CN209452999U - Portable laser engraving machine - Google Patents

Abstract

The problem of the utility model relates to a kind of portable laser engraving machine, the present laser engraving machine figure bulky construction of effective solution is complicated, manufacture use cost is high, operation maintenance is both needed to professional, and human cost is high, operates inconvenient maintenance；Its solve technical solution be include casing, it is characterized in that, Y-axis sliding rail is fixedly connected on the casing, support portion is slidably connected on the Y-axis sliding rail, support portion driving device is fixedly connected on the support portion, slide support portion can on the Y-axis sliding rail, turntable is rotatably connected on the support portion, X-axis slide rail is fixedly connected on the turntable, laser sliding block is slidably connected in the X-axis slide rail, laser sliding block is connected with the X-axis motor being fixedly connected on the turntable；The utility model is easily operated, easy to repair, while figure has apparent reduction, and transport easy to carry carries, practical.

Description

Portable laser engraving machine

Technical field

The utility model relates to laser engraving machine technical fields, specifically portable laser engraving machine.

Background technique

Traditional numerical control machining center is by basic components, spindle assemblies, feed mechanism, digital control system, automatic tool changer It is formed with the auxiliary device such as part such as lubrication, cooling, chip removal, protection, hydraulic, pneumatic and detection system.Numerical control machining center Switch cutter by the movement and tool magazine that control three coordinates to process workpiece.However, since above-mentioned motion design not enough closes Reason causes cutter easy to wear and deep narrow slot not easy to be processed, and the cost of charp tool is high, and tool magazine occupied space is big, the replacement shadow of cutter Ring processing efficiency.

Traditional numerical control machining center is also limited by stem height and tool changing device, and the biggish work of working height is unable to Part, in processing cavity or recessed type face, chip is not easy to be discharged, and cutter can be also damaged when serious, destroys machined surface, shadow Ring going on smoothly for processing.Therefore, so that traditional numeric-control machining center cost of equipment is high, and to operator and maintenance personal Technical requirements are higher.I.e. traditional laser engraving machine figure bulky construction is complicated, needs professional technician to operate, safeguards simultaneously It is also required to professional service personnel's maintenance and repair, maintenance time is long, at high cost.

Therefore, the utility model provides portable laser engraving machine to solve the problems, such as this.

Utility model content

For above situation, for the defect for overcoming the prior art, the utility model provides portable laser engraving machine, effectively Solve that present laser engraving machine figure bulky construction is complicated, manufacture use cost is high, operation maintenance is both needed to professional, people The problem of power is at high cost, operates inconvenient maintenance.

The utility model includes casing, which is characterized in that Y-axis sliding rail, the Y-axis are fixedly connected on the casing Support portion is slidably connected on sliding rail, support portion driving device is fixedly connected on the support portion, makes support portion can be in institute It is slided on the Y-axis sliding rail stated, turntable is rotatably connected on the support portion, is fixedly connected with X-axis slide rail on the turntable, Laser sliding block, laser sliding block and the X-axis motor phase being fixedly connected on the turntable are slidably connected in the X-axis slide rail Even.

Preferably, the support portion driving device is slidably connected at upper backup pad and cunning above the Y-axis sliding rail The dynamic lower supporting plate for being connected to the Y-axis sliding rail lower end, the turntable are rotatably connected on the upper backup pad upper end, institute Multiple axle sleeves are rotatably connected between the upper backup pad and lower supporting plate stated, are fixedly connected on the axle sleeve and institute What the Y-axis sliding rail stated connected leads driving wheel.

Preferably, the left and right sides that Y-axis sliding rail is set of each axle sleeve respectively symmetrically, the upper branch Fagging is connected by belt with y-axis motor.

Preferably, there are four the axle sleeves, axle sleeve described in two is located on the left of the Y-axis sliding rail, described in another two Axle sleeve is located on the right side of the Y-axis sliding rail.

Preferably, it is fixedly connected with branch supporting piece on the turntable, it is sliding that X-axis is fixedly connected on the branch supporting piece Rail.

Preferably, the laser sliding block is connected with the X-axis motor by belt.

The utility model is complicated for existing present laser engraving machine figure bulky construction, manufacture use cost is high, behaviour The problem of work maintenance is both needed to professional, and human cost is high, operates inconvenient maintenance, realizes existing laser using simple structure The function of engraving machine greatly reduces manufacture, the fund for using and repairing, human cost, so that the utility model is easily operated, It is easy to repair, while figure has apparent reduction, transport easy to carry carries, practical.

Detailed description of the invention

Fig. 1 is utility model works state stereoscopic schematic diagram.

Fig. 2 is utility model works state schematic front view.

Fig. 3 is the utility model off working state stereoscopic schematic diagram.

Fig. 4 is the utility model upper backup pad stereoscopic schematic diagram.

Fig. 5 is the utility model branch supporting piece stereoscopic schematic diagram.

Specific embodiment

Aforementioned and other technology contents, feature and effect in relation to the utility model, in following cooperation with reference to figures 1 through figure In the detailed description of 5 pairs of embodiments, can clearly it present.The structure content being previously mentioned in following embodiment is with explanation Book attached drawing is reference.

Each exemplary embodiment of the utility model is described below with reference to accompanying drawings.

Embodiment one, the use of the new type are portable laser engraving machine, including casing 1, the casing 1 can be placed in ground Face or table top, for providing immobilizing foundation for subsequent structural, to simplify the figure of the present apparatus to reduce manufacturing cost while be convenient for Transport carries, and with reference to Fig. 1, the casing 1 of the present apparatus is two pieces of front and backs, two blocks of opposed side plates arranged side by side, which is characterized in that described Y-axis sliding rail 2 is fixedly connected on casing 1, specifically, the Y-axis sliding rail 2 it is horizontal it is vertical place, both ends respectively with two pieces Side plate is fixedly connected, guided way of the Y-axis sliding rail 2 using 20-40 profile as subsequent structural, while Y-axis sliding rail 2 also will Two side plates are connected to become complete 1 entirety of casing, slidably connect support portion 3 on the Y-axis sliding rail 2, described It is fixedly connected with 3 driving device of support portion on support portion 3, slide support portion 3 can on the Y-axis sliding rail 2, the branch 3 driving device of support part is connected by electric wire with external power supply, and the support portion 3 can vertically slide back and forth simultaneously along Y-axis sliding rail 2 The subsequent structural movement on support portion 3 is driven, is rotatably connected to turntable 4 on the support portion 3, the turntable 4 can be with branch The synchronization of support part 3 slides back and forth on Y-axis sliding rail 2, while the turntable 4 can rotate on support portion 3, and the turntable 4 is Electric turntable 4 is connected with external power supply by electric wire, X-axis slide rail 5, the support is fixedly connected on the turntable 4 Portion 3 slides back and forth on Y-axis sliding rail 2 and the X-axis slide rail 5 can be driven to synchronize slide back and forth, while when turntable 4 rotates can drive X-axis slide rail 5 rotates synchronously, and slidably connects laser sliding block 6 in the X-axis slide rail 5, laser sliding block 6 and is fixedly connected on institute The X-axis motor 7 on turntable 4 stated is connected, and the X-axis motor 7 is connected by electric wire with external power supply, the laser sliding block 6 can slide under the driving of X-axis motor 7 along the X-axis slide rail 5.

Embodiment two, on the basis of example 1,3 driving device of support portion include be slidably connected at it is described The upper backup pad 8 of 2 top of Y-axis sliding rail and the lower supporting plate 9 for being slidably connected at 2 lower end of Y-axis sliding rail, the turntable 4 It is rotatably connected on 8 upper end of upper backup pad, is rotatably connected to multiple axis between the upper backup pad 8 and lower supporting plate 9 Set 10, with reference to Fig. 1, i.e., upper backup pad 8, lower supporting plate 9 and multiple axle sleeves 10 has collectively constituted support portion 3, is placed in Y-axis The lower supporting plate 9 of 2 lower section of upper backup pad 8 and Y-axis sliding rail of the top of sliding rail 2 formd under the action of multiple axle sleeve 10 one it is whole Body can slide back and forth on Y-axis sliding rail 2, be fixedly connected on each axle sleeve 10 and connect with the Y-axis sliding rail 2 Driving wheel 11 is led in touching connection, and the upper backup pad 8 is connected by belt with y-axis motor 12, and the y-axis motor 12 passes through electricity Line is connected with external power supply, and described leads driving wheel 11 and the contact connectio of Y-axis sliding rail 2, with this clamping brace portion 3 in Y-axis Sliding rail 2 slides up, guarantees the stability of its sliding, it should be noted that, Y is arranged on the output shaft of the y-axis motor 12 Axis belt, 20 slot is offered on the Y-axis sliding rail 2, and the Y-axis belt is placed in slot and drives 3 edge of support portion with this Y-axis sliding rail 2 slide.

Embodiment three, on the basis of example 2, the setting of each axle sleeve 10 respectively symmetrically are sliding in Y-axis The left and right sides of rail 2, leading driving wheel 11 and support portion 3 can be firmly fixed on Y-axis sliding rail 2 positioned at 2 two sides of Y-axis sliding rail, with It prevents it to be swung left and right, cooperate and be slidably connected at the upper backup pad 8 of 2 upper section of Y-axis sliding rail and is slidably connected under Y-axis sliding rail 2 The lower supporting plate 9 at end effectively limits the freedom degree in other directions outside 2 direction of Y-axis sliding rail at support portion 3, ensure that support Stabilization of the portion 3 in sliding process, the upper backup pad 8 is connected by belt with y-axis motor 12, specifically, the Y-axis Y-axis belt grooves are offered on sliding rail 2, and the Y-axis belt being fixedly connected with upper backup pad 8, institute are provided in the Y-axis belt grooves 2 both ends of Y-axis sliding rail stated are rotatably connected to Y-axis guide wheel, and the Y-axis guide wheel is connected with y-axis motor 12, and y-axis motor 12 works The rotation of Y-axis guide wheel is driven to drive upper backup pad 8 to slide along Y-axis sliding rail 2 by Y-axis belt.

Example IV, on the basis of embodiment two or three, there are four the axle sleeves 10,10, axle sleeve described in two In 2 left side of Y-axis sliding rail, axle sleeve 10 described in another two is located at 2 right side of Y-axis sliding rail, and axle sleeve 10 is set as four and two Two are symmetrically arranged in the left and right sides of Y-axis sliding rail 2, can effectively step up support portion 3 on Y-axis sliding rail 2, guarantee support portion 3 in the steady of sliding process, because then obviously will lead to the process that support portion 3 slides on Y-axis sliding rail 2 according to two axle sleeves 10 The middle phenomenon for left and right skew occur, and can make that structure is more lengthy and jumbled, cost increases and effect if more axle sleeves 10 are set Identical with the effect of four axle sleeves 10, i.e. four axle sleeves 10 are the minimum number for guaranteeing effect.

Embodiment five is fixedly connected with branch supporting piece 13 on the basis of example 1 on the turntable 4, described X-axis slide rail 5 is fixedly connected on branch supporting piece 13, X-axis slide rail 5 can be firmly fixed to turntable 4 by the branch supporting piece 13 On so that turntable 4 slid back and forth under the drive of support portion 3 along Y-axis sliding rail 2 and turntable 4 rotate when can drive X-axis Sliding rail 5 is stable to move synchronously.

Embodiment six, on the basis of embodiment one or five, the laser sliding block 6 and the X-axis motor 7 pass through skin Band is connected, i.e., the laser sliding block 6 is fixedly connected on belt, and the work of X-axis motor 7 can drive belt to rotate, and then drive Laser sliding block 6 slides in X-axis slide rail 5, specifically, X-axis belt grooves are offered in the X-axis slide rail 5, the X-axis skin The X-axis belt being fixedly connected with laser sliding block 6 is provided in trough of belt, the X-axis belt bypasses and is rotatably connected on X-axis slide rail 5 The X-axis guide wheel at both ends, the X-axis guide wheel are connected with X-axis motor 7, and the work of X-axis motor 7 drives the rotation of X-axis guide wheel logical Crossing X-axis belt drives laser sliding block 6 to slide along X-axis slide rail 5.

The utility model is when specifically used, when the present apparatus is in running order, controls the y-axis motor 12 and drives Support portion 3 slides into 2 central location of Y-axis sliding rail, while controlling the rotation of turntable 4, keeps X-axis slide rail 5 and Y-axis sliding rail 2 vertical, even if X-axis slide rail 5 is in horizontal cross, controls the specific location of laser sliding block 6 by X-axis motor 7 later；

When the present apparatus is in idle state, support portion 3 is controlled by y-axis motor 12 and slides into 2 side of Y-axis sliding rail, it Control rotation rotation afterwards, keeps X-axis slide rail 5 parallel with Y-axis sliding rail 2, even if X-axis slide rail 5 is in horizontal vertical state.

The utility model is when specifically used, when the present apparatus is in running order, controls the y-axis motor and drives branch Support part slides into Y-axis sliding rail central location, while controlling turntable rotation, keeps X-axis slide rail and Y-axis sliding rail vertical, even if X-axis slide rail In horizontal cross, pass through the specific location of X-axis motor control laser sliding block later；

When the present apparatus is in idle state, support portion is controlled by y-axis motor and slides into Y-axis sliding rail side, is controlled later System rotation rotation, keeps X-axis slide rail parallel with Y-axis sliding rail, even if X-axis slide rail is in horizontal vertical state.

The utility model is complicated for existing present laser engraving machine figure bulky construction, manufacture use cost is high, behaviour The problem of work maintenance is both needed to professional, and human cost is high, operates inconvenient maintenance, realizes existing laser using simple structure The function of engraving machine greatly reduces manufacture, the fund for using and repairing, human cost, so that the utility model is easily operated, It is easy to repair, while figure has apparent reduction, transport easy to carry carries, practical.

Claims (6)

1. portable laser engraving machine, including casing (1), which is characterized in that it is sliding to be fixedly connected with Y-axis on the casing (1) Rail (2) slidably connects support portion (3) on the Y-axis sliding rail (2), and the support portion is fixedly connected with support portion on (3) (3) driving device slide support portion (3) can on the Y-axis sliding rail (2), and the support portion is rotatably connected on (3) Turntable (4) is fixedly connected with X-axis slide rail (5) on the turntable (4), and the X-axis slide rail slidably connects laser on (5) Sliding block (6), laser sliding block (6) are connected with the X-axis motor (7) being fixedly connected on the turntable (4).

2. portable laser engraving machine according to claim 1, which is characterized in that described support portion (3) driving device Including the upper backup pad (8) being slidably connected above the Y-axis sliding rail (2) and it is slidably connected under the Y-axis sliding rail (2) The lower supporting plate (9) at end, the turntable (4) are rotatably connected on described upper backup pad (8) upper end, the upper backup pad (8) be rotatably connected between lower supporting plate (9) multiple axle sleeves (10), be fixedly connected on the axle sleeve (10) and What the Y-axis sliding rail (2) connected leads driving wheel (11).

3. portable laser engraving machine according to claim 2, which is characterized in that each axle sleeve (10) is equal respectively In the left and right sides of Y-axis sliding rail (2), the upper backup pad (8) passes through belt and y-axis motor (12) phase for even symmetrical setting Even.

4. portable laser engraving machine according to claim 2 or 3, which is characterized in that there are four the axle sleeves (10), Axle sleeve (10) described in two is located on the left of the Y-axis sliding rail (2), and axle sleeve (10) described in another two is located at the Y-axis sliding rail (2) Right side.

5. portable laser engraving machine according to claim 1, which is characterized in that be fixedly connected on the turntable (4) Have branch supporting piece (13), is fixedly connected with X-axis slide rail (5) on the branch supporting piece (13).

6. portable laser engraving machine according to claim 1 or 5, which is characterized in that the laser sliding block (6) and institute The X-axis motor (7) stated is connected by belt.