CN210081302U - Numerical control lathe that shock resistance is good - Google Patents

Abstract

The utility model discloses a numerical control lathe that shock resistance is good, including unable adjustment base, the last fixed connection foot that is provided with of unable adjustment base, the last lathe base that is provided with of fixed connection foot, unable adjustment base side all around is provided with the base connecting plate, the base connecting plate passes through the shock attenuation and connects foot and lathe base activity and link to each other, unable adjustment base turning position all around is provided with the fixed foot, the last quick-witted case that is provided with of lathe base, the intermediate position is provided with the workstation in the top on the machine case. A numerical control lathe that shock resistance is good, through the base connecting plate that sets up on unable adjustment base, be provided with the shock attenuation between base connecting plate and the lathe base and connect the foot, connect the foot through the shock attenuation and weaken the all around vibrations power that produces in the numerical control lathe course of work, set up the oblique notch through lieing in cutter side position on the workstation, avoid piling up with rubbish roll-off such as waste material that the cutter work produced.

Description

Numerical control lathe that shock resistance is good

Technical Field

The utility model relates to a numerical control lathe field, in particular to numerical control lathe that shock resistance is good.

Background

The numerical control lathe is an indispensable important component in modern social industrial production, the machining efficiency and the quality of industrial parts are greatly improved, the vibration problem of the numerical control lathe is indispensably involved in the use process of the numerical control lathe, excessive vibration can cause errors of the machined parts of the tool in the machining process and damage to the service life of the numerical control lathe, and how to reasonably and effectively reduce the vibration amplitude in the use process of the numerical control lathe is a problem which needs to be considered.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a numerically controlled lathe with good shock resistance, which can effectively solve the problems in the background art.

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

the utility model provides a numerical control lathe that shock resistance is good, includes unable adjustment base, the last fixed connection foot that is provided with of unable adjustment base, be provided with lathe base on the fixed connection foot, unable adjustment base side all around is provided with the base connecting plate, the base connecting plate passes through the shock attenuation and connects foot and lathe base activity and link to each other, unable adjustment base turning position all around is provided with fixed foot, the last quick-witted case that is provided with of lathe base, the middle position in top on the quick-witted case is provided with the workstation, be provided with the cutter on the workstation, it is provided with anchor clamps to lie in cutter side position on the workstation, it is provided with oblique notch to lie in cutter side position on the workstation, top one side of machine case.

Preferably, the fixed foot is arc-shaped, the fixed foot and the fixed base are fixedly installed by welding, two fixed screw holes are formed in the fixed foot and the fixed base, the fixed foot is fixedly installed on the ground by the fixed screw, and the fixed connection foot is installed between the fixed base and the lathe base by welding.

Preferably, threaded connecting columns are arranged on the periphery of the bottom side of the lathe base and the left and right positions of the inner side of the base connecting plate corresponding to the shock absorption connecting pins, and the bottom of the base connecting plate is fixedly installed on the fixed base through welding.

Preferably, the shock attenuation connecting pin includes cylinder card shell, built-in spring, external spring, built-in pillar, pillar nut, the cylinder card shell is inside hollow cylinder, and its inside one end is carved with built-in screw thread, and the other end sets up the disc dop, pillar screw thread is carved with to built-in pillar one end, pillar nut one side is provided with the indent but the not penetrable thread groove.

Preferably, be provided with built-in pillar in the cylinder card shell, the disc dop that the cylinder card shell was stretched out to built-in pillar's one end that is carved with built-in screw thread, and stretch into its inboard movable mounting through the disc dop of another cylinder card shell has a pillar nut, be provided with external spring between the disc dop of cylinder card shell and cylinder card shell, built-in pillar pierces through external spring, the top of built-in pillar and pillar nut in the cylinder card shell is provided with built-in spring, the cylinder card shell is through built-in screw thread and the screw thread spliced pole movable mounting of the inboard other end.

Preferably, a cover plate is arranged on the upper surface of the inclined groove opening, the cover plate is movably arranged on the inclined groove opening through a hinge, and the outlet position of the inclined groove opening is located at the position below the workbench at the front surface of the numerical control lathe.

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

the utility model discloses in, through set up the pedestal connection board on unable adjustment base side all around, movable mounting has the shock attenuation to connect the foot between lathe base and the pedestal connection board, can effectually weaken the all around vibrations that numerical control lathe produced in the course of processing parts and produce the vibration power, reduces numerical control lathe's vibration range, through the oblique notch that the side door that lies in the cutter on the instrument desk sets up, can follow oblique notch roll-off with rubbish at the in-process of numerical control lathe processing part.

Drawings

FIG. 1 is a schematic view of the overall structure of a numerically controlled lathe with good shock resistance according to the present invention;

FIG. 2 is a schematic view of each part of the shock-absorbing connecting pin of the numerically controlled lathe with good shock resistance;

FIG. 3 is an overall schematic view of the shock-absorbing connecting pin of the numerically controlled lathe of the present invention with good shock resistance;

fig. 4 is a front schematic view of the base connecting plate of the numerically controlled lathe of the present invention with good shock resistance.

In the figure: 1. a fixed base; 2. a shock-absorbing connecting pin; 3. a fixing leg; 4. a lathe base; 5. a base connection plate; 6. a work table; 7. a clamp; 8. a cutter; 9. a controller; 10. a chassis; 11. a set screw; 12. fixing screw holes; 13. a threaded connection post; 14. internally arranging a thread; 15. a disc chuck; 16. a cylindrical clamping shell; 17. a built-in spring; 18. an external spring; 19. a built-in strut; 20. a strut thread; 21. a post nut; 22. a strut thread; 23. a beveled slot opening; 24. a hinge; 25. a cover plate; 26. and the connecting pins are fixedly connected.

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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-4, a numerically controlled lathe with good shock resistance comprises a fixed base 1, wherein a fixed connection pin 26 is arranged on the fixed base 1, a lathe base 4 is arranged on the fixed connection pin 26, base connection plates 5 are arranged on the peripheral sides of the fixed base 1, the base connection plates 5 are movably connected with the lathe base 4 through shock absorption connection pins 2, fixing pins 3 are arranged at the peripheral corner positions of the fixed base 1, a machine box 10 is arranged on the lathe base 4, a workbench 6 is arranged at the middle position of the top of the machine box 10, a cutter 8 is arranged on the workbench 6, a clamp 7 is arranged at the position of the side of the cutter 8 on the workbench 6, an inclined notch 23 is arranged at the position of the side of the cutter 8 on the workbench 6, and a controller 9 is arranged on one side of.

The fixing foot 3 is in a circular arc shape, the fixing foot 3 and the fixed base 1 are fixedly installed through welding, two fixing screw holes 12 are arranged on the fixing foot 3, the fixing foot 3 is fixedly installed on the ground through a fixing screw 11, the fixed connecting foot 26 is installed between the fixed base 1 and the lathe base 4 through welding, threaded connecting columns 13 are arranged on the periphery of the bottom side of the lathe base 4 and the inner side of the base connecting plate 5 corresponding to the left and right positions of the damping connecting foot 2, the bottom of the base connecting plate 5 is fixedly installed on the fixed base 1 through welding, the damping connecting foot 2 comprises a cylindrical clamping shell 16, an internal spring 17, an external spring 18, an internal supporting column 19 and a supporting column nut 21, the cylindrical clamping shell 16 is a cylinder with a hollow inner part, the internal thread 14 is carved at one end of the cylindrical clamping shell, a disc clamping head 15 is arranged at the other end of the cylindrical clamping shell, a supporting column thread, an internal support column 19 is arranged in the cylindrical clamping shell 16, one end, engraved with an internal thread 14, of the internal support column 19 extends out of a disc chuck 15 of the cylindrical clamping shell 16, a support column nut 21 is movably mounted on the inner side of the disc chuck 15 extending into the cylindrical clamping shell 16 through another disc chuck 15 of the cylindrical clamping shell, an external spring 18 is arranged between the cylindrical clamping shell 16 and the disc chuck 15 of the cylindrical clamping shell 16, the internal support column 19 penetrates through the external spring 18, an internal spring 17 is arranged above the internal support column 19 and the support column nut 21 in the cylindrical clamping shell 16, the cylindrical clamping shell 16 is movably mounted with the thread connecting column 13 through the internal thread 14 on the other end of the inner side, a cover plate 25 is arranged on the inclined notch 23, the cover plate 25 is movably mounted on the inclined notch 23 through a hinge 24, and the outlet position of the inclined notch 23.

It should be noted that the utility model relates to a numerical control lathe with good shock resistance, through setting up the base connecting plate 5 at the side around the fixed base 1, through shock attenuation connecting pin 2 movable mounting between the two, when numerical control lathe produces vibrations all around in the course of working, can transmit the power to shock attenuation connecting pin 2, be provided with external spring 18 between two cylindrical card shells 16 on shock attenuation connecting pin 2, be provided with built-in spring 17 between threaded connection post 13 and built-in pillar 19, be provided with built-in spring 17 between threaded connection post 13 and pillar nut 21 equally, when shock attenuation connecting pin 2 atress, the threaded connection post 13 that links to each other in shock attenuation connecting pin 2 outwards compresses, built-in spring 17 and external spring 18 can inwards compress, base connecting plate 5 atress this moment, after the power consumption, threaded connection post 13 that links to base connecting plate 5 can give built-in spring 17 and external spring 18 a pressure, the inner spring 17 and the outer spring 18 will expand and reset, and the vibration force transmitted by the numerically controlled lathe is continuously consumed through the compression and the reset of the inner spring 17 and the outer spring 18 when the next action of force is waited, the vibration of the numerical control lathe in front, back, left and right can be effectively weakened, the numerical control lathe is prevented from generating large vibration to damage the numerical control lathe, the side surface of the workbench 6 positioned on the cutter 8 is provided with the inclined notch 23, when the cutter 8 starts to work, the cover plate 25 can be opened to let the wastes such as the waste materials generated in the process of processing the parts by the cutter 8 fall into the inclined notch 23, the outlet position of the inclined notch 23 is arranged at the side position of the front surface of the numerical control lathe below the workbench 6, can with rubbish roll-off such as waste material, reduce rubbish such as waste material and pile up on workstation 6, reduce the staff and clean workstation 6, improve work efficiency.

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 embodiments described above, but rather is described in the embodiments and descriptions herein to illustrate the principles of the invention and that various changes and modifications may be made without departing from the spirit and scope of the invention, all of which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a numerical control lathe that shock resistance is good which characterized in that: comprises a fixed base (1), wherein fixed connecting feet (26) are arranged on the fixed base (1), a lathe base (4) is arranged on the fixed connecting feet (26), base connecting plates (5) are arranged on the peripheral side surfaces of the fixed base (1), the base connecting plates (5) are movably connected with the lathe base (4) through shock absorption connecting feet (2), fixing feet (3) are arranged at the peripheral corner positions of the fixed base (1), a machine box (10) is arranged on the lathe base (4), a workbench (6) is arranged at the middle position of the top of the machine box (10), a cutter (8) is arranged on the workbench (6), a clamp (7) is arranged at the position of the side of the cutter (8) on the workbench (6), an inclined notch (23) is arranged at the position of the side of the cutter (8) on the workbench (6), and a controller (9) is arranged on one side of the top of the case (10).

2. The numerically controlled lathe with good shock resistance according to claim 1, wherein: fixed foot (3) are the circular arc shape, fixed foot (3) and unable adjustment base (1) are through welded fastening installation, and the higher authority is provided with two fixed screw holes (12), fixed foot (3) are through set screw (11) in ground fixed mounting, fixed connection foot (26) are through between welded mounting and unable adjustment base (1) and lathe base (4).

3. The numerically controlled lathe with good shock resistance according to claim 1, wherein: the lathe base is characterized in that threaded connecting columns (13) are arranged on the periphery of the bottom side of the lathe base (4) and the left and right positions of the inner side of the base connecting plate (5) corresponding to the shock absorption connecting pins (2), and the bottom of the base connecting plate (5) is fixedly installed on the fixed base (1) through welding.

4. The numerically controlled lathe with good shock resistance according to claim 1, wherein: shock attenuation connection foot (2) include cylinder card shell (16), built-in spring (17), external spring (18), built-in pillar (19), pillar nut (21), cylinder card shell (16) are inside hollow cylinder, and its inside one end is carved with built-in screw thread (14), and the other end sets up disc dop (15), pillar screw thread (20) are carved with to built-in pillar (19) one end, pillar nut (21) one side is provided with indent but not penetrable thread groove (22).

5. The numerically controlled lathe with good shock resistance according to claim 4, wherein: be provided with built-in pillar (19) in cylinder card shell (16), built-in pillar (19) are carved with disc dop (15) that the one end of built-in screw thread (14) stretches out cylinder card shell (16), and stretch into its inboard movable mounting through disc dop (15) of another cylinder card shell (16) have pillar nut (21), be provided with external spring (18) between disc dop (15) of cylinder card shell (16) and cylinder card shell (16), built-in pillar (19) pierce through external spring (18), the top of built-in pillar (19) of cylinder card shell (16) and pillar nut (21) is provided with built-in spring (17), built-in screw thread (14) and screw thread spliced pole (13) movable mounting of cylinder card shell (16) through the inboard other end.

6. The numerically controlled lathe with good shock resistance according to claim 1, wherein: a cover plate (25) is arranged on the upper surface of the inclined notch (23), the cover plate (25) is movably mounted on the inclined notch (23) through a hinge (24), and the outlet position of the inclined notch (23) is located at the position below the workbench (6) on the front surface of the numerically controlled lathe.

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