CN214053856U - Cutting device is used in processing of high accuracy pentahedron numerical control longmen - Google Patents

Abstract

The utility model belongs to the technical field of the cutting device technique and specifically relates to a cutting device is used in processing of high accuracy pentahedron numerical control longmen, to the problem that work piece cutting angle is difficult to adjust among the prior art, machining efficiency is low, now proposes following scheme, and it includes the operation panel, two sets of first spouts, it is two sets of have been seted up at the top of operation panel first spout mutually perpendicular, and two sets of the inside equal movable mounting of first spout has two sets of first sliders, the multiunit the top of first slider all is provided with fixture, the top center of operation panel has been seted up along its width direction and has cut the cut groove. The utility model discloses rational in infrastructure, stable in structure, easy operation not only realizes cutting the assembly work piece, carries out quick fixed to the work piece, can also carry out quick adjustment to the cutting angle of assembly work piece, and the effectual cutting effect of having guaranteed has improved cutting efficiency, easily uses widely.

Description

Cutting device is used in processing of high accuracy pentahedron numerical control longmen

Technical Field

The utility model relates to a cutting device field especially relates to a cutting device is used in processing of high accuracy pentahedron numerical control longmen.

Background

With the continuous development of industrial technology, the machining modes of workpieces are more and more, and a pentahedron numerical control gantry machining center refers to a high-precision machining center which can machine the other five surfaces of the workpiece after the workpiece is fixed, and assembly materials of the machining center are often required to be cut in the machining production process of the machining center.

The cutting device in the prior art can realize cutting the assembly workpiece, and when the workpiece needing oblique cutting is cut, the cutting angle of the workpiece is not easy to adjust, the machining effect on the workpiece is poor when machining, the machining efficiency is low, and the like.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of high accuracy pentahedron numerical control is cutting device for longmen processing has solved the problem that work piece cutting angle is difficult to adjust among the prior art, machining efficiency is low.

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

the cutting device comprises an operating plate, wherein two groups of first sliding grooves are formed in the top of the operating plate and are perpendicular to each other, two groups of first sliding blocks are movably mounted inside the first sliding grooves, a plurality of groups of first sliding blocks are arranged on the top of the first sliding blocks, a cutting groove is formed in the center of the top of the operating plate along the width direction of the operating plate, supporting plates are fixedly connected to two ends of the top of the operating plate, a top plate is fixedly connected to the tops of the two groups of supporting plates, a second sliding groove is formed in the bottom of the top plate along the length direction of the top plate, a second sliding block is movably mounted inside the second sliding groove, the bottom of the second sliding block extends to the outside of the second sliding groove, a threaded rod is sleeved on an inner thread of the second sliding block, two ends of the threaded rod extend to the outside of the second sliding block, and two ends of the threaded rod, which are located outside the second sliding block, are respectively rotated to one side, close to the two groups of the supporting plates Connect, outside one side rigid coupling of backup pad has first motor, the one end of threaded rod extends to the outside of backup pad and is connected with the output transmission of first motor, the one end rigid coupling that the second slider is located second spout bottom has the mounting panel, the bottom strand rigid coupling of mounting panel has the first telescopic link of multiunit, multiunit first telescopic link is that the output rigid coupling has the lifter plate, the bottom rigid coupling of lifter plate has the housing, the mounting groove has been seted up along its width direction to the inboard bottom of housing, mounting groove internally mounted has cutting mechanism, the controller is installed to outside one side of backup pad.

Preferably, fixture establishes the fixing bolt at L board top including rotating L board, the threaded sleeve who installs at first slider top, fixing bolt's bottom extends to the bottom of L board, fixing bolt is located L board bottom one end and rotates and install the butt joint board.

Preferably, the abutting plate is made of a rubber material.

Preferably, the bottom rigid coupling of operation panel has the multiunit stand, the multiunit the equal rigid coupling in bottom of stand has the truckle.

Preferably, the cutting mechanism includes that the installation cover of installing in the mounting groove is inside rotated, the cutting tool, the rigid coupling that install in the installation cover is inside is used for driving cutting tool's second motor, the multiunit second telescopic link that articulates at the inside lateral wall of housing, multiunit in outside one side of installation cover the second telescopic link is located the both sides of installation cover respectively, and the output of multiunit second telescopic link all articulates with the outside top of installation cover.

Preferably, the bottom rigid coupling of mounting panel has the multiunit guide post, multiunit the bottom of guide post all runs through the bottom that the lifter plate extends to the lifter plate, and multiunit the equal rigid coupling of one end that the guide post is located the lifter plate bottom has the stopper.

The utility model has the advantages that:

1. through the mutual cooperation of the four groups of clamping mechanisms at the top of the first sliding groove and the two groups of mutually vertical first sliding grooves and the sliding installation, the workpiece to be cut can be quickly fixed, and the working efficiency is effectively improved.

2. Through the mutual cooperation of a plurality of groups of second telescopic links, the cutting angle of the cutting tool can be adjusted, the workpiece can be conveniently obliquely cut, the oblique cutting angle of the workpiece can be ensured, and the cutting angle can be adjusted respectively.

The utility model discloses rational in infrastructure, stable in structure, easy operation not only realizes cutting the assembly work piece, carries out quick fixed to the work piece, can also carry out quick adjustment to the cutting angle of assembly work piece, and the effectual cutting effect of having guaranteed has improved cutting efficiency, easily uses widely.

Drawings

Fig. 1 is a right sectional view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a front view of the present invention.

Reference numbers in the figures: 1. an operation panel; 2. a first chute; 3. a first slider; 4. an L plate; 5. fixing the bolt; 6. a butt joint plate; 7. cutting the groove; 8. a support plate; 9. a top plate; 10. a second chute; 11. a second slider; 12. a threaded rod; 13. a first motor; 14. mounting a plate; 15. a first telescopic rod; 16. a lifting plate; 17. a housing; 18. mounting grooves; 19. installing a sleeve; 20. a second telescopic rod; 21. cutting a cutter; 22. a second motor; 23. a guide post; 24. a column; 25. a caster wheel; 26. a limiting block; 27. and a controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a cutting device for high-precision pentahedral numerical control gantry machining comprises an operation plate 1, wherein the bottom of the operation plate 1 is fixedly connected with a plurality of groups of upright posts 24, the bottoms of the plurality of groups of upright posts 24 are fixedly connected with trundles 25, the plurality of groups of trundles 25 are universal wheels with self-locking mechanisms, the cutting device is convenient to move or fix, the top of the operation plate 1 is provided with two groups of first chutes 2, the two groups of first chutes 2 are mutually vertical, two groups of first sliding blocks 3 are movably arranged in the two groups of first sliding chutes 2, the top of the plurality of groups of first sliding blocks 3 is rotatably provided with an L plate 4, a fixing bolt 5 is sleeved on the top of the L plate 4 in a threaded manner, the bottom end of the fixing bolt 5 extends to the bottom of the L plate 4, one end of the fixing bolt 5, positioned at the bottom of the L plate 4, is rotatably provided with a butting plate 6, the plurality of groups of L plates 4 are rotated to adjust the orientation of the L plates 4, and a workpiece can be conveniently clamped between the four groups of L plates 4, screwing up fixing bolt 5, fixing bolt 5 contradicts butt plate 6 downwards, with the work piece centre gripping, and multiunit butt plate 6 is rubber materials and makes, conveniently fixes the work piece, prevents that the work piece from sliding to protect the work piece surface can not by the fish tail.

The top center of the operation plate 1 is provided with a cutting groove 7 along the width direction, two ends of the top of the operation plate 1 are fixedly connected with support plates 8, the top of two groups of support plates 8 are fixedly connected with a top plate 9, the bottom of the top plate 9 is provided with a second sliding groove 10 along the length direction, a second sliding block 11 is movably arranged in the second sliding groove 10, the bottom of the second sliding block 11 extends to the outside of the second sliding groove 10, the internal thread of the second sliding block 11 is sleeved with a threaded rod 12, two ends of the threaded rod 12 extend to the outside of the second sliding block 11, two ends of the threaded rod 12 positioned at the outside of the second sliding block 11 are respectively and rotatably connected with one side of the two groups of support plates 8 close to each other, one side of the outside of the support plates 8 is fixedly connected with a first motor 13, one end of the threaded rod 12 extends to the outside of the support plates 8 and is in transmission connection with the output end of the first motor 13, one end of the second sliding block 11 positioned at the bottom of the second sliding groove 10 is fixedly connected with a mounting plate 14, a plurality of groups of first telescopic rods 15 are fixedly connected to the bottom strand of the mounting plate 14, a lifting plate 16 is fixedly connected to the output end of each group of first telescopic rods 15, a plurality of groups of guide posts 23 are fixedly connected to the bottom of the mounting plate 14, the bottoms of the plurality of groups of guide posts 23 all penetrate through the lifting plate 16 and extend to the bottom of the lifting plate 16, one ends of the plurality of groups of guide posts 23, which are positioned at the bottom of the lifting plate 16, are fixedly connected with limit blocks 26, the lifting tracks of the lifting plate 16 are further limited by the plurality of groups of guide posts 23, a housing 17 is fixedly connected to the bottom of the lifting plate 16, a mounting groove 18 is formed in the bottom of the inner side of the housing 17 along the width direction of the housing, a mounting sleeve 19 is rotatably mounted in the mounting groove 18, a cutting tool 21 is rotatably mounted in the mounting sleeve 19, a second motor 22 for driving the cutting tool 21 is fixedly connected to one side of the outer portion of the mounting sleeve 19, a plurality of groups of second telescopic rods 20 are hinged to the inner side wall of the housing 17, the plurality of second telescopic rods 20 are respectively positioned at two sides of the mounting sleeve 19, and the output of multiunit second telescopic link 20 all is articulated with the outside top of installation cover 19, and controller 27 is installed to outside one side of backup pad 8, and controller 27 controls the extension length of multiunit second telescopic link 20, and then adjusts cutting tool 21's cutting angle.

The working principle is as follows: when an assembly workpiece is cut, the part of the assembly workpiece to be cut, which needs to be cut, is moved to the top of a cutting groove 7, a plurality of groups of L plates 4 are moved, the plurality of groups of L plates 4 move along a first sliding groove 2, the L plates 4 are rotated, the workpiece to be cut is surrounded by the surrounding L plates 4, a plurality of groups of fixing bolts 5 are screwed, the plurality of groups of fixing bolts 5 move downwards, the fixing bolts 5 drive a butting plate 6 made of rubber to move downwards, the bottom of the butting plate 6 is attached to the bottom of the workpiece to clamp the workpiece, a controller 27 is operated to adjust the cutting angle of the workpiece, a plurality of groups of second telescopic rods 20 are mutually matched to adjust the inclination angle of a mounting sleeve 19, so that the inclination angle of the cutting tool 21 is adjusted, a second motor 22 drives the cutting tool 21 to operate at a high speed, a plurality of groups of first telescopic rods 15 extend, the cutting tool 21 is pushed downwards to cut the workpiece fixed at the top of an operating plate 1, the workpiece is fixed on the top of the operation plate 1 and connected with a power supply of the first motor 13, the first motor 13 drives the threaded rod 12 to rotate, the cutting tool 21 is driven to move in the direction of the cutting groove 7 to cut the workpiece, after the cutting is finished, the multiple groups of first telescopic rods 15 shrink, the cutting tool 21 is lifted upwards, the power supply of the first motor 13 and the second motor 22 is disconnected, the fixing bolt 5 is rotated, the workpiece is unclamped, the workpiece is taken out, and the cutting work is finished.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", 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 to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A cutting device for high-precision pentahedral numerical control gantry machining comprises an operating plate (1) and is characterized in that two groups of first sliding grooves (2) are formed in the top of the operating plate (1), the two groups of first sliding grooves (2) are perpendicular to each other, two groups of first sliding blocks (3) are movably mounted in the two groups of first sliding grooves (2), clamping mechanisms are arranged on the tops of the multiple groups of first sliding blocks (3), a cutting groove (7) is formed in the center of the top of the operating plate (1) along the width direction of the operating plate, supporting plates (8) are fixedly connected to the two ends of the top of the operating plate (1), a top plate (9) is fixedly connected to the tops of the two groups of supporting plates (8), a second sliding groove (10) is formed in the bottom of the top plate (9) along the length direction of the top plate, a second sliding block (11) is movably mounted in the second sliding groove (10), and the bottom of the second sliding block (11) extends to the outside of the second sliding groove (10), the inside screw thread cover of second slider (11) is equipped with threaded rod (12), the both ends of threaded rod (12) all extend to the outside of second slider (11), just threaded rod (12) are located the outside both ends of second slider (11) and rotate with one side that two sets of backup pad (8) are close to each other respectively and are connected, outside one side rigid coupling of backup pad (8) has first motor (13), the one end of threaded rod (12) extends to the outside of backup pad (8) and is connected with the output transmission of first motor (13), the one end rigid coupling that second slider (11) are located second spout (10) bottom has mounting panel (14), the bottom strand rigid coupling of mounting panel (14) has multiunit first telescopic link (15), multiunit first telescopic link (15) are the output rigid coupling have lifter plate (16), the bottom rigid coupling of lifter plate (16) has housing (17), mounting groove (18) have been seted up along its width direction to housing (17) inboard bottom, mounting groove (18) internally mounted has cutting mechanism, controller (27) are installed to outside one side of backup pad (8).

2. The cutting device for high-precision pentahedral numerical control gantry machining according to claim 1, wherein the clamping mechanism comprises an L-shaped plate (4) rotatably mounted on the top of the first sliding block (3) and a fixing bolt (5) in threaded sleeve connection with the top of the L-shaped plate (4), the bottom end of the fixing bolt (5) extends to the bottom of the L-shaped plate (4), and one end of the fixing bolt (5) located at the bottom of the L-shaped plate (4) is rotatably mounted with a butt plate (6).

3. A cutting device for high-precision pentahedral numerical control gantry machining according to claim 2, characterized in that the abutting plate (6) is made of rubber material.

4. The cutting device for machining the high-precision pentahedral numerical control gantry according to claim 1 is characterized in that a plurality of groups of upright columns (24) are fixedly connected to the bottom of the operating plate (1), and casters (25) are fixedly connected to the bottoms of the plurality of groups of upright columns (24).

5. The cutting device for high-precision pentahedral numerical control gantry machining according to claim 1, wherein the cutting mechanism comprises a mounting sleeve (19) rotatably mounted inside the mounting groove (18), a cutting tool (21) rotatably mounted inside the mounting sleeve (19), a second motor (22) fixedly connected to one side of the outside of the mounting sleeve (19) and used for driving the cutting tool (21), and a plurality of groups of second telescopic rods (20) hinged to the side wall of the inside of the housing (17), the plurality of groups of second telescopic rods (20) are respectively located on two sides of the mounting sleeve (19), and output ends of the plurality of groups of second telescopic rods (20) are hinged to the top of the outside of the mounting sleeve (19).

6. The cutting device for high-precision pentahedral numerical control gantry machining according to claim 1, wherein a plurality of groups of guide posts (23) are fixedly connected to the bottom of the mounting plate (14), the bottoms of the plurality of groups of guide posts (23) extend to the bottom of the lifting plate (16) through the lifting plate (16), and a limit block (26) is fixedly connected to one end of each group of guide posts (23) located at the bottom of the lifting plate (16).

Images