CN114378360A - Tool setting device of numerical control roll-cutting veneer shearing machine - Google Patents

Abstract

The invention discloses a tool setting device of a numerical control rolling cut veneer shearing machine, which belongs to the technical field of the numerical control rolling cut veneer shearing machine and comprises a numerical control shearing machine, a symmetrical reciprocating mechanism, a first rolling cut cutter, a second rolling cut cutter, a lifting device, a turnover device, an adjusting device and a tool setting device, wherein the numerical control shearing machine is horizontally arranged, the symmetrical reciprocating mechanism is arranged on the numerical control shearing machine, the first rolling cut cutter and the second rolling cut cutter are symmetrically arranged on the symmetrical reciprocating mechanism, the lifting device is arranged on the numerical control shearing machine, the tool setting device is arranged on the lifting device, the turnover device is arranged on the lifting device, the adjusting device is provided with two adjusting devices, the two adjusting devices are respectively arranged at the side ends of the corresponding first rolling cut cutter and the second rolling cut cutter, the device can accurately position the cutters before a product is manufactured, is convenient for subsequent operation and is suitable for products with different sizes.

Description

Tool setting device of numerical control roll-cutting veneer shearing machine

Technical Field

The invention relates to the technical field of numerical control roll-cutting veneer shearing machines, in particular to a tool setting device of a numerical control roll-cutting veneer shearing machine.

Background

At present, the existing numerical control roll-cutting veneer shearing machine is composed of a machine body, a feeding anvil roller, a cutter shaft, a shearing device, a cutter setting adjusting device and a power transmission device.

When a workpiece is machined, tool setting operation is usually required, a tool setting point is generally arranged on the workpiece during tool setting, the tool setting point and the tool location point are required to be overlapped during tool setting, the position of a program origin in a machine tool coordinate system is determined, in the prior art, when a trial cutting method is adopted for tool setting, a machining trace is left on the surface of the workpiece, the appearance of the product is influenced, tool setting operation cannot be carried out on products with different sizes, and the tool setting device and the numerical control hobbing veneer shearing machine cannot be matched with each other.

Disclosure of Invention

The embodiment of the invention provides a tool setting device of a numerical control roll-cutting veneer shearing machine, which aims to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: the numerical control shearing machine is horizontally arranged, the symmetrical reciprocating mechanism is arranged on the numerical control shearing machine, the first rolling cutting tool and the second rolling cutting tool are symmetrically arranged on the symmetrical reciprocating mechanism, the lifting device is arranged on the numerical control shearing machine, the tool setting device is arranged on the lifting device, the overturning device is arranged on the lifting device, the adjusting devices are two, and the two adjusting devices are respectively arranged at the side ends of the corresponding first rolling cutting tool and the corresponding second rolling cutting tool.

Furthermore, the lifting device comprises a lifting seat, a lifting motor, a lifting gear, a lifting rack and a lifting frame, a storage groove is formed in the numerical control shearing machine, the lifting frame is arranged in the storage groove, the lifting seat is located at the side end of the lifting frame, the lifting motor is arranged in the lifting seat, the lifting gear is arranged at the output end of the lifting motor, the lifting rack is arranged at the side end of the lifting frame and meshed with the lifting gear, and a sliding block is arranged on one side of the lifting frame and is in vertical sliding fit with the storage groove.

Further, turning device includes roll-over stand, upset motor, running gear, upset gear, roll-over stand and trip shaft, the roll-over stand sets up on the inside wall of lift frame, the upset motor sets up in the roll-over stand, running gear sets up on the output of upset motor, the trip shaft is equipped with two, two the trip shaft symmetry sets up at the both ends of lift frame inboard and connects for rotating, the both ends of roll-over stand are connected respectively two on the trip shaft, the upset gear setting on the roll-over stand and with the running gear meshing.

Furthermore, two adjusting device all includes alignment jig and adjusting hydraulic cylinder, the alignment jig sets up the side at first hobbing cutter, adjusting hydraulic cylinder sets up on the alignment jig and the output is connected on first hobbing cutter.

Further, the tool setting device comprises a tool setting seat, a tool setting motor, a tool setting block, two tool setting rods, two tool setting racks, two tool setting columns and two tool setting pieces, wherein the tool setting seat is arranged on the inner side wall of the turnover frame, the tool setting motor is arranged in the tool setting seat, the tool setting block is arranged at the output end of the tool setting motor, the two tool setting rods are arranged on the two ends of the tool setting block in the opposite direction and are rotatably connected with the tool setting block, the two tool setting racks are arranged, the two tool setting racks are symmetrically arranged on the turnover frame, the two tool setting columns are arranged, one ends of the two tool setting columns are respectively connected to the two tool setting rods and are rotatably connected, the other ends of the two tool setting columns respectively penetrate through the corresponding tool setting seats and are in sliding fit, the two tool setting pieces are arranged on the tail ends of the corresponding tool setting columns respectively, and the two pairs of cutters are in sliding fit with the roll-over stand from side to side.

Further, the tool setting device further comprises two rolling rollers, wherein the two rolling rollers are symmetrically arranged on the two tool setting pieces and are connected in a rotating mode, and the two tool setting pieces are located at the side ends of the rotating gears.

Furthermore, two the pair of cutters are made of hard materials.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, before a workpiece is sheared, tools on a first rolling cutter and a second rolling cutter need to be subjected to tool setting operation, firstly, a lifting device operates to drive a tool setting device to move upwards, so that a tool setting piece on the tool setting device is positioned between the first rolling cutter and the second rolling cutter and is in the same plane, the first rolling cutter and the second rolling cutter are in a tool setting state, at the moment, a tool setting block on the output end of the tool setting motor is driven to rotate through the operation of the tool setting motor, the tool setting block rotates to drive the tool setting rods to move towards respective tool setting frame directions, so that tool setting columns are driven to move in the tool setting frames, two tool setting pieces move on the turnover frame towards respective corresponding directions of the first rolling cutter and the second rolling cutter, and at the moment, three conditions are the first; the two tool setting pieces are just attached to the corresponding first rolling cutter and the second rolling cutter, so that the first rolling cutter and the second rolling cutter are proved to have the same distance with the required workpiece, and the tool setting is finished at this time; the tool setting piece corresponding to the first rolling cutter is just attached to the first rolling cutter, while the tool setting piece corresponding to the second rolling cutter is not attached to the second rolling cutter, at the moment, the second rolling cutter is pushed to the corresponding tool setting piece position through the operation of an adjusting hydraulic cylinder positioned at the side end of the second rolling cutter, so that the second rolling cutter is attached to the corresponding tool setting piece, at the moment, the distance between the first rolling cutter and the required workpiece is proved to be the same, and therefore, the tool setting is finished, and the third is; the cutter setting device comprises a first rolling cutter, a second rolling cutter, a cutter setting device, a lifting device, a first adjusting hydraulic cylinder, a second adjusting hydraulic cylinder, a first rolling cutter, a second rolling cutter, a cutter setting device, a second adjusting hydraulic cylinder, a first adjusting hydraulic cylinder, a second adjusting hydraulic cylinder, a third adjusting hydraulic cylinder, a fourth adjusting hydraulic cylinder, a fifth adjusting hydraulic cylinder, a sixth adjusting hydraulic cylinder, a fifth adjusting hydraulic cylinder, a sixth adjusting hydraulic cylinder, a fifth, a sixth adjusting hydraulic cylinder, a fifth, a sixth adjusting hydraulic cylinder, a fifth, a sixth cylinder, a fifth cylinder, a sixth cylinder, a fifth cylinder, a sixth cylinder, a fifth cylinder.

And secondly, after the tool setting is completed, the turning device is driven to turn over through the operation of the turning device, so that the rolling rollers on the tool setting device are positioned above and the tool setting piece is positioned below, the workpiece is placed on the two rolling rollers to be subjected to shearing operation, and the heights of the two rolling rollers can be adjusted through the operation of the lifting device, so that the tool setting device is suitable for workpieces with different sizes, and meanwhile, the tool setting device and the numerical control roll-cutting shearing machine are combined with each other, so that the tool setting device is different in work.

And thirdly, the cutter setting piece is made of hard material, so that the cutter setting piece is more accurate when the first rolling cutter and the second rolling cutter are attached to the corresponding cutter setting piece, overlarge error cannot be caused, unqualified cutter setting is avoided, the workpiece cannot be sheared, and the accuracy of the cutter setting is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of the lifting device of the present invention;

FIG. 3 is a first schematic structural diagram of the turning device according to the present invention;

FIG. 4 is a second schematic structural view of the turning device of the present invention;

FIG. 5 is a first structural diagram of a tool setting device according to the present invention;

FIG. 6 is a structural schematic diagram II of a tool setting device in the invention;

FIG. 7 is a schematic structural view of a turning device and a tool setting device in the invention;

FIG. 8 is a schematic structural view of a lifting device, a turning device and a tool setting device in the invention;

FIG. 9 is a schematic view of the structure of the adjusting device of the present invention;

fig. 10 is a partial structural schematic diagram of the present invention.

Reference numerals

The numerical control shearing machine 1, the symmetrical reciprocating mechanism 11, the first rolling cutter 12, the second rolling cutter 13, the lifting device 2, the lifting seat 21, the lifting motor 22, the lifting gear 23, the lifting rack 24, the lifting frame 25, the turnover device 3, the turnover seat 31, the turnover motor 32, the rotating gear 33, the turnover gear 34, the turnover frame 35, the turnover shaft 36, the adjusting device 4, the adjusting frame 41, the adjusting hydraulic cylinder 42, the tool setting device 5, the tool setting seat 51, the tool setting motor 52, the tool setting block 53, the tool setting rod 54, the tool setting frame 55, the tool setting column 56, the tool setting piece 57 and the rolling roller 58.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides a tool setting device of a numerical control rolling cut veneer shearing machine, which comprises a numerical control shearing machine 1, a symmetrical reciprocating mechanism 11, a first rolling cut cutter 12 and a second rolling cut cutter 13, and also comprises a lifting device 2, a turnover device 3, an adjusting device 4 and a tool setting device 5, wherein the numerical control shearing machine 1 is horizontally arranged, the symmetrical reciprocating mechanism 11 is arranged on the numerical control shearing machine 1, the first rolling cut cutter 12 and the second rolling cut cutter 13 are symmetrically arranged on the symmetrical reciprocating mechanism 11, the lifting device 2 is arranged on the numerical control shearing machine 1, the tool setting device 5 is arranged on the lifting device 2, the turnover device 3 is arranged on the lifting device 2, the adjusting devices 4 are provided with two, the two adjusting devices 4 are respectively arranged at the side ends of the corresponding first rolling cut cutter 12 and the second rolling cut cutter 13, before a product is manufactured, the cutter is accurately positioned, so that the subsequent operation is facilitated, and the cutter is suitable for products with different sizes.

Preferably, the lifting device 2 comprises a lifting seat 21, a lifting motor 22, a lifting gear 23, a lifting rack 24 and a lifting frame 25, the numerical control shearing machine 1 is provided with a storage slot, the lifting frame 25 is arranged in the storage slot, the lifting seat 21 is positioned at the side end of the lifting frame 25, the lifting motor 22 is arranged in the lifting seat 21, the lifting gear 23 is arranged at the output end of the lifting motor 22, the lifting rack 24 is arranged at the side end of the lifting frame 25 and is meshed with the lifting gear 23, one side of the lifting frame 25 is provided with a sliding block and is in up-and-down sliding fit with the storage slot, when the tool setting device 5 and the turnover device 3 need to move up and down, the lifting gear 23 at the output end of the lifting motor 22 is driven to rotate by the operation of the lifting motor 22, the lifting gear 23 rotates to drive the lifting rack 24 to move up and down, so as to drive the lifting frame 25 to move up and down on the numerical control shearing machine 1, the tool setting device 5 and the turnover device 3 are driven to move up and down.

Preferably, the turnover device 3 includes a turnover seat 31, a turnover motor 32, a rotating gear 33, a turnover gear 34, a turnover frame 35 and turnover shafts 36, the turnover seat 31 is disposed on the inner side wall of the lifting frame 25, the turnover motor 32 is disposed in the turnover seat 31, the rotating gear 33 is disposed at the output end of the turnover motor 32, the turnover shafts 36 are disposed in two numbers, the two turnover shafts 36 are symmetrically disposed at the two ends of the inner side of the lifting frame 25 and are rotatably connected, the two ends of the turnover frame 35 are respectively connected to the two turnover shafts 36, the turnover gear 34 is disposed on the turnover frame 35 and is engaged with the rotating gear 33, when the tool setting device 5 needs to be turned over, the rotating gear 33 at the output end of the turnover motor 32 is driven to rotate by the operation of the turnover motor 32, the rotating gear 33 rotates to drive the turnover gear 34 to rotate, the turnover gear 34 rotates to drive the turnover frame 35 to rotate, the roll-over stand 35 rotates to drive the roll-over shaft 36 to rotate on the lifting frame 25, so that the tool setting device 5 is driven to roll over.

Preferably, two adjusting device 4 all includes alignment jig 41 and regulation pneumatic cylinder 42, alignment jig 41 sets up the side at first hobbing cutter 12, adjust pneumatic cylinder 42 and set up on alignment jig 41 and the output is connected on first hobbing cutter 12, when shearing the operation to the work piece, can drive first hobbing cutter 12 and the symmetry of second hobbing cutter 13 through the operation of symmetrical reciprocating mechanism 11 and ask work piece direction motion to cut it, can drive corresponding first hobbing cutter 12 and the motion of second hobbing cutter 13 through adjusting the operation of pneumatic cylinder 42, thereby the cooperation tool setting operation.

Preferably, the tool setting device 5 includes a tool apron 51, a tool setting motor 52, a tool setting block 53, a tool setting rod 54, a tool setting frame 55, a tool setting column 56 and a tool setting piece 57, the tool apron 51 is arranged on the inner side wall of the roll-over stand 35, the tool setting motor 52 is arranged in the tool setting block 51, the tool setting block 53 is arranged at the output end of the tool setting motor 52, two tool setting columns 54 are arranged on the tool setting rod 54, the tool setting rods 54 are oppositely arranged at the two ends of the tool setting block 53 and are rotationally connected with the tool setting block 53, two tool setting columns 55 are arranged on the tool setting frame 55, the tool setting columns 55 are symmetrically arranged on the roll-over stand 35, two tool setting columns 56 are arranged, one ends of the tool setting columns 56 are respectively connected to two tool setting columns 54 and are rotationally connected, the other ends of the tool setting columns 56 respectively pass through the corresponding tool setting frames 55 and are in sliding fit, the tool setting piece 57 is provided with two tool setting columns, the two pairs of tool setting members 57 are respectively arranged at the tail ends of the corresponding tool setting columns 56, the two pairs of tool setting members 57 are in sliding fit with the roll-over stand 35 from left to right, tools on the first rolling cutter 12 and the second rolling cutter 13 need to be subjected to tool setting operation before the workpieces are cut, firstly, the lifting device 2 operates to drive the tool setting device 5 to move upwards, so that the tool setting members 57 on the tool setting device 5 are positioned between the first rolling cutter 12 and the second rolling cutter 13 and are in the same plane, at the moment, the first rolling cutter 12 and the second rolling cutter 13 are in a tool mounting state, at the moment, the tool setting blocks 53 on the output end of the tool setting motor 52 are driven to rotate by the operation of the tool setting motor 52, the tool setting blocks 53 rotate to drive the tool setting rods 54 to move towards the respective tool setting stands 55, so as to drive the tool setting columns 56 to move in the tool setting stands 55, and the two tool setting members 57 move on the roll-over stand 35 towards the directions respectively corresponding to the first rolling cutter 12 and the second rolling cutter 13, at this time, there are three cases, first; the two tool setting members 57 are just attached to the corresponding first rolling cutter 12 and second rolling cutter 13, so that the distances between the first rolling cutter 12 and the second rolling cutter 13 and the required workpiece are proved to be the same, and the tool setting is finished and the second is realized; the cutter setting element 57 corresponding to the first rolling cutter 12 is just attached to the first rolling cutter 12, while the cutter setting element 57 corresponding to the second rolling cutter 13 is not attached to the second rolling cutter 13, at this time, the second rolling cutter 13 is pushed to the position of the corresponding cutter setting element 57 by operating the adjusting hydraulic cylinder 42 positioned at the side end of the second rolling cutter 13, so that the second rolling cutter 13 is attached to the corresponding cutter setting element 57, at this time, the distances between the first rolling cutter 12 and the second rolling cutter 13 and the required workpiece are proved to be the same, and therefore, the cutter setting is completed, and third; the cutter setting element 57 corresponding to the second rolling cutter 13 is just attached to the second rolling cutter 13, and the cutter setting element 57 corresponding to the first rolling cutter 12 is not attached to the first rolling cutter 12, at this time, the first rolling cutter 12 is pushed to the position of the corresponding cutter setting element 57 by operating the adjusting hydraulic cylinder 42 positioned at the side end of the first rolling cutter 12, so that the first rolling cutter 12 is attached to the corresponding cutter setting element 57, at this time, the distances between the first rolling cutter 12 and the second rolling cutter 13 and the required workpiece are the same, therefore, the cutter setting is completed, the cutter setting operation is realized, products are not damaged, after the cutter setting is completed, the cutter setting operation is realized by bringing the two cutter setting elements 57 back to the original positions, and then the cutter setting device 5 is driven back to the original positions by the lifting device 2 without interfering with the shearing operation.

Preferably, the tool setting device 5 further comprises two rolling rollers 58, the two rolling rollers 58 are symmetrically arranged on the two tool setting members 57 and are rotatably connected, after the tool setting is completed, the turning device 3 is operated to drive the tool setting device 5 to turn over, so that the rolling rollers 58 on the tool setting device 5 are located above, the two tool setting members 57 are located at the side ends of the rotating gear 33, the tool setting members 57 are located below, a workpiece is placed on the two rolling rollers 58 to be cut, the heights of the two rolling rollers 58 can be adjusted through the operation of the lifting device 2, thereby being suitable for workpieces with different sizes, meanwhile, the tool setting device 5 and the numerical control rolling cutting shear are combined with each other, the difference curves are the same, when the tool setting device 5 is turned over, the tool setting members 57 are moved outwards, the turning device 3 can not be impacted by the cutter 57 in the turning process, and meanwhile, the first rolling cutter 12 and the second rolling cutter 13 are moved outwards through the operation of the adjusting device 4, so that the turning distance is ensured, the turning operation can be carried out, and the damage caused by the collision of equipment is avoided.

Preferably, two to the cutter 57 for hard material, for hard material through the cutter 57 that sets up can make when first rolling cutter 12 and second rolling cutter 13 and the laminating of the cutter 57 that corresponds, more accurate to can not cause too big error, avoid the tool setting unqualified, can't carry out the shearing operation with the work piece, thereby improve the degree of accuracy of tool setting.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a tool setting device of numerical control roll-cutting veneer shearing machine, includes numerical control shearing machine (1), symmetrical reciprocating mechanism (11), first roll-cutting cutter (12) and second roll-cutting cutter (13), its characterized in that still includes elevating gear (2), turning device (3), adjusting device (4) and tool setting device (5), numerical control shearing machine (1) is the level setting, symmetrical reciprocating mechanism (11) set up on numerical control shearing machine (1), first roll-cutting cutter (12) and second roll-cutting cutter (13) symmetry set up on symmetrical reciprocating mechanism (11), elevating gear (2) set up on numerical control shearing machine (1), tool setting device (5) sets up on elevating gear (2), turning device (3) set up on elevating gear (2), adjusting device (4) are equipped with two, two adjusting device (4) set up respectively in the first roll-cutting cutter (12) and the second roll-cutting cutter that correspond The side end of the cutter (13).

2. The tool setting device of the numerical control hobbing veneer shearing machine according to claim 1, wherein the lifting device (2) comprises a lifting seat (21), a lifting motor (22), a lifting gear (23), a lifting rack (24) and a lifting frame (25), a storage groove is formed in the numerical control shearing machine (1), the lifting frame (25) is arranged in the storage groove, the lifting seat (21) is located at the side end of the lifting frame (25), the lifting motor (22) is arranged in the lifting seat (21), the lifting gear (23) is arranged at the output end of the lifting motor (22), the lifting rack (24) is arranged at the side end of the lifting frame (25) and meshed with the lifting gear (23), and a sliding block is arranged at one side of the lifting frame (25) and is in up-and-down sliding fit with the storage groove.

3. The tool setting device of a numerical control roll-cutting veneer shear according to claim 2, the turnover device (3) comprises a turnover seat (31), a turnover motor (32), a rotating gear (33), a turnover gear (34), a turnover frame (35) and a turnover shaft (36), the turning seat (31) is arranged on the inner side wall of the lifting frame (25), the turning motor (32) is arranged in the turning seat (31), the rotating gear (33) is arranged on the output end of the overturning motor (32), the number of the turnover shafts (36) is two, the two turnover shafts (36) are symmetrically arranged at the two ends of the inner side of the lifting frame (25) and are rotationally connected, two ends of the roll-over stand (35) are respectively connected with the two roll-over shafts (36), the overturning gear (34) is arranged on the overturning frame (35) and meshed with the rotating gear (33).

4. The tool setting device of a numerical control roll-cutting veneer shear according to claim 1, wherein both of the adjusting devices (4) comprise an adjusting frame (41) and an adjusting hydraulic cylinder (42), the adjusting frame (41) is arranged at the side end of the first roll-cutting cutter (12), the adjusting hydraulic cylinder (42) is arranged on the adjusting frame (41), and the output end of the adjusting hydraulic cylinder is connected to the first roll-cutting cutter (12).

5. The tool setting device of the numerical control hobbing veneer shearing machine according to claim 3, characterized in that the tool setting device (5) comprises a tool setting seat (51), a tool setting motor (52), a tool setting block (53), a tool setting rod (54), a tool setting frame (55), a tool setting column (56) and a tool setting piece (57), the tool setting seat (51) is arranged on the inner side wall of the roll-over stand (35), the tool setting motor (52) is arranged in the tool setting seat (51), the tool setting block (53) is arranged on the output end of the tool setting motor (52), two tool setting rods (54) are arranged on the roll-over stand (35), two tool setting rods (54) are arranged at two ends of the tool setting block (53) in opposite directions and are rotatably connected with the tool setting block (53), two tool setting rods (55) are arranged on the roll-over stand (35), two tool setting columns (56) are symmetrically arranged, two connect respectively two to the one end of tool post (56) just connect for rotating on cutter arbor (54), two the other end to tool post (56) passes corresponding respectively and just is sliding fit to knife rest (55), be equipped with two to piece (57), two set up respectively on the end to tool post (56) that corresponds to piece (57), two to piece (57) be left right sliding fit with roll-over stand (35).

6. The tool setting device of the numerical control roll-cutting veneer shear according to claim 5, characterized in that, the tool setting device (5) further comprises two rolling rollers (58), the two rolling rollers (58) are symmetrically arranged on the two pairs of the cutting elements (57) and are connected in a rotating way, and the two pairs of the cutting elements (57) are arranged at the side end of the rotating gear (33).

7. The knife setting device of the numerical control hobbing veneer shear according to claim 5, characterized in that two of the knife setting members (57) are made of hard material.

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