CN202862971U - Z-direction synchronous belt device of carving machine - Google Patents
Z-direction synchronous belt device of carving machine Download PDFInfo
- Publication number
- CN202862971U CN202862971U CN 201220590759 CN201220590759U CN202862971U CN 202862971 U CN202862971 U CN 202862971U CN 201220590759 CN201220590759 CN 201220590759 CN 201220590759 U CN201220590759 U CN 201220590759U CN 202862971 U CN202862971 U CN 202862971U
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- China
- Prior art keywords
- riser
- screw mandrel
- guide rail
- driving wheel
- synchronous belt
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Abstract
The utility model discloses a Z-direction synchronous belt device of a carving machine. The Z-direction synchronous belt device of the carving machine comprises an X-direction guide rail A and an X-direction guide rail B. The X-direction guide rail A is provided with an X-direction horizontal board A and an X-direction horizontal board B through sliding blocks. The X-direction guide rail B is provided with a Z-direction vertical board A and a Z-direction vertical board B through sliding blocks. The Z-direction synchronous belt device of the carving machine is reasonable in design, simple in structure and convenient to mount. A bearing seat A is provided with a lead screw A in a penetrating mode through a bearing, a bearing seat B is provided with a lead screw B in a penetrating mode through a bearing, and therefore accurate synchronization of three directions can be ensured when the carving machine carves a plurality of work pieces, transmission is enabled to be smoother and steadier, and appearance errors of carved finished products are reduced to the greatest extent. Meanwhile, working time is saved and production efficiency is improved.
Description
Technical field:
The utility model relates to a kind of engraving machine, is specifically related to a kind of engraving machine Z-direction synchronous belt device.
Background technology:
Engraving is that a kind of brill mills combination processing from process principle, and engraving machine several data input pattern is masterly as required; Computer engraving machine has laser engraving and mechanical engraving two classes, and this two class has dividing of high-power and small-power; Because the range of application of engraving machine is very extensive, therefore be necessary to understand the only range of application of various engraving machines; Low powerly be only suitable for doing double-colored plate, BUILDINGS MODELS, small-sized label, three-dimensional process product etc.; Greatly affected the scope of its application because power is too little; High-power engraving machine can be done the thing of small-power engraving machine, the most suitable large-scale cutting, embossment, the engraving done, and existing engraving machine structure is not quite reasonable, and transmission is steady not, and error is very large, has therefore just prolonged working time, has reduced production efficiency.
The utility model content:
The purpose of this utility model is in order to remedy the deficiency of prior art, a kind of engraving machine Z-direction synchronous belt device to be provided, and it is not quite reasonable so just having solved existing engraving machine structure, transmission is steady not, error is very large, has therefore just prolonged working time, has reduced the problem of production efficiency.
The utility model solution is as follows:
A kind of engraving machine Z-direction synchronous belt device, include X-direction guide rail A, X-direction guide rail B, described X-direction guide rail A is upper to be provided with X-direction transverse slat A and X-direction transverse slat B by slide block, described X-direction guide rail B is upper to be provided with Z-direction riser A and Z-direction riser B by slide block, described Z-direction riser A one side is provided with 2 Z-direction slide rail A that are parallel to each other, described Z-direction riser A the same side is provided with 2 bearing block A, described Z-direction slide rail A is upper to be provided with Z-direction combination A by 2 slide blocks, be equipped with screw mandrel A on the described Z-direction combination A, described screw mandrel A two ends and 2 bearing block A are flexibly connected by bearing respectively, described Z-direction riser B one side is provided with 2 Z-direction slide rail B that are parallel to each other, described Z-direction riser B the same side is provided with 2 bearing block B, described Z-direction slide rail B is upper to be provided with Z-direction combination B by 2 slide blocks, be equipped with screw mandrel B on the described Z-direction combination B, described screw mandrel B two ends and 2 bearing block B are flexibly connected by bearing respectively.
Be provided with between described Z-direction riser A and the Z-direction riser B and be connected and fixed plate, described being connected and fixed wears stepper motor on the plate, described stepper motor output is provided with driving wheel A and driving wheel B, the end of described screw mandrel A is provided with driven pulley A, the end of described screw mandrel B is provided with driven pulley B, by toothed belt transmission, also pass through toothed belt transmission between described driving wheel B and the driven pulley B between described driving wheel A and the driven pulley A.
The end of described X-direction transverse slat A is fixedly mounted on the Z-direction riser A, and the end of described X-direction transverse slat B is fixedly mounted on the Z-direction riser B, and described driving wheel A and driving wheel B are coaxial.
Its operation principle is: during work, stepper motor provides power, so that driving wheel A and driving wheel B rotate, driving simultaneously driven pulley A and driven pulley B rotates, therefore just driving screw mandrel A and screw mandrel B rotates, realized the motion of Z-direction synchronous belt device, the end of X-direction transverse slat A is fixedly mounted on the Z-direction riser A, the end of X-direction transverse slat B is fixedly mounted on the Z-direction riser B, therefore also can implement device being synchronized with the movement of X-direction, bearing block A is equipped with screw mandrel A by bearing, bearing block B is equipped with screw mandrel B by bearing, so just can guarantee that engraving machine keeps precise synchronization in three directions when a plurality of workpiece of engraving, Z-direction combination A and Z-direction make up B respectively with guide rail and slider guide, totally 4 guide rails, 8 slide blocks are with the accurate lead screw transmission, screw mandrel is fixed with the bearing block two ends, transmission is more steady, at utmost reduces to carve out the outward appearance error of finished product, simultaneously, also save working time, improved production efficiency.
The utility model is reasonable in design, simple in structure, easy for installation, bearing block A is equipped with screw mandrel A by bearing, and bearing block B is equipped with screw mandrel B by bearing, so just can guarantee that engraving machine keeps precise synchronization in three directions when a plurality of workpiece of engraving, so that transmission is more steady, at utmost reduce to carve out the outward appearance error of finished product, simultaneously, also save working time, improved production efficiency.
Description of drawings:
Fig. 1 is structural representation of the present utility model.
Wherein: 1, X-direction guide rail A, 2, X-direction guide rail B, 3, X-direction transverse slat A, 4, X-direction transverse slat B, 5, slide block, 6, Z-direction riser A, 7, Z-direction riser B, 8, Z-direction slide rail A, 9, stepper motor, 10, driving wheel A, 11, driving wheel B, 12, driven pulley A, 13, driven pulley B, 14, Timing Belt, 15, Z-direction combination A, 16, screw mandrel A, 17, bearing block A, 18, bearing, 19, Z-direction slide rail B, 20, Z-direction combination B, 21, screw mandrel B, 22, bearing block B, 23, be connected and fixed plate.
The specific embodiment:
Referring to accompanying drawing, a kind of engraving machine Z-direction synchronous belt device, include X-direction guide rail A, X-direction guide rail B, described X-direction guide rail A is upper to be provided with X-direction transverse slat A and X-direction transverse slat B by slide block, described X-direction guide rail B is upper to be provided with Z-direction riser A and Z-direction riser B by slide block, described Z-direction riser A one side is provided with 2 Z-direction slide rail A that are parallel to each other, described Z-direction riser A the same side is provided with 2 bearing block A, described Z-direction slide rail A is upper to be provided with Z-direction combination A by 2 slide blocks, be equipped with screw mandrel A on the described Z-direction combination A, described screw mandrel A two ends and 2 bearing block A are flexibly connected by bearing respectively, described Z-direction riser B one side is provided with 2 Z-direction slide rail B that are parallel to each other, described Z-direction riser B the same side is provided with 2 bearing block B, described Z-direction slide rail B is upper to be provided with Z-direction combination B by 2 slide blocks, be equipped with screw mandrel B on the described Z-direction combination B, described screw mandrel B two ends and 2 bearing block B are flexibly connected by bearing respectively.
Be provided with between described Z-direction riser A and the Z-direction riser B and be connected and fixed plate, described being connected and fixed wears stepper motor on the plate, described stepper motor output is provided with driving wheel A and driving wheel B, the end of described screw mandrel A is provided with driven pulley A, the end of described screw mandrel B is provided with driven pulley B, by toothed belt transmission, also pass through toothed belt transmission between described driving wheel B and the driven pulley B between described driving wheel A and the driven pulley A.
The end of described X-direction transverse slat A is fixedly mounted on the Z-direction riser A, and the end of described X-direction transverse slat B is fixedly mounted on the Z-direction riser B, and described driving wheel A and driving wheel B are coaxial.
During work, stepper motor provides power, so that driving wheel A and driving wheel B rotate, driving simultaneously driven pulley A and driven pulley B rotates, therefore just driving screw mandrel A and screw mandrel B rotates, realized the motion of Z-direction synchronous belt device, the end of X-direction transverse slat A is fixedly mounted on the Z-direction riser A, the end of X-direction transverse slat B is fixedly mounted on the Z-direction riser B, therefore also can implement device being synchronized with the movement of X-direction, bearing block A is equipped with screw mandrel A by bearing, bearing block B is equipped with screw mandrel B by bearing, so just can guarantee that engraving machine keeps precise synchronization in three directions when a plurality of workpiece of engraving, Z-direction combination A and Z-direction make up B respectively with guide rail and slider guide, totally 4 guide rails, 8 slide blocks are with the accurate lead screw transmission, screw mandrel is fixed with the bearing block two ends, transmission is more steady, at utmost reduces to carve out the outward appearance error of finished product, simultaneously, also save working time, improved production efficiency.
Claims (3)
1. engraving machine Z-direction synchronous belt device, include X-direction guide rail A, X-direction guide rail B, it is characterized in that: described X-direction guide rail A is upper to be provided with X-direction transverse slat A and X-direction transverse slat B by slide block, described X-direction guide rail B is upper to be provided with Z-direction riser A and Z-direction riser B by slide block, described Z-direction riser A one side is provided with 2 Z-direction slide rail A that are parallel to each other, described Z-direction riser A the same side is provided with 2 bearing block A, described Z-direction slide rail A is upper to be provided with Z-direction combination A by 2 slide blocks, be equipped with screw mandrel A on the described Z-direction combination A, described screw mandrel A two ends and 2 bearing block A are flexibly connected by bearing respectively, described Z-direction riser B one side is provided with 2 Z-direction slide rail B that are parallel to each other, described Z-direction riser B the same side is provided with 2 bearing block B, described Z-direction slide rail B is upper to be provided with Z-direction combination B by 2 slide blocks, be equipped with screw mandrel B on the described Z-direction combination B, described screw mandrel B two ends and 2 bearing block B are flexibly connected by bearing respectively.
2. engraving machine Z-direction synchronous belt device according to claim 1, it is characterized in that: be provided with between described Z-direction riser A and the Z-direction riser B and be connected and fixed plate, described being connected and fixed wears stepper motor on the plate, described stepper motor output is provided with driving wheel A and driving wheel B, the end of described screw mandrel A is provided with driven pulley A, the end of described screw mandrel B is provided with driven pulley B, by toothed belt transmission, also pass through toothed belt transmission between described driving wheel B and the driven pulley B between described driving wheel A and the driven pulley A.
3. engraving machine Z-direction synchronous belt device according to claim 1, it is characterized in that: the end of described X-direction transverse slat A is fixedly mounted on the Z-direction riser A, the end of described X-direction transverse slat B is fixedly mounted on the Z-direction riser B, and described driving wheel A and driving wheel B are coaxial.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220590759 CN202862971U (en) | 2012-11-10 | 2012-11-10 | Z-direction synchronous belt device of carving machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220590759 CN202862971U (en) | 2012-11-10 | 2012-11-10 | Z-direction synchronous belt device of carving machine |
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CN202862971U true CN202862971U (en) | 2013-04-10 |
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Application Number | Title | Priority Date | Filing Date |
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CN 201220590759 Expired - Fee Related CN202862971U (en) | 2012-11-10 | 2012-11-10 | Z-direction synchronous belt device of carving machine |
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CN (1) | CN202862971U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109866541A (en) * | 2018-11-26 | 2019-06-11 | 安徽莎沃斯服饰有限公司 | A kind of multifunction formboard engraving machine |
CN110341358A (en) * | 2019-07-26 | 2019-10-18 | 济南晨辉精密机械股份有限公司 | A kind of engraving machine mobile regulating device of Carving machine head |
-
2012
- 2012-11-10 CN CN 201220590759 patent/CN202862971U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109866541A (en) * | 2018-11-26 | 2019-06-11 | 安徽莎沃斯服饰有限公司 | A kind of multifunction formboard engraving machine |
CN110341358A (en) * | 2019-07-26 | 2019-10-18 | 济南晨辉精密机械股份有限公司 | A kind of engraving machine mobile regulating device of Carving machine head |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130410 Termination date: 20161110 |