CN114770226A - Interpolation Y-axis-based adjustable triangular support stable turning and milling composite structure - Google Patents

Abstract

The invention discloses an adjustable triangular support stable turning and milling composite structure based on an interpolation Y axis, which comprises a transverse moving assembly, wherein an inclined interpolation Y axis moving assembly is arranged on the transverse moving assembly, a telescopic triangular support structure is arranged between the transverse moving assembly and the inclined interpolation Y axis moving assembly, and a limiting locking mechanism for limiting the movement of the telescopic triangular support structure is arranged between the telescopic triangular support structure and the transverse moving assembly, so that the situation that the traditional Y axis is arranged perpendicular to the X axis is avoided, the formation of a cantilever state is avoided, the situation of tool shaking is reduced, and the processing precision is improved; x axle and interpolation Y axle are provided with triangular support bar structure between at the moving direction accommodation process, can improve holistic stability, prevent the cantilever state, make the A-frame structure possess adaptability, and locking A-frame structure that simultaneously can also be quick prevents to take place to warp after X axle and interpolation Y axle stop moving.

Description

Adjustable triangular support stable turn-milling composite structure based on interpolation Y axis

Technical Field

The invention relates to a horizontal turn-milling conforming numerical control lathe, in particular to an adjustable triangular support stable turn-milling composite structure based on an interpolation Y axis.

Background

The vertical Y axis that traditional horizontal turn-milling accords with among the numerical control lathe is subject to its vertical column structure, and the atress is very unreasonable, forms the cantilever very easily and supports, influences the machining precision, and secondly exactly the turret rigidity is not enough, shakes the sword easily during processing, and consequently traditional X axle and Y axle set up stability perpendicularly relatively poor, and the machining precision is not enough, and X axle and Y axle form the cantilever and support and lead to life-span reduction easily.

Therefore, the existing horizontal turn-milling machine meets the requirement of further improvement of a numerical control lathe.

Disclosure of Invention

The invention aims to provide an adjustable triangular support stable turn-milling composite structure based on an interpolation Y axis, which can set a traditional vertical Y axis as an inclined interpolation Y axis, meanwhile, a triangular support structure is arranged between the X axis and the X axis in the moving process of an interpolation Y axis moving assembly, the stability is improved, the cantilever support condition is prevented, and meanwhile, the size of the triangular support changes along with the change of the moving distance in the X axis direction and the moving distance in the interpolation Y axis direction.

In order to achieve the purpose, the invention adopts the following scheme:

the utility model provides a but compound structure of stable turnning and milling of adjustable triangular supports based on interpolation Y axle, includes the sideslip subassembly, be provided with slope interpolation Y axle moving part on the sideslip subassembly, the sideslip subassembly with be provided with scalable triangular supports structure between the slope interpolation Y axle moving part, scalable triangular supports structure with be provided with between the sideslip subassembly and be used for the restriction scalable triangular supports structure activity's spacing locking mechanism, be provided with the turnning and milling device on the slope interpolation Y axle moving part.

Furthermore, the sideslip subassembly includes the base, be provided with X axle removal track on the base, be provided with X axle removal module on the X axle removal track.

Further, the included angle between the oblique interpolation Y-axis moving assembly and the transverse moving assembly is 30-60 degrees.

Furthermore, the oblique interpolation Y-axis moving assembly comprises an installation module arranged on the X-axis moving module, an interpolation Y-axis oblique track is arranged on the installation module, and an interpolation Y-axis moving module is arranged on the interpolation Y-axis oblique track.

Furthermore, the telescopic triangular support structure comprises X axial guide grooves formed in two sides of the X-axis moving module, two X axial guide sliders are arranged in the X axial guide grooves at intervals in the left and right direction, one of the X axial guide sliders is arranged below the interpolation Y-axis moving module and provided with a vertical guide sleeve assembly on the surface, the other X axial guide slider is arranged below one side of the interpolation Y-axis moving module and provided with an oblique guide sleeve assembly on the surface, a vertical stabilizing shaft body fixedly connected with the surface of the interpolation Y-axis moving module is movably arranged in the vertical guide sleeve assembly, and an oblique stabilizing shaft body fixedly connected with the surface of the interpolation Y-axis moving module is movably arranged in the oblique guide sleeve assembly.

Further, a triangular support area is formed among the vertical stable shaft body, the oblique stable shaft body and the X-axis moving module.

Furthermore, the limiting locking mechanism comprises locking structures arranged on the oblique stable shaft body and the vertical stable shaft body, a driving assembly is arranged on the X-axis moving module, and a transverse line maintaining linkage mechanism which is used for controlling the locking structures to work through the driving assembly in the moving process of the interpolation Y-axis moving module is arranged between the locking structures and the driving assembly.

Further, drive assembly including set up in two positive electromagnetic plates on the X axle removes the module, the positive electromagnetic plate outside is provided with reverse electromagnetic plate, positive electromagnetic plate with be provided with the magnet board between the reverse electromagnetic plate, the magnet board surface extends outward and is provided with the drive axis body.

Furthermore, the transverse wire holding linkage mechanism comprises two transverse guide grooves connected to two sides of the driving assembly, and the two transverse guide grooves are mutually opened or closed under the driving of the driving assembly;

the transverse guide groove comprises a drive plate, the surface of the drive plate is along the transverse direction of the drive plate, an internal rectangular guide groove is formed in the transverse direction of the drive plate, a connecting groove is formed in the side wall of the drive plate and between the internal rectangular guide grooves, a rectangular sliding block is movably arranged in the internal rectangular guide groove, the surface of the rectangular sliding block is provided with a trigger shaft penetrating through the connecting groove, and the trigger shaft is used for controlling the locking structure to work.

Further, the locking structure including set up in the axis body both sides are stabilized to the slant and the vertical stable axis body both sides respectively are provided with the locking slide rail, the activity is provided with the locking slider in the locking slide rail, be provided with on the locking slider be used for paste tightly in the friction disc of the surface friction power increase of the axis body is stabilized to the slant or vertical stable axis body, be provided with first articulated shaft on the locking slider, the trigger shaft outer end is provided with the second articulated shaft, second articulated shaft and adjacent one articulated drive connecting rod between the first articulated shaft, the axis body both sides are stabilized to the slant locking slide rail slip direction perpendicular to the axial direction of the axis body is stabilized to the slant.

In summary, compared with the prior art, the invention has the beneficial effects that:

the invention solves the defects of the existing horizontal turning and milling machine conforming to the numerical control lathe, and the structural arrangement of the invention has the following advantages of avoiding the situation that the traditional Y axis is arranged perpendicular to the X axis, avoiding the formation of a cantilever state, reducing the situation of tool shaking and improving the processing precision; x axle and interpolation Y axle are in the moving direction adjustment process, be provided with triangular support rod structure between, the structural stability that triangle-shaped set up is higher, can improve holistic stability, prevent the cantilever state, simultaneously, because the X axle direction removes and the interpolation Y axle direction removes the in-process can make the triangle-shaped region follow the grow or diminish, make the A-frame structure possess the adaptability, locking A-frame structure that simultaneously can also be quick prevents to take place to warp after the X axle stops to remove with interpolation Y axle.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a left side view of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 4;

fig. 7 is a partially enlarged view of fig. 6 at D.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-7, the invention provides an adjustable triangular support stable turn-milling composite structure based on an interpolation Y axis, which comprises a traverse moving assembly 1, wherein an inclined interpolation Y axis moving assembly 2 is arranged on the traverse moving assembly 1, a telescopic triangular support structure 3 is arranged between the traverse moving assembly 1 and the inclined interpolation Y axis moving assembly 2, a limit locking mechanism 4 for limiting the movement of the telescopic triangular support structure 3 is arranged between the telescopic triangular support structure 3 and the traverse moving assembly 1, and a turn-milling device 5 is arranged on the inclined interpolation Y axis moving assembly 2;

the structure principle is as follows:

the traversing component 1 can drive the turning and milling device 5 to move along the X-axis direction;

the inclined interpolation Y-axis moving assembly 2 can realize fine adjustment of the turning and milling device 5 in the X-axis direction and fine adjustment of the Y-axis height direction;

the transverse moving assembly 1 and the oblique interpolation Y-axis moving assembly 2 form an acute angle, and a hollow space is formed between the transverse moving assembly and the oblique interpolation Y-axis moving assembly, so that a telescopic triangular supporting structure 3 is arranged;

the traditional Y axis is perpendicular to the X axis, so that a cantilever state is formed, at the moment, the turning and milling device 5 is easy to generate tool shaking or the service life is reduced, the machining precision is insufficient, and the stability is poor;

in the moving process of the Y-axis interpolation direction, the farther the turning and milling device 5 is from the bottom, if the telescopic triangular support structure 3 is fixedly arranged, the triangular support state cannot be met;

the telescopic triangular support structure 3 realizes the stable support of the interpolation Y axis by using the principle of triangular stable support;

the telescopic triangular support structure 3 can be adjusted along with the adjustment in the interpolation Y-axis moving process;

the triangular support area 100 inside the retractable triangular support structure 3 will be enlarged or reduced;

and after the inclined interpolation Y-axis moving assembly 2 stops moving, controlling the limiting locking mechanism 4 to lock the triangular support area 100, namely locking the deformation state of the telescopic triangular support structure 3, and finishing stable support in the machining process.

The traversing assembly 1 comprises a base 101, wherein an X-axis moving track 102 is arranged on the base 101, and an X-axis moving module 103 is arranged on the X-axis moving track 102;

the X-axis moving module 103 can move along the X-axis moving rail 102.

The included angle between the Y-axis moving component 2 and the transverse moving component 1 in the inclined interpolation is 30-60 degrees.

The oblique interpolation Y-axis moving assembly 2 comprises an installation module 201 arranged on an X-axis moving module 103, wherein an interpolation Y-axis oblique track 202 is arranged on the installation module 201, and an interpolation Y-axis moving module 203 is arranged on the interpolation Y-axis oblique track 202;

the interpolation Y-axis moving module 203 can obliquely move along the interpolation Y-axis oblique track 202, and drives the turning and milling device 5 to obliquely move, that is, adjust the height position of the Y-axis.

The telescopic triangular support structure 3 comprises X axial guide grooves 301 arranged at two sides of an X-axis moving module 103, two X axial guide sliders 302 are arranged in the X axial guide grooves 301 at intervals from left to right, one X axial guide slider 302 is arranged below the interpolation Y-axis moving module 203 and is provided with a vertical guide sleeve assembly 303 on the surface, the other X axial guide slider 302 is arranged below one side of the interpolation Y-axis moving module 203 and is provided with an oblique guide sleeve assembly 304 on the surface, a vertical stable shaft body 305 fixedly connected with the surface of the interpolation Y-axis moving module 203 is movably arranged in the vertical guide sleeve assembly 303, and an oblique stable shaft body 306 fixedly connected with the surface of the interpolation Y-axis moving module 203 is movably arranged in the oblique guide sleeve assembly 304;

in the moving process of the interpolation Y-axis moving module 203, at this time, the vertical stable axis body 305 and the oblique stable axis body 306 expand and contract along with each other, so as to achieve extension or contraction.

The triangular support area 100 is formed between the vertical stabilizing shaft body 305, the oblique stabilizing shaft body 306 and the X-axis moving module 103.

The limiting locking mechanism 4 comprises a locking structure 401 arranged on the oblique stable shaft body 306 and the vertical stable shaft body 305, a driving assembly 402 is arranged on the X-axis moving module 103, and a transverse line maintaining linkage mechanism 403 which still keeps controlling the locking structure 401 to work through the driving assembly 402 in the moving process of the interpolation Y-axis moving module 203 is arranged between the locking structure 401 and the driving assembly 402;

after the interpolation Y-axis moving module 203 stops moving, the driving assembly 402 is controlled, and the driving assembly 402 can control the locking structures 401 to lock the vertical stable axis body 305 or the oblique stable axis body 306 through the transverse line maintaining linkage mechanism 403, so as to prevent the vertical stable axis body 305 and the oblique stable axis body 306 from moving;

the transverse line maintaining linkage mechanism 403 is used to ensure that the plurality of locking structures 401 can be driven to work by the driving assembly 402 when the interpolation Y-axis moving module 203 moves to any position within a range.

The driving assembly 402 of the present invention includes two forward electromagnetic plates 4021 disposed on the X-axis moving module 103, a reverse electromagnetic plate 4022 is disposed outside the forward electromagnetic plates 4021, a magnet plate 4023 is disposed between the forward electromagnetic plates 4021 and the reverse electromagnetic plates 4022, and a driving shaft 4024 is outwardly extended from a surface of the magnet plate 4023.

The transverse wire holding linkage mechanism 403 comprises two transverse guide grooves 4031 connected to two sides of the driving component 402, and the two transverse guide grooves 4031 are driven by the driving component 402 to be mutually opened or closed;

the transverse guide groove 4031 comprises a drive plate 40311, an internal rectangular guide groove 40312 is formed in the surface of the drive plate 40311 in the transverse direction of the drive plate 40311, a connecting groove 40313 is formed between the side wall of the drive plate 40311 and the internal rectangular guide groove 40312, a rectangular sliding block 40314 is movably arranged in the internal rectangular guide groove 40312, a trigger shaft 40315 penetrating through the connecting groove 40313 is arranged on the surface of the rectangular sliding block 40314, and the trigger shaft 40315 is used for controlling the operation of the locking structure 401.

The locking structure 401 comprises locking slide rails 4011 respectively arranged on two sides of the oblique stable shaft body 306 and two sides of the vertical stable shaft body 305, locking slide blocks 4012 are movably arranged in the locking slide rails 4011, friction plates 4013 used for being attached to the surfaces of the oblique stable shaft body 306 or the vertical stable shaft body 305 to increase friction force are arranged on the locking slide blocks 4012, first hinge shafts 4014 are arranged on the locking slide blocks 4012, second hinge shafts 4015 are arranged at the outer ends of the trigger shafts 40315, driving connecting rods 4016 are hinged between the second hinge shafts 4015 and the adjacent first hinge shafts 4014, and the sliding directions of the locking slide rails 4011 on the two sides of the oblique stable shaft body 306 are perpendicular to the axial direction of the oblique stable shaft body 306.

While there have been shown and described what are at present considered to be the fundamental and essential features of the invention and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the details of the foregoing embodiments, which are provided as an illustration of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a stable turn-milling complex structure of adjustable triangular supports based on interpolation Y axle, includes sideslip subassembly (1), its characterized in that: the movable type automatic turning and milling device is characterized in that an inclined interpolation Y-axis moving assembly (2) is arranged on the transverse moving assembly (1), a telescopic triangular support structure (3) is arranged between the transverse moving assembly (1) and the inclined interpolation Y-axis moving assembly (2), a limiting locking mechanism (4) used for limiting the movement of the telescopic triangular support structure (3) is arranged between the telescopic triangular support structure (3) and the transverse moving assembly (1), and a turning and milling device (5) is arranged on the inclined interpolation Y-axis moving assembly (2).

2. The interpolation Y-axis-based adjustable triangular support stable turn-milling composite structure as claimed in claim 1, wherein: the transverse moving assembly (1) comprises a base (101), an X-axis moving track (102) is arranged on the base (101), and an X-axis moving module (103) is arranged on the X-axis moving track (102).

3. The interpolation Y-axis-based adjustable triangular support stable turn-milling composite structure as claimed in claim 2, wherein: the included angle between the oblique interpolation Y-axis moving assembly (2) and the transverse moving assembly (1) is 30-60 degrees.

4. The interpolation Y-axis-based adjustable triangular support stable turn-milling composite structure as claimed in claim 2, wherein: the oblique interpolation Y-axis moving assembly (2) comprises an installation module (201) arranged on the X-axis moving module (103), an interpolation Y-axis oblique track (202) is arranged on the installation module (201), and an interpolation Y-axis moving module (203) is arranged on the interpolation Y-axis oblique track (202).

5. The interpolation Y-axis-based adjustable triangular support stable turn-milling composite structure as claimed in claim 4, wherein: the telescopic triangular support structure (3) comprises X axial guide grooves (301) arranged at two sides of the X axial moving module (103), two X axial guide sliding blocks (302) are arranged in the X axial guide groove (301) at intervals from left to right, one X-axis guide sliding block (302) is arranged below the interpolation Y-axis moving module (203) and is provided with a vertical guide sleeve assembly (303) on the surface, the other X-axis guide sliding block (302) is arranged below one side of the interpolation Y-axis moving module (203) and is provided with an oblique guide sleeve assembly (304) on the surface, a vertical stable shaft body (305) fixedly connected with the surface of the interpolation Y-axis moving module (203) is movably arranged in the vertical guide sleeve assembly (303), an oblique stable shaft body (306) fixedly connected with the surface of the interpolation Y-axis moving module (203) is movably arranged in the oblique guide sleeve assembly (304).

6. The structure of claim 5, wherein the structure is formed by a combination of a stable turning and milling machine and an adjustable triangular support based on an interpolation Y axis, and comprises: a triangular support area (100) is formed among the vertical stabilizing shaft body (305), the oblique stabilizing shaft body (306) and the X-axis moving module (103).

7. The structure of claim 5, wherein the structure is formed by a combination of a stable turning and milling machine and an adjustable triangular support based on an interpolation Y axis, and comprises: the limiting locking mechanism (4) comprises a locking structure (401) arranged on the oblique stable shaft body (306) and the vertical stable shaft body (305), a driving assembly (402) is arranged on the X-axis moving module (103), and a transverse line maintaining linkage mechanism (403) which is still kept to control the locking structure (401) to work through the driving assembly (402) in the moving process of the interpolation Y-axis moving module (203) is arranged between the locking structure (401) and the driving assembly (402).

8. The structure of claim 7, wherein the adjustable triangular support stable turn-milling composite based on interpolation Y axis is characterized in that: the driving assembly (402) comprises two forward electromagnetic plates (4021) arranged on the X-axis moving module (103), reverse electromagnetic plates (4022) are arranged on the outer sides of the forward electromagnetic plates (4021), a magnet plate (4023) is arranged between the forward electromagnetic plates (4021) and the reverse electromagnetic plates (4022), and a driving shaft body (4024) extends outwards from the surface of the magnet plate (4023).

9. The interpolation Y-axis-based adjustable triangular support stable turn-milling composite structure as claimed in claim 7, wherein: the transverse wire holding linkage mechanism (403) comprises two transverse guide grooves (4031) connected to two sides of the driving assembly (402), and the two transverse guide grooves (4031) are mutually opened or closed under the driving of the driving assembly (402);

lateral guidance groove (4031) includes drive plate (40311), drive plate (40311) surface is followed drive plate (40311) transverse direction is provided with inside rectangle guide way (40312), drive plate (40311) lateral wall with be provided with between inside rectangle guide way (40312) connecting groove (40313), inside rectangle guide way (40312) internalization is provided with rectangle sliding block (40314), rectangle sliding block (40314) surface is provided with and passes the movable trigger shaft (40315) of connecting groove (40313), trigger shaft (40315) are used for control locking structure (401) work.

10. The structure of claim 9, wherein the adjustable triangular support stable turn-milling composite based on interpolation Y-axis is characterized in that: the locking structure (401) comprises locking slide rails (4011) which are respectively arranged on two sides of the oblique stable shaft body (306) and two sides of the vertical stable shaft body (305), a locking slide block (4012) is movably arranged in the locking slide rail (4011), a friction plate (4013) which is used for being tightly attached to the surface of the oblique stable shaft body (306) or the vertical stable shaft body (305) to increase friction force is arranged on the locking slide block (4012), a first articulated shaft (4014) is arranged on the locking slide block (4012), a second articulated shaft (4015) is arranged at the outer end of the trigger shaft (40315), a driving connecting rod (4016) is hinged between the second articulated shaft (4015) and the adjacent first articulated shaft (4014), the sliding direction of the locking slide rails (4011) on the two sides of the oblique stable shaft body (306) is perpendicular to the axial direction of the oblique stable shaft body (306).

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