CN212858803U - Double-cutter-head engraving and milling machine with symmetrical distribution - Google Patents

Abstract

The utility model discloses a double knives head cnc engraving and milling machine of symmetric distribution, it includes: a base; the two Y-axis moving modules are symmetrically arranged on the base and can work independently, and each Y-axis moving module is provided with a workbench; the portal frame is erected on the base and is positioned above the Y-axis moving module; the X-axis moving modules are arranged in parallel at the upper end of the portal frame and can work independently; the number of the Z-axis moving modules is two, each Z-axis moving module is arranged on one X-axis moving module and driven by the X-axis moving module to move in the X-axis direction, the two Z-axis moving modules are symmetrically distributed on the portal frame, and each Z-axis moving module is provided with one main shaft and one probe module. The utility model discloses but well two symmetrical formulas distribution and independent work's Y axle removal module and Z axle removal module drive cutter and product removal respectively to the product on two positioning jig of simultaneous processing improves machining efficiency.

Description

Double-cutter-head engraving and milling machine with symmetrical distribution

The technical field is as follows:

the utility model relates to an engraving and milling machine technical field refers in particular to a symmetrical distribution's double knives head engraving and milling machine.

Background art:

the existing engraving and milling machine on the market at present basically adopts a single-tool bit to process products, the processing efficiency is low, the occupied space is large, and a small number of engraving and milling machines with multiple tool bits have the tool bits and the working tables which move synchronously and can only process the same products or two different parts of the same process in the same product.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide a double knives head cnc engraving and milling machine of symmetric distribution.

In order to solve the technical problem, the utility model discloses a following technical scheme: this two tool bit cnc engraving and milling machines of symmetrical formula distribution includes:

a base;

the two Y-axis moving modules are symmetrically arranged on the base and can work independently, and each Y-axis moving module is provided with a workbench;

the portal frame is erected on the base and is positioned above the Y-axis moving module;

the X-axis moving modules are arranged in parallel at the upper end of the portal frame and can work independently;

the number of the Z-axis moving modules is two, each Z-axis moving module is arranged on one X-axis moving module and driven by the X-axis moving module to move in the X-axis direction, the two Z-axis moving modules are symmetrically distributed on the portal frame, and each Z-axis moving module is provided with a main shaft and a probe module.

Further, in the above technical solution, a tool magazine for providing tools to the spindle is disposed beside each Y-axis moving module.

Further, in the above technical solution, the tool magazine includes a tool magazine bottom plate installed on two sides of the base, a splitter installed on the tool magazine bottom plate, a tool magazine rotating seat installed on the splitter, a tool post installed on the tool magazine rotating seat and carrying a plurality of tools, a tool magazine driving device installed on the tool magazine bottom plate and used for driving the splitter to drive the tool post to rotate through the tool magazine rotating seat, and an outer cover covering the tool post, a window facing one side of the workbench and used for the tool post to rotate and extend out of the tool is provided on a side wall of the outer cover, and a baffle capable of sealing the window is installed on one side of the tool post.

Furthermore, in the above technical solution, the probe module includes a probe base plate installed on the Z-axis moving module, a probe slide rail installed on the probe base plate and parallel to the main shaft, a probe fixing plate installed on the probe slide rail in a movable manner, a probe installed on the probe fixing plate, and a probe driving device installed on the probe base plate and used for driving the probe fixing plate to move along the probe slide rail.

Further, in the above technical scheme, the upper end and the lower end of the probe bottom plate are respectively provided with an upper limiting block and a lower limiting block, the upper limiting block is provided with a probe anti-collision rubber block, and the lower limiting block is provided with a limiting probe; the probe module is also covered with a probe cover.

Furthermore, in the above technical solution, the worktable is provided with a positioning fixture for fixing a product, the positioning fixture includes an X-axis indexing device installed on the worktable and a Z-axis indexing device installed on an X-index plate of the X-axis indexing device and having a vertical horizontal plane, and the product is installed on a Z-index plate of the Z-axis indexing device.

Furthermore, in the above technical solution, the X-axis indexing device includes a bottom plate installed on the worktable, a chassis installed on the bottom plate, an X-index plate installed on one side of the chassis, and a first indexing driving device installed in the chassis and configured to drive the X-index plate to rotate, and the Z-axis indexing device includes a support seat installed on the X-index plate and configured to rotate along with the X-index plate, a Z-index plate installed on one side of the support seat, and a second indexing driving device installed on the other side of the support seat and configured to drive the Z-index plate to rotate.

Furthermore, in the above technical solution, one side of the base is provided with a water tank device, and the lower end of the base is provided with a water chute extending to one side; a funnel communicated with the water guide groove penetrates through the table top of the base, and the water tank device is movably arranged below an overflow opening at one end of the water guide groove.

Furthermore, in the above technical solution, the water tank device includes a tank, a first filter plate disposed at a water inlet of the tank, an upper baffle plate disposed on the first filter plate, a waste material box disposed on the upper baffle plate, a water pump disposed at a rear end of the tank, a second filter plate disposed at a front end of the water pump, an oil level gauge disposed at one side of the tank, and a plurality of casters disposed at a bottom of the tank, wherein the upper baffle plate is disposed below the overflow port.

Furthermore, in the above technical solution, both sides of the Z-axis moving module are provided with dustproof plaiting covers moving along with the Z-axis moving module, and the dustproof plaiting covers are disposed on the X-axis moving module.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect:

1. the utility model discloses in through the Y axle that adopts two symmetrical distribution and can the autonomous working remove the module and the Z axle removes the module and drive cutter and product removal respectively, the X axle that is moved by two side by side and the autonomous working removes the module and drives two Z axles respectively and removes the module and remove in X axle direction simultaneously, make can process two products simultaneously through two cutters respectively, in order to improve machining efficiency, and symmetrical distribution makes overall structure compacter, and the stability is better, also can reduce lathe occupation space simultaneously, promote the space utilization of factory building, save unnecessary development, and the production cost is reduced.

2. The utility model discloses in adopt positioning jig to fix the product on the workstation, X axle indexing means and Z axle indexing means drive product through positioning jig rotate to the realization is carved to the cambered surface on product surface, makes can process more types, more complicated product, promotes the commonality of lathe.

3. The utility model discloses in install on Z axle removes the module through the mode that will probe the module and can independently go up and down, through the put position and the slope degree of probe module measurement product, the cutter revises and mends the poor according to measured data, and damages through independent raising and lowering functions in order to prevent that the probe collision from to can prevent to sputter the greasy dirt and cause the precision to reduce.

Description of the drawings:

fig. 1 is a first perspective view of the present invention;

fig. 2 is a second perspective view of the present invention;

fig. 3 is an exploded view of the probe module of the present invention;

fig. 4 is a perspective view of the positioning jig of the present invention;

fig. 5 is a partially enlarged view of a portion a in fig. 2.

Description of reference numerals:

1 base 11 guiding gutter 111 overflow

12-funnel 13-portal-frame 2Y-axis moving module

3 workstation 4X axle removes module 5Z axle and removes module

51 spindle 511 cutter 52 dustproof plaiting

6 probe die set 60 probe cover 61 probe bottom plate

62 probe slide rail 63 probe fixing plate 631 limit stop

64 probe 65 upper limit block of probe driving device 66

67 lower limit block 68 probe anti-collision rubber block 69 limit probe

Bottom plate of 711X-axis indexing device of 7-position jig 71

712 chassis 713X index plate 72Z axis indexing device

721 supporting seat 722Z index plate 723 second indexing drive device

8 tool magazine 81 tool magazine bottom plate 82 decollator

84 tool magazine rotates seat 85 tool post 851 baffle

86 tool magazine drive 87 shell 871 window

9 baffle plate on tank body 92 of water tank device 91

93 waste material box 94 water pump 95 second filter plate

96 oil level gauge 97 caster

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1 to 5, a double-tool-bit engraving and milling machine with symmetrical distribution is provided, which includes:

a base 1;

the two Y-axis moving modules 2 are symmetrically arranged on the base 1 and can work independently, and each Y-axis moving module 2 is provided with a workbench 3;

the portal frame 13 is erected on the base 1 and is positioned above the Y-axis moving module 2;

the number of the X-axis moving modules 4 is two, and the X-axis moving modules are arranged at the upper end of the portal frame 13 in parallel and can work independently;

the number of the Z-axis moving modules 5 is two, each Z-axis moving module 5 is arranged on one X-axis moving module 4 and is driven by the X-axis moving module 4 to move in the X-axis direction, the two Z-axis moving modules 5 are symmetrically distributed on the portal frame 13, and each Z-axis moving module 5 is provided with one main shaft 51 and one probe module 6.

But through adopting two symmetrical distribution's Y axle removal module 2 and Z axle removal module 5 of independent work to drive cutter 51 and product respectively and remove, simultaneously by two X axle removal modules 4 that just independent work side by side drive two Z axle removal modules 5 respectively and remove in the X axle direction, make can process two products simultaneously through two cutters respectively, in order to improve machining efficiency, and symmetrical distribution makes the structure compacter, overall stability is better, also can reduce lathe occupation space simultaneously, promote the space utilization of factory building, save unnecessary development, and the production cost is reduced.

And a tool magazine 8 for providing a tool 511 for the spindle 51 is arranged beside each Y-axis moving module 2.

The tool magazine 8 includes a tool magazine base plate 81 mounted on both sides of the base 1, a divider 82 mounted on the tool magazine base plate 81, a tool magazine rotating seat 84 mounted on the divider 82, a tool rest 85 mounted on the tool magazine rotating seat 84 and carrying a plurality of tools 511, a tool magazine driving device 86 mounted on the tool magazine base plate 81 and driving the divider 82 to rotate the tool rest 85 via the tool magazine rotating seat 84, and a housing 87 covering the tool rest 85, wherein a window 871 facing one side of the table 3 and used for the tool rest 85 to rotate and extend out of the tools 511 is provided on a side wall of the housing 87, and a baffle 851 capable of sealing the window 871 is mounted on one side of the tool rest 85. The magazine drive 86 is a motor.

The probe module 6 includes a probe base plate 61 mounted on the Z-axis moving module 5, a probe slide rail 62 mounted on the probe base plate 61 and parallel to the main shaft 51, a probe fixing plate 63 movably mounted on the probe slide rail 62, a probe 64 mounted on the probe fixing plate 63, and a probe driving device 65 mounted on the probe base plate 61 and used for pushing the probe fixing plate 63 to move along the probe slide rail 62. The probe driving device 65 is an air cylinder. The probe base plate 61 is provided with a mounting seat for mounting the probe driving device 65, and the mounting seat is positioned at the upper end of the probe slide rail 62. The probe module 6 is responsible for measuring the placing position of a product, correcting a program by the placing gradient of the product and compensating a difference of a machined cambered surface, and the probe assembly 6 with the lifting function can prevent the probe 64 from being collided and damaged and can also prevent the precision from being reduced due to oil stain sputtering and the like; the probe 64 is responsible for measuring the placing position of the product and the placing gradient of the product, correcting the program and compensating the difference of the processed arc surface.

The upper end and the lower end of the probe bottom plate 61 are respectively provided with an upper limiting block 66 and a lower limiting block 67, the upper limiting block 66 is provided with a probe anti-collision rubber block 68, and the lower limiting block 67 is provided with a limiting probe 69; the probe module 6 is also covered with a probe cover 60. The upper end of the probe fixing plate 63 is provided with a limit stop 631 which is used for contacting and abutting against the probe anti-collision rubber block 68 and the limit probe 69. The upper limiting blocks 66 are arranged in parallel and are respectively positioned at two sides of the upper end of the probe slide rail 62, and each upper limiting block 66 is provided with a downward probe anti-collision rubber block 68; the lower limiting blocks 67 are also provided with two lower limiting blocks which are respectively positioned at two sides of the lower end of the probe slide rail 62 and are arranged in an up-and-down manner, wherein the limiting probes 69 are arranged on the lower limiting blocks 67 positioned at the lower end, and the upper ends of the limiting probes 69 are flush with the lower limiting blocks 67 at the other side.

The worktable 3 is provided with a positioning jig 7 for fixing a product, the positioning jig 7 comprises an X-axis indexing device 71 mounted on the worktable 3 and a Z-axis indexing device 72 mounted on an X-index plate 713 of the X-axis indexing device 71 and vertical to a horizontal plane, and the product is mounted on a Z-index plate 722 of the Z-axis indexing device 72. Adopt positioning jig 7 to fix the product on workstation 3, drive the product through X axle indexing means 71 and Z axle indexing means 72 among positioning jig 7 and rotate to the realization is carved the cambered surface on product surface, makes can process more types, more complicated product, promotes the commonality of lathe.

The X-axis indexing device 71 includes a bottom plate 711 mounted on the table 3, a chassis 712 mounted on the bottom plate 711, an X index plate 713 disposed on one side of the chassis 712, and a first indexing driving device mounted in the chassis 712 and configured to drive the X index plate 713 to rotate, and the Z-axis indexing device 72 includes a support seat 721 mounted on the X index plate 713 and configured to rotate along with the X index plate 713, a Z index plate 722 mounted on one side of the support seat 721, and a second indexing driving device 723 mounted on the other side of the support seat 721 and configured to drive the Z index plate 722 to rotate. The first indexing drive and the second indexing drive 723 are both motors.

A water tank device 9 is arranged on one side of the base 1, a water chute 11 is arranged at the lower end of the base 1, and the water chute 11 extends out to one side; a funnel 12 communicated with the water chute 11 is arranged on the table top of the base 1 in a penetrating manner, and the water tank device 9 is movably arranged below an overflow opening 111 at one end of the water chute 11.

The water tank device 9 comprises a tank body 91, a first filter plate arranged at a water inlet of the tank body 91, an upper baffle plate 92 arranged on the first filter plate, a waste material box 93 arranged on the upper baffle plate 92, a water pump 94 arranged at the rear end of the tank body 91, a second filter plate 95 arranged at the front end of the water pump 94, an oil level gauge 96 arranged on one side of the tank body 91 and a plurality of trundles 97 arranged at the bottom of the tank body 91, wherein the upper baffle plate 92 is positioned below the overflow port 111.

The two sides of the Z-axis moving module 5 are both provided with dustproof folding cloth 52 moving along with the Z-axis moving module, and the dustproof folding cloth 52 is covered on the X-axis moving module 4.

The X-axis moving module 4, the Y-axis moving module 2 and the Z-axis moving module 5 respectively comprise a slide rail, a sliding seat arranged on the slide rail and a driving device used for driving the sliding seat to move along the slide rail, wherein the driving device is a screw rod module and is driven by a motor, and the two X-axis moving modules 4 share the slide rail. The workbench 3 is arranged on a Y-axis sliding seat of the Y-axis moving module 2, the Z-axis moving module 5 is arranged on an X-axis sliding seat of the X-axis moving module 4, and the spindle 51 and the probe module 6 are arranged on a Z-axis moving seat of the Z-axis moving module 4.

To sum up, the utility model discloses the during operation, the Y axle that is by two side by side symmetric distribution and independent work removes module 2 through workstation 2 and positioning jig 7 drive two work pieces at Y axle direction level independent removal, and accessible positioning jig 7 makes the work piece realize the rotation of X axle and Z axle, remove module 4 by two side by side and independent work's X axle and drive two Z axle and remove module 5 at X axle direction level independent removal, drive main shaft 51 respectively by Z axle removal module 5 again and drive cutter 511 and process at the product of Z axle direction vertical migration on positioning jig 7, thereby realize carrying out the processing of difference and/or same process simultaneously to two products, in order to promote machining efficiency, and overall structure is compacter, reduce occupation space, improve factory building space utilization, save the cost.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a two tool bit cnc engraving and milling machines of symmetry formula distribution which characterized in that includes:

a base (1);

the two Y-axis moving modules (2) are symmetrically arranged on the base (1) and can independently work, and each Y-axis moving module (2) is provided with a workbench (3);

the portal frame (13) is erected on the base (1) and is positioned above the Y-axis moving module (2);

the X-axis moving modules (4) are arranged in parallel at the upper end of the portal frame (13) and can work independently;

the number of the Z-axis moving modules (5) is two, each Z-axis moving module (5) is arranged on one X-axis moving module (4) and driven by the X-axis moving module (4) to move in the X-axis direction, the two Z-axis moving modules (5) are symmetrically distributed on the portal frame (13), and each Z-axis moving module (5) is provided with one main shaft (51) and one probe module (6).

2. The double-cutter-head engraving and milling machine with symmetrical distribution according to claim 1, characterized in that: and a tool magazine (8) for providing a tool (511) for the spindle (51) is arranged beside each Y-axis moving module (2).

3. The double-cutter-head engraving and milling machine with symmetrical distribution according to claim 2, characterized in that: the tool magazine (8) comprises tool magazine bottom plates (81) arranged on two sides of the base (1), a divider (82) arranged on the tool magazine bottom plates (81), a tool magazine rotating seat (84) arranged on the divider (82), a tool rest (85) which is arranged on the tool magazine rotating seat (84) and bears a plurality of tools (511), a tool magazine driving device (86) which is arranged on the tool magazine bottom plates (81) and is used for driving the divider (82) to drive the tool rest (85) to rotate through the tool magazine rotating seat (84), and an outer cover (87) which covers the tool rest (85), a window (871) facing one side of the workbench (3) and used for the tool rest (85) to rotate and extend out of the tool (511) is arranged on the side wall of the outer cover (87), and a baffle (851) capable of sealing the window (871) is arranged at one side of the knife rest (85).

4. The double-cutter-head engraving and milling machine with symmetrical distribution according to claim 1, characterized in that: the probe module (6) comprises a probe bottom plate (61) arranged on the Z-axis moving module (5), a probe slide rail (62) which is arranged on the probe bottom plate (61) and is parallel to the main shaft (51), a probe fixing plate (63) which is movably arranged on the probe slide rail (62), a probe (64) arranged on the probe fixing plate (63), and a probe driving device (65) which is arranged on the probe bottom plate (61) and is used for driving the probe fixing plate (63) to move along the probe slide rail (62).

5. The double-cutter-head engraving and milling machine with symmetrical distribution according to claim 4, characterized in that: the upper end and the lower end of the probe bottom plate (61) are respectively provided with an upper limiting block (66) and a lower limiting block (67), the upper limiting block (66) is provided with a probe anti-collision rubber block (68), and the lower limiting block (67) is provided with a limiting probe (69); the probe module (6) is also covered with a probe cover (60).

6. The double-cutter-head engraving and milling machine with symmetrical distribution according to claim 1, characterized in that: the positioning jig (7) for fixing the product is arranged on the workbench (3), the positioning jig (7) comprises an X-axis indexing device (71) arranged on the workbench (3) and a Z-axis indexing device (72) which is arranged on an X-axis indexing disc (713) in the X-axis indexing device (71) and vertical to the horizontal plane, and the product is arranged on a Z-axis indexing disc (722) of the Z-axis indexing device (72).

7. The double-cutter-head engraving and milling machine with symmetrical distribution according to claim 6, characterized in that: the X-axis indexing device (71) comprises a bottom plate (711) arranged on the workbench (3), a case (712) arranged on the bottom plate (711), an X indexing disc (713) arranged on one side of the case (712), and a first indexing driving device which is arranged in the case (712) and used for driving the X indexing disc (713) to rotate, wherein the Z-axis indexing device (72) comprises a supporting seat (721) which is arranged on the X indexing disc (713) and rotates along with the X indexing disc, a Z indexing disc (722) arranged on one side of the supporting seat (721), and a second indexing driving device (723) which is arranged on the other side of the supporting seat (721) and used for driving the Z indexing disc (722) to rotate.

8. The symmetrical double-cutter cnc engraving and milling machine of any one of claims 1 to 7, wherein: a water tank device (9) is arranged on one side of the base (1), a water chute (11) is arranged at the lower end of the base (1), and the water chute (11) extends out to one side; a funnel (12) communicated with the water chute (11) penetrates through the table top of the base (1), and the water tank device (9) is movably arranged below an overflow opening (111) at one end of the water chute (11).

9. The symmetrical double-cutter cnc engraving and milling machine that distributes of claim 8 wherein: the water tank device (9) comprises a tank body (91), a first filter plate arranged at a water inlet of the tank body (91), an upper baffle plate (92) arranged on the first filter plate, a waste material box (93) arranged on the upper baffle plate (92), a water pump (94) arranged at the rear end of the tank body (91), a second filter plate (95) arranged at the front end of the water pump (94), an oil level gauge (96) arranged on one side of the tank body (91) and a plurality of casters (97) arranged at the bottom of the tank body (91), wherein the upper baffle plate (92) is arranged below the overflow port (111).

10. The symmetrical double-cutter cnc engraving and milling machine that distributes of claim 9 wherein: and dustproof folding cloth (52) moving along with the Z-axis moving module (5) are arranged on two sides of the Z-axis moving module, and the dustproof folding cloth (52) is covered on the X-axis moving module (4).

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