CN215549402U

CN215549402U - Plane mirror image engraving machine

Info

Publication number: CN215549402U
Application number: CN202122030352.XU
Authority: CN
Inventors: 胡太陆
Original assignee: Jinan Beiyin Numerical Control Machine Co ltd
Current assignee: Jinan Beiyin Numerical Control Machine Co ltd
Priority date: 2021-08-26
Filing date: 2021-08-26
Publication date: 2022-01-18
Anticipated expiration: 2031-08-26

Abstract

The utility model discloses a plane mirror image engraving machine, and particularly relates to the technical field of engraving machinery. This can follow crossbeam rectilinear sliding's X slide through setting up, the gliding Z slide of X slide vertical direction can be followed in the setting simultaneously, through two Z slides respectively with first aircraft nose and second aircraft nose fixed connection, slide through two sets of X slides of synchro control and Z slides, can drive first aircraft nose and second aircraft nose synchronous motion, and realize carving the mirror image of material, improve sculpture work efficiency, reduce labour cost.

Description

Plane mirror image engraving machine

Technical Field

The utility model relates to the technical field of engraving machines, in particular to a plane mirror image engraving machine.

Background

At present, can use the engraver to carve the material in the sculpture operation, along with the engraver application area constantly expands, the type of engraver processing section bar is also more and more, ordinary carpenter's engraver or ordinary stone material engraver can't satisfy the multiple requirement of user to the processing material at all, for example, the user needs horizontal mirror image processing material, carve or cut out two relative materials simultaneously, and ordinary engraver need divide twice processing, and efficiency is too low, increases labour cost, the urgent need is in order to solve above-mentioned problem now.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a planar mirror engraving machine to solve the problems of the prior art.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a plane mirror image engraver, includes crossbeam, first aircraft nose and second aircraft nose, and the outer wall of crossbeam is provided with the adjustment mechanism who is used for controlling first aircraft nose and the activity of second aircraft nose.

The adjusting mechanism comprises a drive plate and an X sliding plate, the drive plate is connected with the cross beam in a sliding mode, the side wall of the drive plate is fixedly connected with the side wall of the X sliding plate, a Z sliding plate is slidably mounted on one side of the X sliding plate, a spindle mounting plate is fixedly mounted on the outer wall of the Z sliding plate, and one ends of the two spindle mounting plates are fixedly connected with the outer walls of the first machine head and the second machine head respectively.

Preferably, an X-axis rack is fixedly mounted on the side wall of the cross beam, an X-speed reducing wheel is rotatably mounted on the upper end face of the driving plate, and a gear meshed with the X-axis rack is fixedly mounted at one axial end of the X-speed reducing wheel through a connecting shaft.

Preferably, an X-axis motor is fixedly mounted on the upper end face of the driving plate, an X-axis synchronous belt is arranged on a power transmission shaft of the X-axis motor, and an output shaft of the X-axis motor is connected with an X-axis speed reducing wheel through the X-axis synchronous belt.

Preferably, the Z slide rail has been seted up to the lateral wall of X slide, and the outer wall of Z slide and the inner wall sliding fit of Z slide rail, the inner wall of Z slide rail rotate and install the Z axle lead screw, and the Z axle lead screw runs through the Z slide through interior external screw thread fit.

Preferably, a Z-synchronizing wheel is fixedly mounted at one axial end of the Z-axis lead screw, a Z-axis motor is fixedly mounted on the upper end face of the driving plate, a Z-synchronizing belt is arranged on a power transmission shaft of the Z-axis motor, and the Z-synchronizing wheel is connected with the power transmission shaft of the Z-axis motor through the Z-synchronizing belt.

Compared with the prior art, the utility model has the beneficial effects that:

1. this can follow crossbeam rectilinear sliding's X slide through setting up, the gliding Z slide of X slide vertical direction can be followed in the setting simultaneously, through two Z slides respectively with first aircraft nose and second aircraft nose fixed connection, slide through two sets of X slides of synchro control and Z slides, can drive first aircraft nose and second aircraft nose synchronous motion, and realize carving the mirror image of material, improve sculpture work efficiency, reduce labour cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a schematic view of the structure of the adjusting mechanism of the present invention.

Fig. 3 is a cross-sectional view of a cross-beam according to the present invention.

In the figure: 1. a cross beam; 2. a first head; 3. a second head; 4. an adjustment mechanism; 41. an X slide plate; 42. a drive plate; 43. a Z slide rail; 44. a Z-axis lead screw; 45. a Z slide plate; 46. a main shaft mounting plate; 47. an X-axis motor; 48. an X speed-reducing wheel; 49. an X-axis synchronous belt; 410. an X-axis rack; 411. a Z-axis motor; 412. a Z synchronizing wheel; 413. and a Z synchronous belt.

Detailed Description

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

Example (b): as shown in fig. 1-3, the utility model provides a plane mirror image engraving machine, which comprises a beam 1, a first machine head 2 and a second machine head 3, wherein the beam 1 is fixedly connected with a worktable of the engraving machine.

The outer wall of crossbeam 1 is provided with adjustment mechanism 4 that is used for controlling first aircraft nose 2 and the activity of second aircraft nose 3, and the carving of first aircraft nose 2 or cutting normal image, second aircraft nose 3 carves and cuts the same horizontal mirror image figure with first aircraft nose 2.

The adjusting mechanism 4 comprises a driving plate 42 and an X sliding plate 41, wherein the driving plate 42 is connected with the beam 1 in a sliding mode, and the driving plate 42 can slide along the horizontal direction relative to the transverse shaft.

The side wall of the driving plate 42 is fixedly connected with the side wall of the X sliding plate 41, and the driving plate 42 slides to drive the X sliding plate 41 to slide synchronously.

A Z slide plate 45 is slidably mounted on one side of the X slide plate 41, and the Z slide plate 45 can slide relative to the X slide plate 41 in the vertical direction.

The outer wall of the Z sliding plate 45 is fixedly provided with spindle mounting plates 46, wherein one ends of the two spindle mounting plates 46 are fixedly connected with the outer walls of the first machine head 2 and the second machine head 3 respectively.

Axial one ends of the two spindle mounting plates 46 are fixedly connected with the outer walls of the first machine head 2 and the second machine head 3 respectively, the spindle mounting plates 46 can be driven to move along the vertical direction and the horizontal direction through the movement of the drive plate 42 and the Z sliding plate 45, wherein the X sliding plate 41, the Z sliding plate 45 and the spindle mounting plates 46 are respectively provided with two groups, and the first machine head 2 and the second machine head 3 are driven to move through the two spindle mounting plates 46 respectively so as to finish plane mirror image engraving.

Further, the lateral wall fixed mounting of crossbeam 1 has X axle rack 410, and the up end of drive plate 42 rotates installs X reducing gear 48, and X reducing gear 48 can rotate along self axis, and the axial one end of X reducing gear 48 is through connecting axle fixed mounting with the gear of X axle rack 410 meshing, drives gear rotation through rotating X reducing gear 48, utilizes gear and X axle rack 410 to mutually support, can drive plate 42 and slide along the horizontal direction.

Furthermore, an X-axis motor 47 is fixedly mounted on the upper end face of the driving plate 42, the X-axis motor 47 is electrified, the X-axis motor 47 executes a motion command, an X-axis synchronous belt 49 is arranged on a power transmission shaft of the X-axis motor 47, an output shaft of the X-axis motor 47 is connected with an X-speed reducing wheel 48 through the X-axis synchronous belt 49, the X-axis motor 47 drives the X-speed reducing wheel 48 to rotate through the X-axis synchronous belt 49, and the X-axis motor 47 serves as a power source for rotating the X-speed reducing wheel 48.

Further, Z slide rail 43 has been seted up to X slide 41's lateral wall, and the outer wall of Z slide 45 and the inner wall of Z slide rail 43 slide the laminating, and Z slide rail 43 provides the sliding space for Z slide 45.

The inner wall of the Z slide rail 43 is rotatably provided with a Z-axis screw 44, the Z-axis screw 44 penetrates through the Z slide plate 45 through the matching of internal and external threads, and the Z-axis screw 44 is rotated to drive the Z slide plate 45 to slide along the vertical direction by utilizing the thread transmission principle.

The Z sliding plate 45 can be driven to stably lift by rotating the Z shaft screw 44, and then the first machine head 2 and the second machine head 3 can be driven to stably lift, so that the engraving processing quality is improved.

Further, a Z-synchronizing wheel 412 is fixedly mounted at one axial end of the Z-axis lead screw 44, a Z-axis motor 411 is fixedly mounted on the upper end face of the driving plate 42, a Z-synchronizing belt 413 is arranged on a power transmission shaft of the Z-axis motor 411, the Z-synchronizing wheel 412 is connected with the Z-axis motor 411 through the Z-synchronizing belt 413 and the power transmission shaft of the Z-axis motor 411, the Z-synchronizing wheel 412 drives the Z-synchronizing wheel 412 to rotate through the Z-synchronizing belt 413, and the Z-axis lead screw 44 is driven to rotate through the Z-synchronizing wheel 412, so that the effect of controlling the Z sliding plate 45 to lift is achieved.

In addition, the Z-axis motor 411 and the X-axis motor 47 are both stepping motors so as to control the rotation of the Z-axis motor 411 and the X-axis motor 47 by setting programs.

The equal fixed mounting of outer wall of two Z slides 45 has spindle mounting panel 46, two spindle mounting panels 46 correspond with

first aircraft nose

2 and 3 outer wall fixed connection of second aircraft nose, add man-hour when the engraver needs the horizontal mirror image, first aircraft nose 2 can begin to process from the left side of processing material, second aircraft nose 3 begins to process from the right of processing material, two aircraft noses are toward 1 central processing of engraver crossbeam simultaneously, 1 both ends of engraver crossbeam can be got back to first aircraft nose 2 and second aircraft nose 3 after the processing is accomplished, all carves and cutting instruction have the engraver system to send, and execute through control Z axle motor 411 and X axle motor 47, can realize the mirror image sculpture to the material, improve sculpture work efficiency, and labor cost is reduced.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides a plane mirror image engraver, includes crossbeam (1), first aircraft nose (2) and second aircraft nose (3), its characterized in that: the outer wall of the cross beam (1) is provided with an adjusting mechanism (4) for controlling the first machine head (2) and the second machine head (3) to move;

adjustment mechanism (4) include drive plate (42) and X slide (41), drive plate (42) and crossbeam (1) sliding connection, the lateral wall of drive plate (42) and the lateral wall fixed connection of X slide (41), one side sliding mounting of X slide (41) has Z slide (45), the outer wall fixed mounting of Z slide (45) has main shaft mounting panel (46), two the one end of main shaft mounting panel (46) respectively with the outer wall fixed connection of first aircraft nose (2) and second aircraft nose (3).

2. A mirror image engraver as claimed in claim 1, wherein the side wall of the beam (1) is fixedly provided with an X-axis rack (410), the upper end surface of the driving plate (42) is rotatably provided with an X-speed reduction wheel (48), and one axial end of the X-speed reduction wheel (48) is fixedly provided with a gear engaged with the X-axis rack (410) through a connecting shaft.

3. The planar mirror image engraving machine according to claim 2, wherein an X-axis motor (47) is fixedly mounted on the upper end surface of the driving plate (42), an X-axis synchronous belt (49) is arranged on a power transmission shaft of the X-axis motor (47), and an output shaft of the X-axis motor (47) is connected with an X-speed reducing wheel (48) through the X-axis synchronous belt (49).

4. A mirror image engraving machine according to claim 3, characterized in that the side wall of the X sliding plate (41) is provided with a Z sliding rail (43), the outer wall of the Z sliding plate (45) is in sliding fit with the inner wall of the Z sliding rail (43), the inner wall of the Z sliding rail (43) is rotatably provided with a Z-axis lead screw (44), and the Z-axis lead screw (44) penetrates through the Z sliding plate (45) through the fit of internal and external threads.

5. The mirror image engraving machine of claim 4, wherein a Z synchronous wheel (412) is fixedly installed at one axial end of the Z-axis screw rod (44), a Z-axis motor (411) is fixedly installed at the upper end face of the driving plate (42), a Z synchronous belt (413) is arranged on a power transmission shaft of the Z-axis motor (411), and the Z synchronous wheel (412) is connected with the power transmission shaft of the Z-axis motor (411) through the Z synchronous belt (413).