13) through rubber shock absorber layer (20) and little spring (19), shock attenuation sleeve (13) bottom welding has fixed arm (14), fixed arm (14) bottom welding has unable adjustment base (16), No. two screw holes (15) and No. two bolt (21) swing joint have been seted up to unable adjustment base (16) lateral wall, unable adjustment base (16) are through No. two screw holes (15) and No. two bolt (21) and lathe swing joint.

2. The automatic hydraulic multi-face lathe damping device according to claim 1, wherein: the head of the first bolt (2) is positioned on the convex side of the telescopic baffle (3).

3. The automatic hydraulic multi-face lathe damping device according to claim 1, wherein: no. two nut (5), gasket (6) and No. three nut (17) equal swing joint are in bolt (2) screw rod lateral wall afterbody.

4. The automatic hydraulic multi-face lathe damping device according to claim 1, wherein: a screw hole (18) is formed in the center of the disc baffle (7), and the screw hole (18) is movably connected with the tail part of the outer side wall of a screw of the first bolt (2).

5. The automatic hydraulic multi-face lathe damping device according to claim 1, wherein: the large spring (9) is positioned inside the telescopic sleeve (11).

6. The automatic hydraulic multi-face lathe damping device according to claim 1, wherein: the power output end of the oil cylinder is connected with the power input end of the tool rest (1) through a transmission shock absorber (22), and the power output end of the outer side wall of the tool rest (1) is connected with the power receiving end of the machine tool through a limiting shock absorber (23).

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