CN214377323U - Double-spindle numerical control teaching engraving machine - Google Patents

Abstract

The utility model discloses a two main shaft numerical control teaching engravers, including base frame, sculpture organism, driving motor and workstation, the sculpture organism is installed to one side on base frame top, and the inside one side of sculpture organism is provided with adjustment mechanism, driving motor is installed to one side on base frame top, and driving motor's one end installs the lead screw, the movable block has been cup jointed to one side on lead screw surface. The utility model discloses a manual twisting is twisted and is twisted the piece, it drives the screw rod and rotates to twist the piece, thereby promote screw rod and limiting plate down motion, resist the work piece with the limiting plate on, carry on spacingly to the work piece, it is rotatory that micro motor drives the action wheel after that, thereby it is rotatory to drive the action wheel, drive the conveyer belt rotation then, the conveyer belt rotates and can drive in proper order and rotate from driving wheel and driven shaft, it is rotatory to drive spacing through the driven shaft, thereby can rotate the work piece that the centre gripping is good, realized this engraver and be convenient for two-sided sculpture, the function that sculpture quality is high.

Description

Double-spindle numerical control teaching engraving machine

Technical Field

The utility model relates to a machining technology field specifically is a two main shaft numerical control teaching engravers.

Background

The engraving machine is essentially drilling and milling combined machining in terms of the working principle, and can be divided into a laser engraving machine and a machine engraving machine when in use, so that the engraving machine can further improve the machining efficiency of workpieces when in use, reduce the labor intensity of workers to a certain extent, and reduce the waste rate and rejection rate of products when in use;

the existing engraving machine can only engrave one side of a workpiece when in use, the workpiece needs to be manually turned when the other side needs to be engraved, time and labor are wasted, the working efficiency is low, and the engraving quality of the workpiece can be influenced due to the fact that the two sides are not engraved simultaneously when in engraving, and further improvement is required to be provided according to the situation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two main shaft numerical control teaching engravers to provide the inconvenient two-sided glyptic problem of this engraver in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a double-spindle numerical control teaching engraving machine comprises a bottom platform, an engraving machine body, a driving motor and a workbench, wherein the engraving machine body is arranged on one side of the top end of the bottom platform, and one side of the interior of the carving machine body is provided with an adjusting mechanism, one side of the top end of the carving machine body is provided with a driving motor, and one end of the driving motor is provided with a screw rod, one side of the surface of the screw rod is sleeved with a movable block, one side of the bottom of the carving machine body is provided with a workbench, and one side of the inner part of the workbench is provided with a rotating mechanism, one side of the top end of the rotating mechanism is provided with an overturning clamping mechanism, the overturning clamping mechanism comprises a support rod, a micro motor, a driving wheel, a conveying belt, a driven wheel, a driven shaft, a twisting block, a screw rod, a limiting plate and a limiting frame, wherein the support rod is arranged on one side in the engraving machine body, and a micro motor is arranged on the outer wall of one side of the supporting rod, and an engraving mechanism is arranged on one side of the surface of the adjusting mechanism.

Preferably, adjustment mechanism includes work motor, driving shaft, runner, belt, regulating block and support frame, the support frame is installed in the inside one side of base frame, and the runner is installed to one side on support frame surface, the driving shaft is installed to the one end of runner, and the one end of driving shaft extends to the outside of base frame and installs the work motor, the winding of one side on runner surface has the belt, and the regulating block is installed to one side of belt surface.

Preferably, rotary mechanism includes servo motor, pivot, carousel, universal wheel and turn trough, servo motor sets up in the inside one side of workstation, and servo motor's one end installs the pivot through the shaft coupling, the carousel is installed to the one end of pivot, and the inside one side of carousel is provided with the universal wheel, and the turn trough is installed to the inside one side of universal wheel.

Preferably, the action wheel is installed through the shaft coupling to micro motor's one end, and just one side on action wheel surface can be around having the conveyer belt, install on the outer wall of branch one side from the driving wheel, and install the driven shaft from the one end of driving wheel, spacing is installed to the one end of driven shaft, and one side threaded connection of spacing inside has the screw rod, and the one end of screw rod extends to the outside of spacing and installs and twist the piece, the limiting plate is installed to the other end of screw rod.

Preferably, sculpture mechanism includes micro motor, connecting axle, fluted disc, meshing dish, sculpture axle, the sculpture body, sculpture tool bit and laser axle, micro motor sets up in one side on adjustment mechanism surface, and micro motor's one end installs the connecting axle through the shaft coupling, the fluted disc is installed to the one end of connecting axle, and the meshing of one side on fluted disc surface has the meshing dish, the sculpture axle is installed to the one end of meshing dish, and the one end of sculpture axle installs the sculpture body, the sculpture tool bit is installed to one side of the sculpture body bottom, the laser axle is installed to the one end of fluted disc.

Preferably, one side on the surface of the screw rod is provided with an external thread, one side inside the movable block is provided with an internal thread matched with the external thread, and the screw rod and the movable block form a thread structure.

Compared with the prior art, the beneficial effects of the utility model are that: the double-spindle numerical control teaching engraving machine not only realizes the functions of convenient double-face engraving and high engraving quality of the engraving machine, convenient adjustment of the engraving machine, double-spindle engraving and high working efficiency, but also realizes the functions of rotatable base plate and convenient multi-angle engraving of the engraving machine;

(1) the twisting block is manually twisted, the twisting block drives the screw to rotate, so that the screw and the limiting plate are pushed to move downwards, the limiting plate is abutted against a workpiece, the workpiece is limited, the control panel is operated at the same time, the micro motor is started to work, the micro motor drives the driving wheel to rotate, the driving wheel is driven to rotate, the conveying belt sequentially drives the driven wheel and the driven shaft to rotate, the limiting frame is driven to rotate through the driven shaft, the clamped workpiece can be rotated, namely, the workpiece is turned over, so that the carving and carving treatment can be carried out on the two sides of the workpiece, the functions of facilitating the two-side carving and having high carving quality of the carving machine are realized, and the applicability of the carving machine in use is improved;

(2) the driving shaft is driven to rotate by the working motor, then the rotating wheel is driven to rotate, namely, the belt is driven to rotate, so that the adjusting block is driven to horizontally move on one side of the surface of the belt, the adjusting block is moved to a position right above a workpiece, the micro motor is simultaneously turned on, the micro motor drives the connecting shaft to rotate, so that the fluted disc is driven to rotate, the fluted disc and the meshing disc are meshed with each other, so that the meshing disc is driven to rotate, namely, the carving shaft and the laser shaft are simultaneously driven to rotate by the fluted disc and the meshing disc, and then the carving body and the carving tool bit are sequentially driven to rotate to carve the workpiece, so that the functions of convenience in adjustment, double-shaft carving and high working efficiency of the carving machine are realized;

(3) the rotating shaft is driven to rotate through the work of the servo motor, so that the rotating disc is driven to rotate, the rotating groove is driven to rotate in the universal wheel, the rotating disc rotates to drive the overturning clamping mechanism on the top end of the rotating disc to rotate, the limiting workpiece can be rotated, so that all angles of the workpiece can be carved, the rotating disc engraving machine has the advantages that the base plate of the engraving machine is rotatable, and the multi-angle engraving function is convenient.

Drawings

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

fig. 2 is a schematic view of the front view cross-sectional structure of the present invention;

fig. 3 is a schematic view of a partially enlarged structure at a in fig. 2 according to the present invention;

FIG. 4 is a schematic structural view of an adjusting mechanism of the present invention;

fig. 5 is a schematic structural view of the turnover clamping mechanism of the present invention.

In the figure: 1. a base table; 2. carving the machine body; 3. an adjustment mechanism; 301. a working motor; 302. a drive shaft; 303. a rotating wheel; 304. a belt; 305. an adjusting block; 306. a support frame; 4. a drive motor; 5. a work table; 6. a rotation mechanism; 601. a servo motor; 602. a rotating shaft; 603. a turntable; 604. a universal wheel; 605. rotating the groove; 7. turning over the clamping mechanism; 701. a strut; 702. a micro motor; 703. a driving wheel; 704. a conveyor belt; 705. a driven wheel; 706. a driven shaft; 707. twisting the block; 708. a screw; 709. a limiting plate; 710. a limiting frame; 8. an engraving mechanism; 801. a micro motor; 802. a connecting shaft; 803. a fluted disc; 804. an engaging disk; 805. engraving a shaft; 806. engraving a body; 807. engraving a cutter head; 808. a laser axis; 9. a screw rod; 10. a movable block.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a double-spindle numerical control teaching engraving machine comprises a base platform 1, an engraving machine body 2, a driving motor 4 and a workbench 5, wherein the engraving machine body 2 is installed on one side of the top end of the engraving machine body 2, an adjusting mechanism 3 is arranged on one side of the inside of the engraving machine body 2, the adjusting mechanism 3 comprises a working motor 301, a driving shaft 302, a rotating wheel 303, a belt 304, an adjusting block 305 and a supporting frame 306, the supporting frame 306 is installed on one side of the inside of the engraving machine body 2, the rotating wheel 303 is installed on one side of the surface of the supporting frame 306, the driving shaft 302 is installed at one end of the rotating wheel 303, one end of the driving shaft 302 extends to the outside of the base platform 1 and is provided with the working motor 301, the model of the working motor 301 is ISG15-80, the working motor 301 is connected with commercial power through a lead, the belt 304 is wound on one side of the surface of the rotating wheel 303, and the adjusting block 305 is installed on one side of the surface of the belt 304, the working motor 301 is turned on to work, the working motor 301 drives the driving shaft 302 to rotate, then the rotating wheel 303 is driven to rotate, namely the belt 304 is driven to rotate, so that the adjusting block 305 is driven to horizontally move on one side of the surface of the belt 304, and the adjusting block 305 is moved to be right above a workpiece;

one side of the surface of the adjusting mechanism 3 is provided with an engraving mechanism 8, the engraving mechanism 8 comprises a micro motor 801, a connecting shaft 802, a fluted disc 803, a meshing disc 804, an engraving shaft 805, an engraving body 806, an engraving tool bit 807 and a laser shaft 808, the micro motor 801 is arranged on one side of the surface of the adjusting mechanism 3, the model of the micro motor 801 is Y90S-2, the micro motor 801 is connected with commercial power through a lead wire, one end of the micro motor 801 is provided with the connecting shaft 802 through a coupler, one end of the connecting shaft 802 is provided with the fluted disc 803, one side of the surface of the fluted disc 803 is meshed with the meshing disc 804, one end of the meshing disc 804 is provided with the engraving shaft 805, one end of the engraving shaft 805 is provided with the engraving body 806, one side of the bottom end of the engraving body 806 is provided with the engraving tool bit 807, one end of the fluted disc 803 is provided with the laser shaft 808, the driving motor 4 is started to work, the driving motor 4 rotates to drive the lead screw 9 to rotate, the movable block 10 is driven to move up and down on one side of the surface of the screw rod 9, namely the adjusting mechanism 3 and the carving mechanism 8 are driven to move up and down to a proper height, the micro motor 801 is simultaneously turned on, the micro motor 801 drives the connecting shaft 802 to rotate so as to drive the fluted disc 803 to rotate, the fluted disc 803 and the meshing disc 804 are meshed with each other so as to drive the meshing disc 804 to rotate, namely the fluted disc 803 and the meshing disc 804 simultaneously drive the carving shaft 805 and the laser shaft 808 to rotate, then the carving body 806 and the carving tool head 807 are sequentially driven to rotate, the placed workpiece is carved by the carving tool head 807, the carving shaft 805 and the laser shaft 808 are subjected to double-shaft rotating carving, different workpieces can be simultaneously machined, and the working efficiency is higher;

a driving motor 4 is installed on one side of the top end of the carving machine body 2, the type of the driving motor 4 is ZDY11-4, the driving motor 4 is connected with commercial power through a lead wire, a lead screw 9 is installed on one end of the driving motor 4, a movable block 10 is sleeved on one side of the surface of the lead screw 9, an external thread is arranged on one side of the surface of the lead screw 9, an internal thread matched with the external thread is arranged on one side inside the movable block 10, the lead screw 9 and the movable block 10 form a thread structure, a workbench 5 is installed on one side of the bottom of the carving machine body 2, a rotating mechanism 6 is arranged on one side inside the workbench 5, the rotating mechanism 6 comprises a servo motor 601, a rotating shaft 602, a rotating disc 603, a universal wheel 604 and a rotating groove 605, the servo motor 601 is arranged on one side inside the workbench 5, the rotating shaft 602 is installed on one end of the servo motor 601 through a coupler, and the rotating disc 603 is installed on one end of the rotating shaft 602, a universal wheel 604 is arranged on one side inside the turntable 603, a rotary groove 605 is arranged on one side inside the universal wheel 604, the servo motor 601 is operated to start working, the servo motor 601 drives the rotating shaft 602 to rotate, so that the turntable 603 is driven to rotate, namely the rotary groove 605 is driven to rotate inside the universal wheel 604, the turntable 603 rotates, namely the turnover clamping mechanism 7 at the top end of the turntable 603 is driven to rotate, and therefore a limited workpiece can be rotated, so that all angles of the workpiece can be carved;

the turning clamping mechanism 7 is arranged on one side of the top end of the rotating mechanism 6, the turning clamping mechanism 7 comprises a support rod 701, a micro motor 702, a driving wheel 703, a conveying belt 704, a driven wheel 705, a driven shaft 706, a screwing block 707, a screw 708, a limiting plate 709 and a limiting frame 710, the support rod 701 is arranged on one side inside the engraving machine body 2, the micro motor 702 is arranged on the outer wall of one side of the support rod 701, the model of the micro motor 702 is YCTL112-4A4B, the micro motor 702 is connected with commercial power through a lead, one end of the micro motor 702 is provided with the driving wheel 703 through a coupler, only one side of the surface of the driving wheel 703 can be wound with the conveying belt 704, the driven wheel 705 is arranged on the outer wall of one side of the support rod 701, the driven shaft 706 is arranged at one end of the driven shaft 705, the limiting frame 710 is arranged at one end of the driven shaft 706, the screw 708 is connected with the screw 708 through a thread on one side inside the limiting frame 710, one end of the screw 708 extends to the outside of the limiting frame 710 and is provided with the screwing block 707, the other end of the screw 708 is provided with a limiting plate 709, a workpiece to be engraved is placed on a limiting frame 710, then the screwing block 707 is screwed manually, the screwing block 707 drives the screw 708 to rotate, so that the screw 708 and the limiting plate 709 are pushed to move downwards, the limiting plate 709 is resisted on the workpiece to limit the workpiece, meanwhile, the control panel is operated, the micro motor 702 is started to work, the micro motor 702 drives the driving wheel 703 to rotate, the driving wheel 703 is driven to rotate, the conveying belt 704 rotates to sequentially drive the driven wheel 705 and the driven shaft 706 to rotate, the limiting frame 710 is driven to rotate through the driven shaft 706, so that the clamped workpiece can be rotated, namely, the workpiece is turned over, and therefore the double faces of the workpiece can be engraved and engraved.

The working principle is as follows: when the utility model is used, the engraving machine is prepared, the engraving machine is moved to a proper working place, part of the external power supply of the engraving machine is connected, firstly, the workpiece to be processed and engraved is placed on the limiting frame 710, then the screw block 707 is manually screwed, the screw block 707 drives the screw 708 to rotate, thereby pushing the screw 708 and the limiting plate 709 to move downwards, resisting the limiting plate 709 to the workpiece, limiting the workpiece, operating the control panel, starting the micro motor 702 to operate, the micro motor 702 driving the driving wheel 703 to rotate, thereby driving the driving wheel 703 to rotate and further driving the transmission belt 704 to rotate, the transmission belt 704 rotates to drive the driven wheel 705 and the driven shaft 706 to rotate in turn, the driven shaft 706 drives the limiting frame 710 to rotate, the clamped workpiece can be rotated, namely, the workpiece is turned over, so that the two sides of the workpiece can be carved and carved;

then, the servo motor 601 is operated to start working, the servo motor 601 drives the rotating shaft 602 to rotate, so as to drive the rotating disc 603 to rotate, namely, the rotating groove 605 is driven to rotate inside the universal wheel 604, the rotating disc 603 rotates, namely, the overturning clamping mechanism 7 at the top end of the rotating disc is driven to rotate, so that the limited workpiece can be rotated, and all angles of the workpiece can be conveniently engraved;

finally, the driving motor 4 is started to work, the driving motor 4 rotates to drive the screw rod 9 to rotate, so as to drive the movable block 10 to do lifting motion on one side of the surface of the screw rod 9, namely, the adjusting mechanism 3 and the engraving mechanism 8 to do lifting motion to reach a proper height, then the working motor 301 is started to work, the working motor 301 drives the driving shaft 302 to rotate, and then drives the rotating wheel 303 to rotate, namely, the belt 304 to rotate, so as to drive the adjusting block 305 to do horizontal motion on one side of the surface of the belt 304, so as to move the adjusting block 305 to be right above a workpiece, and simultaneously the micro motor 801 is started, the micro motor 801 drives the connecting shaft 802 to rotate, so as to drive the fluted disc 803 to rotate, the fluted disc 803 and the meshing disc 804 to mesh with each other, so as to drive the meshing disc 804 to rotate, namely, the engraving shaft 805 and the laser shaft 808 are simultaneously driven to rotate through the fluted disc 803 and the meshing disc 804, so as to sequentially drive the engraving body 806 and the engraving head 807 to rotate, carve the work piece of placing through carving tool bit 807, carve the rotatory sculpture of axle 805 and laser axle 808 biax, can process the work piece of difference simultaneously, work efficiency is higher.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a two main shaft numerical control teaching engravers, includes base frame (1), sculpture organism (2), driving motor (4) and workstation (5), its characterized in that: the carving machine is characterized in that a carving machine body (2) is installed on one side of the top end of the base platform (1), an adjusting mechanism (3) is arranged on one side of the interior of the carving machine body (2), a driving motor (4) is installed on one side of the top end of the carving machine body (2), a lead screw (9) is installed at one end of the driving motor (4), a movable block (10) is sleeved on one side of the surface of the lead screw (9), a workbench (5) is installed on one side of the bottom of the carving machine body (2), a rotating mechanism (6) is arranged on one side of the interior of the workbench (5), a turnover clamping mechanism (7) is arranged on one side of the top end of the rotating mechanism (6), the turnover clamping mechanism (7) comprises a support rod (701), a micro motor (702), a driving wheel (703), a conveying belt (704), a driven wheel (705), a driven shaft (706), a twisting block (707), a screw (708), a limiting plate (709) and a limiting frame (710), the support rod (701) is arranged on one side of the interior of the carving machine body (2), the micro motor (702) is installed on the outer wall of one side of the support rod (701), and the carving mechanism (8) is arranged on one side of the surface of the adjusting mechanism (3).

2. The double-spindle numerical control teaching engraving machine of claim 1, wherein: adjustment mechanism (3) are including work motor (301), driving shaft (302), runner (303), belt (304), regulating block (305) and support frame (306), support frame (306) are installed in the inside one side of sculpture organism (2), and one side on support frame (306) surface installs runner (303), driving shaft (302) are installed to the one end of runner (303), and the one end of driving shaft (302) extends to the outside of end platform (1) and installs work motor (301), one side winding on runner (303) surface has belt (304), and regulating block (305) are installed to one side on belt (304) surface.

3. The double-spindle numerical control teaching engraving machine of claim 1, wherein: rotary mechanism (6) include servo motor (601), pivot (602), carousel (603), universal wheel (604) and turn trough (605), servo motor (601) set up in workstation (5) inside one side, and the one end of servo motor (601) is passed through the shaft coupling and is installed pivot (602), carousel (603) are installed to the one end of pivot (602), and the inside one side of carousel (603) is provided with universal wheel (604), and turn trough (605) are installed to the inside one side of universal wheel (604).

4. The double-spindle numerical control teaching engraving machine of claim 1, wherein: the one end of micro motor (702) is passed through the shaft coupling and is installed action wheel (703), and action wheel (703) surface one side can only be around having conveyer belt (704), install on the outer wall of branch (701) one side from driving wheel (705), and install driven shaft (706) from the one end of driving wheel (705), spacing (710) are installed to the one end of driven shaft (706), and one side threaded connection of spacing (710) inside has screw rod (708), and the one end of screw rod (708) extends to the outside of spacing (710) and installs wrong piece (707), limiting plate (709) are installed to the other end of screw rod (708).

5. The double-spindle numerical control teaching engraving machine of claim 1, wherein: sculpture mechanism (8) include micro motor (801), connecting axle (802), fluted disc (803), meshing dish (804), sculpture axle (805), the sculpture body (806), sculpture tool bit (807) and laser axle (808), micro motor (801) set up in one side on adjustment mechanism (3) surface, and the one end of micro motor (801) installs connecting axle (802) through the shaft coupling, fluted disc (803) are installed to the one end of connecting axle (802), and the meshing of one side on fluted disc (803) surface has meshing dish (804), sculpture axle (805) are installed to the one end of meshing dish (804), and the one end of sculpture axle (805) installs the sculpture body (806), sculpture tool bit (807) is installed to the one side of the sculpture body (806) bottom, laser axle (808) are installed to the one end of fluted disc (803).

6. The double-spindle numerical control teaching engraving machine of claim 1, wherein: one side on lead screw (9) surface is provided with the external screw thread, the inside one side of movable block (10) is provided with the internal thread that matches each other with the external screw thread, lead screw (9) and movable block (10) constitute helicitic texture.

Images