CN218614569U - Drill bit sawing device - Google Patents

Abstract

The utility model discloses a drill bit sawing device, which comprises a frame, wherein a processing station is arranged on the frame; the processing assembly comprises a processing frame, a drill bit mechanism, a saw blade mechanism and a processing frame driving mechanism, wherein the drill bit mechanism and the saw blade mechanism are arranged on the processing frame; the processing frame and the processing frame driving mechanism are arranged on the frame, and the processing frame driving mechanism is used for driving the processing frame to move along the X-axis direction, the Y-axis direction and the Z-axis direction. The utility model discloses a drill bit saw cuts device, it can mill, bore, saw the operation to the work piece.

Description

Drill bit sawing device

Technical Field

The utility model relates to a carpenter's technical field of equipment especially relates to a drill bit saw cuts device.

Background

At present, when wood is processed, solid wood chair legs are processed for example, the chair legs are processed by milling grooves, drilling holes and end face sawing, and the milling, drilling and sawing are completed by one-time clamping, so that the processing size and the processing precision of the chair legs can be guaranteed. The chair can not be twisted and the legs can not be long or short (the chair can not be flat on the ground) after being assembled. However, the existing equipment can only perform groove milling and drilling on wood, has certain limitation in application, and cannot meet the requirements of customers.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a drill bit sawing device, which can mill, drill and saw a workpiece.

The purpose of the utility model is realized by adopting the following technical scheme:

the drill bit sawing device comprises a drill bit sawing device,

the device comprises a frame, wherein a processing station is arranged on the frame;

the processing assembly comprises a processing frame, a drill bit mechanism, a saw blade mechanism and a processing frame driving mechanism, wherein the drill bit mechanism and the saw blade mechanism are arranged on the processing frame; the processing frame and the processing frame driving mechanism are arranged on the frame, and the processing frame driving mechanism is used for driving the processing frame to move along the X-axis direction, the Y-axis direction and the Z-axis direction.

Further, the saw blade mechanism comprises a saw blade frame, a saw blade frame driving piece and a saw blade driving piece, the saw blade frame is arranged on the processing frame, and the saw blade frame driving piece is used for driving the saw blade frame to move along the Z-axis direction; the saw blade is rotatably arranged on the saw blade frame, and the saw blade driving piece is used for driving the saw blade to rotate.

Furthermore, a saw blade swinging mechanism is arranged on the saw blade frame and comprises a worm, a worm wheel and a mounting seat, and the worm is rotatably arranged on the saw blade frame and arranged along the Z-axis direction; the worm wheel is arranged on the mounting seat, is meshed with the worm and is used for driving the mounting seat to rotate around the X-axis direction when the worm rotates; the saw blade driving piece and the saw blade are both arranged on the mounting seat; the saw blade driving piece is used for driving the saw blade to rotate around the Y-axis direction.

Furthermore, a dust cover is arranged on the mounting seat and is arranged above the saw blade, and a dust suction opening is formed in the top end of the dust cover.

Furthermore, a plurality of drill bit mechanisms are arranged at intervals in the X-axis direction; the drill bit mechanism comprises a drill bit frame, drill bits and a drill bit driving piece, wherein at least two drill bits are pivoted on the drill bit frame, and the drill bit driving piece is used for driving the drill bits to rotate; the drill bit frame is arranged on the processing frame; the drill bit frame is provided with a dust collection channel, and the dust collection channel is arranged between every two adjacent drill bits; one end of the dust collection channel penetrates to the bottom end of the drill bit frame; the other end of the dust suction channel is communicated with dust suction equipment.

Further, still be equipped with milling cutter mechanism on the processing frame, milling cutter mechanism includes milling cutter and milling cutter driving piece, milling cutter install in on the processing frame, milling cutter with the centre gripping has the second elastomeric element between the processing frame, the milling cutter driving piece is used for driving milling cutter rotates.

Further, the processing frame driving mechanism comprises,

the rack is mounted on the rack and extends along the Y-axis direction, the gear is pivoted on the gear seat and meshed with the rack, and a rotating shaft of the first motor is connected with the gear;

the gear seat is connected with a support beam, the support beam is provided with a second motor, a first screw rod nut and a first guide mechanism, and the first screw rod is rotatably arranged on the support beam and extends along the X-axis direction; the first screw rod is connected with a rotating shaft of the second motor; the first screw rod nut is in threaded connection with the outside of the first screw rod; the first lead screw nut is used for moving along the X-axis direction under the guidance of the first guide mechanism in the process of rotating the first lead screw;

the screw rod nut is connected with a driving seat, the driving seat is provided with a third motor, a second screw rod nut and a second guide mechanism, and the second screw rod is rotatably arranged on the driving seat and extends along the Z-axis direction; the second screw rod is connected with a rotating shaft of the third motor, a second screw rod nut is in threaded connection outside the second screw rod, and the second screw rod nut is used for moving along the Z-axis direction under the guidance of the second guide mechanism in the rotating process of the second screw rod; the processing frame is connected with the second screw rod nut.

Compared with the prior art, the beneficial effects of the utility model reside in that:

when a workpiece is machined, the machining frame can be driven by the machining frame driving mechanism to move to the position above the workpiece in the X-axis direction and the Y-axis direction, then the machining frame is driven by the machining frame driving mechanism to move along the Z-axis direction, and the drill bit mechanism and the saw blade mechanism of the machining assembly can respectively perform operations such as drilling, sawing and the like on the workpiece, so that the machining efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the processing assembly of the present invention;

FIG. 3 is a schematic view of a saw blade mechanism of the machining assembly of the present invention;

FIG. 4 is a schematic view of an assembly structure of the drill mechanism and the saw blade mechanism of the present invention;

fig. 5 is a schematic view of an assembly structure of the drill mechanism and the milling cutter mechanism of the present invention.

In the figure: 10. a frame; 30. processing the assembly; 31. processing a frame; 32. a drill bit mechanism; 321. A drill bit; 322. a drill bit drive; 323. a drill bit frame; 3231. a dust collection channel; 33. a saw blade mechanism; 331. a saw blade frame; 332. a saw blade frame driving member; 333. a saw blade; 334. a dust cover; 3341. a dust suction port; 335. a saw blade swing mechanism; 3351. a worm; 3352. a worm gear; 341. milling cutters; 342. a second elastic member; 41. a first motor; 342. a rack; 343. A support beam; 344. a first lead screw; 345. a driving seat; 346. a third motor; 347. a gear seat; 348. a second motor; 349. and a second lead screw nut.

Detailed Description

The invention will be further described with reference to the following drawings and detailed description:

in the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1-5, a drill sawing device includes a frame 10 and a processing assembly 30, and a processing station is disposed on the frame 10, specifically, the processing assembly 30 includes a processing frame 31, a drill mechanism 32, a saw blade mechanism 33, and a driving mechanism for the processing frame 31, the drill mechanism 32 and the saw blade mechanism 33 are both mounted on the processing frame, the driving mechanism for the processing frame 31 and the processing frame 31 are both mounted on the frame 10, and the driving mechanism for the processing frame 31 can drive the processing frame 31 to move along an X-axis direction, a Y-axis direction, and a Z-axis direction.

The X-axis direction, the Y-axis direction, and the Z-axis direction are the width direction, the length direction, and the height direction of the gantry 10.

On the basis of the structure, use the utility model discloses a during the drill bit saw cuts the device, when drilling, processing actions such as saw, can drive the width direction, the length direction motion of processing frame 31 along frame 10 through processing frame 31 driving piece for processing frame 31 moves the tip of the good work piece 40 of location on the positioning fixture subassembly 20, then processing frame 31 driving piece then can drive the direction of height motion of processing frame 31 along frame 10, processing frame 31 can the downstream promptly, process work piece 40.

When the workpiece 40 is drilled by the drill 321, the driving member of the processing frame 31 can drive the processing frame 31 to move, so that the drill mechanism 32 on the processing frame 31 corresponds to the end of the workpiece 40, and then the driving member of the processing frame 31 drives the processing frame 31 to move downwards, and at this time, the drill mechanism 32 can perform drilling operation.

After the drilling process is completed, the driving member of the processing frame 31 drives the processing frame 31 to move along the length direction of the rack 10, so that the saw blade mechanism 33 of the processing frame 31 corresponds to the end of the workpiece 40, and then the driving member of the processing frame 31 drives the processing frame 31 to move downwards, at this time, the saw blade mechanism 33 can perform the drilling operation.

In this way, the drill mechanism 32 and the saw blade mechanism 33 of the machining unit 30 can perform operations such as drilling and sawing on the workpiece 40 positioned on the jig base 21, respectively, thereby improving machining efficiency and machining accuracy.

Further, referring to fig. 3, the blade mechanism 33 of the present embodiment includes a blade holder 331, a blade 333, a blade holder driving member 332, and a blade 333 driving member, wherein the blade holder 331 is mounted on the processing frame 31, the blade holder driving member 332 can drive the blade holder 331 to move along the Z-axis direction, the blade 333 is rotatably mounted on the blade holder 331, and the blade 333 driving member can drive the blade 333 to rotate.

On the basis of the structure, when the saw cutting action is performed, the driving mechanism of the processing frame 31 can drive the processing frame 31 to move to the upper part of the end part of the workpiece 40, the saw blade frame driving part 332 can drive the saw blade frame 331 to move up and down relative to the processing frame 31, the saw cutting height of the saw blade 333 is adjusted, and in addition, the saw blade 333 driving part drives the saw blade 333 to rotate, so that the saw blade 333 can perform saw cutting in the rotating process.

Of course, the blade holder driving member 332 can be implemented by a driving cylinder in the prior art.

Further, a blade swing mechanism 335 is disposed on the blade frame 331, and the blade swing mechanism 335 includes a worm 3351, a worm wheel 3352, and a mounting seat, the worm 3351 is rotatably mounted on the blade frame 331, the worm 3351 is disposed along the Z-axis direction, the worm wheel 3352 is mounted on the mounting seat and engaged with the worm 3351, and the worm wheel 3352 drives the mounting seat to rotate around the X-axis direction when the worm 3351 rotates. The saw blade 333 driving member and the saw blade 333 are mounted on the mounting base, and the saw blade 333 driving member can drive the saw blade 333 to rotate around the Y-axis direction.

On the basis of the structure, in order to enable the saw blade 333 to adapt to different processing requirements, the worm 3351 can be rotated, the worm 3351 can rotate to drive the worm wheel 3352 to rotate, the worm wheel 3352 can rotate to drive the mounting seat connected with the worm wheel 3352 to rotate, the worm wheel 3352 can be connected with the mounting seat through the rotating shaft, and the mounting seat can rotate to enable the saw blade 333 mounted on the mounting seat to rotate, so that the whole saw blade 333 can swing, the processing angle of the saw blade 333 can swing, and the swing angle of the saw blade 333 is realized.

Of course, scales can be arranged on the mounting seat, when the worm wheel 3352 rotates, a pointer can be arranged on the worm wheel 3352, the pointer can point to the scales, and the pointer can indicate the swing angle number of the saw blade 333. In addition, the rotation of the worm 3351 may be achieved by a motor or manual adjustment.

Further, be equipped with dust cover 334 on the above-mentioned mount pad, can locate the top of saw bit 333 with dust cover 334 cover, and the top of dust cover 334 is equipped with dust absorption mouth 3341, this dust absorption mouth 3341 can communicate outside dust collecting equipment, when saw bit 333 saw cuts the action, can start dust collecting equipment simultaneously, the dust that saw bit 333 saw cut the production then can be through getting into dust cover 334, derive to dust collecting equipment through dust absorption mouth 3341 of dust cover 334, the processing piece that prevents to saw the in-process production produces the raise dust, the processing environment is clean more sanitary.

Further, referring to fig. 4 and 5, the plurality of drill mechanisms 32 are provided, and the plurality of drill mechanisms 32 are arranged at intervals in the X-axis direction. The drill mechanism 32 includes a drill frame 323, a drill 321 and a drill driving member 322, wherein at least two drills 321 are pivotally connected to the drill frame 323, and the drill driving member 322 is used for driving the drills 321 to rotate, so as to mount the drill frame 323 on the processing frame 31.

In addition, a dust suction channel 3231 can be arranged on the drill bit frame 323, and the dust suction channel 3231 is arranged between every two adjacent drill bits 321; one end of the dust suction passage 3231 penetrates to the bottom end of the drill bit frame 323; the other end of the dust suction passage 3231 communicates with a dust suction device.

On the basis of the structure, when the drilling operation is performed, the driving mechanism of the processing frame 31 may drive the processing frame 31 to move downward, and the drill driving member 322 on the drill frame 323 may drive the drill 321 to rotate, so as to perform the drilling operation. At the same time, the drill bits 321 of the plurality of drill bit mechanisms 32 can simultaneously perform drilling operations on a plurality of workpieces 40, and a plurality of hole site machining operations can also be performed on the same workpiece 40.

Similarly, when drilling, the dust suction device can be communicated with the dust suction channel 3231, and the dust suction channel 3231 can perform dust suction between two adjacent drill bits 321, so that dust generated by machining chips generated in the drilling process is prevented from raising, and the machining environment is cleaner and more sanitary.

Further, referring to fig. 5, a milling cutter 341 mechanism may be further disposed on the processing frame 31, the milling cutter 341 mechanism includes a milling cutter 341 and a milling cutter 341 driving member, the milling cutter 341 is mounted on the processing frame 31, a second elastic member 342 is clamped between the milling cutter 341 and the processing frame 31, and the milling cutter 341 driving member is used for driving the milling cutter 341 to rotate. That is, the milling cutter 341 is further disposed on the processing frame 31, and after the drilling and sawing actions, the milling cutter 341 can be driven by the driving member of the milling cutter 341 to rotate, so that the milling of the workpiece 40 can be performed by the rotation of the milling cutter 341, and the processing component 30 has more processing types and more complete functions.

Of course, the saw blade 333 drive, the drill bit drive 322, and the mill 341 drive can be implemented by motors known in the art.

Further, referring to fig. 1 and 2, the driving mechanism of the processing frame 31 includes a first motor 41, a gear, a rack 342, and a gear seat 347, wherein the rack 342 is mounted on the frame 10 and extends along the Y-axis direction, the gear is pivoted on the gear seat 347 and is engaged with the rack 342, and a rotating shaft of the first motor 41 is connected with the gear.

A support beam 343 is connected to the gear seat 347, a second motor 348, a first lead screw 344 nut and a first guide mechanism are arranged on the support beam 343, and the first lead screw 344 is rotatably mounted on the support beam 343 and extends in the X-axis direction; the first lead screw 344 is connected with a rotating shaft of a second motor 348; the first lead screw 344 is in nut threaded connection with the outside of the first lead screw 344; the first lead screw 344 nut is used for moving along the X-axis direction under the guidance of the guide mechanism in the process of rotating the first lead screw 344.

The lead screw nut is connected with a driving seat 345, a third motor 346, a second lead screw nut 349 and a second guide mechanism are arranged on the driving seat 345, and the second lead screw is rotatably arranged on the driving seat 345 and extends along the Z-axis direction; the second screw rod is connected with a rotating shaft of the third motor 346, a second screw rod nut 349 is in threaded connection outside the second screw rod, and the second screw rod nut 349 is used for moving along the Z-axis direction under the guidance of the guide mechanism in the rotating process of the second screw rod; the processing rack 31 is connected with a second lead screw nut 349.

When the machining frame 31 moves in the Y-axis direction, the rotation of the rotating shaft of the first motor 41 can drive the gear to rotate, the gear can move along the rack 342 by rotating, and the supporting beam 343 on the gear seat 347 can move along the Y-axis. Thereafter, the rotation of the rotating shaft of the second motor 348 can drive the first lead screw 344 to rotate, the rotation of the first lead screw 344 can drive the nut of the first lead screw 344 in threaded connection therewith to rotate, the rotation of the nut of the first lead screw 344 can be guided by the first guiding mechanism to move along the X-axis direction, and further, the driving base 345 connected with the nut of the first lead screw 344 is driven to move along the X-axis direction.

In addition, the rotation shaft of the third motor 346 on the driving seat 345 rotates to drive the third lead screw to rotate, the third lead screw rotates to drive the second lead screw nut 349 matched with the thread to rotate, the rotation motion of the second lead screw nut 349 can move along the Z-axis direction under the guidance of the second guiding mechanism, and the processing frame 31 connected with the second lead screw nut 349 can move along the Z-axis direction, so that the processing frame 31 can move in the length direction, the width direction and the height direction of the rack 10.

Of course, the driving mechanism of the processing frame 31 may also be implemented by a combination of the first electric sliding table, the second electric sliding table, and the third electric sliding table in the prior art.

Various other modifications and changes can be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims.

Claims (7)

1. The drill bit sawing device is characterized by comprising,

the device comprises a frame, wherein a processing station is arranged on the frame;

the processing assembly comprises a processing frame, a drill bit mechanism, a saw blade mechanism and a processing frame driving mechanism, wherein the drill bit mechanism and the saw blade mechanism are arranged on the processing frame; the processing frame and the processing frame driving mechanism are arranged on the rack, and the processing frame driving mechanism is used for driving the processing frame to move along the X-axis direction, the Y-axis direction and the Z-axis direction.

2. The drill sawing device of claim 1 wherein the blade mechanism includes a blade holder, a blade holder drive member and a blade drive member, the blade holder being mounted to the processing holder, the blade holder drive member being adapted to move the blade holder in the Z-axis direction; the saw blade is rotatably arranged on the saw blade frame, and the saw blade driving piece is used for driving the saw blade to rotate.

3. The drill sawing device of claim 2, wherein the blade frame is provided with a blade swinging mechanism, the blade swinging mechanism comprises a worm, a worm wheel and a mounting seat, and the worm is rotatably mounted on the blade frame and arranged along the Z-axis direction; the worm wheel is arranged on the mounting seat, is meshed with the worm and is used for driving the mounting seat to rotate around the X-axis direction when the worm rotates; the saw blade driving piece and the saw blade are both arranged on the mounting seat; the saw blade driving piece is used for driving the saw blade to rotate around the Y-axis direction.

4. The drill sawing device of claim 3, wherein a dust cover is provided on the mounting base, the dust cover is provided above the saw blade, and a dust suction port is provided at a top end of the dust cover.

5. Drill bit sawing device according to any one of claims 1 to 4, wherein a plurality of drill bit mechanisms are provided, the plurality of drill bit mechanisms being arranged at intervals in the X-axis direction; the drill bit mechanism comprises a drill bit frame, drill bits and a drill bit driving piece, wherein at least two drill bits are pivoted on the drill bit frame, and the drill bit driving piece is used for driving the drill bits to rotate; the drill bit frame is arranged on the processing frame; the drill bit frame is provided with a dust collection channel, and the dust collection channel is arranged between every two adjacent drill bits; one end of the dust collection channel penetrates to the bottom end of the drill bit frame; the other end of the dust suction channel is communicated with dust suction equipment.

6. The drill sawing device according to any one of claims 1 to 4, wherein a milling cutter mechanism is further provided on the machining frame, the milling cutter mechanism comprising a milling cutter and a milling cutter driving member, the milling cutter being mounted on the machining frame, a second resilient member being clamped between the milling cutter and the machining frame, the milling cutter driving member being adapted to rotate the milling cutter.

7. Drill bit sawing device according to any one of claims 1 to 4, wherein the processing frame drive mechanism comprises,

the rack is mounted on the rack and extends along the Y-axis direction, the gear is rotatably mounted on the gear seat and meshed with the rack, and a rotating shaft of the first motor is connected with the gear;

the gear seat is connected with a support beam, the support beam is provided with a second motor, a first screw rod nut and a first guide mechanism, and the first screw rod is rotatably arranged on the support beam and extends along the X-axis direction; the first screw rod is connected with a rotating shaft of the second motor; the first screw rod nut is in threaded connection with the outside of the first screw rod; the first lead screw nut is used for moving along the X-axis direction under the guidance of the first guide mechanism in the process of rotating the first lead screw;

the screw rod nut is connected with a driving seat, a third motor, a second screw rod nut and a second guide mechanism are arranged on the driving seat, and the second screw rod is rotatably arranged on the driving seat and extends along the Z-axis direction; the second screw rod is connected with a rotating shaft of the third motor, a second screw rod nut is in threaded connection outside the second screw rod, and the second screw rod nut is used for moving along the Z-axis direction under the guidance of the second guide mechanism in the rotating process of the second screw rod; the processing frame is connected with the second screw rod nut.

Images