CN216442053U - Auxiliary machining assembly and machining mechanism - Google Patents
Auxiliary machining assembly and machining mechanism Download PDFInfo
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- CN216442053U CN216442053U CN202122522112.1U CN202122522112U CN216442053U CN 216442053 U CN216442053 U CN 216442053U CN 202122522112 U CN202122522112 U CN 202122522112U CN 216442053 U CN216442053 U CN 216442053U
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Abstract
The utility model relates to the technical field of machining, and provides an auxiliary machining assembly and a machining mechanism. This supplementary processing subassembly includes positioning substrate and positioning seat, positioning substrate has a plurality of installation positions, every installation position has corresponding location coordinate, the positioning seat is when installing arbitrary one installation position, the position of positioning seat has just also been confirmed by corresponding, the machined part is further treated to first location structure that sets up on the positioning seat to fix a position, so, after being used for processing to make the machined part of treating of collimation device further install on the positioning seat, its position of locating has just also been confirmed, thereby make things convenient for processing agency to treat the machined part and process, with the higher collimation device of stable production precision. One positioning substrate can simultaneously position a plurality of workpieces to be processed through a plurality of mounting positions, so that the processing efficiency of the processing mechanism for the workpieces to be processed is improved.
Description
Technical Field
The utility model relates to the technical field of machining, in particular to an auxiliary machining assembly and a machining mechanism.
Background
The laser cutting equipment as a novel processing equipment has the advantages of high speed, high precision, small processing deformation, good cutting section, low processing cost and the like, and is widely applied to the cutting industry. In laser cutting equipment, the collimating device is required to be used for ensuring the cutting precision and stability of the laser cutting head.
The precision of collimating device itself can direct influence the cutting precision of laser cutting head, and among the prior art, in order to guarantee collimating device's precision, it is not high to aim at the machining efficiency of collimating device to, there is the unstable condition of machining precision simultaneously still.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an auxiliary machining assembly and aims to solve the problems that an existing quasi-installation device is low in machining efficiency and unstable in machining precision.
In order to achieve the purpose, the utility model adopts the technical scheme that: an auxiliary processing assembly for assisting in the manufacture of an alignment device in a processing mechanism, comprising:
the positioning seat is used for installing a workpiece to be machined;
the positioning base plate is provided with a plurality of mounting positions for mounting the positioning seat, and each mounting position is provided with a corresponding positioning coordinate;
one side of the positioning seat, which is far away from the positioning substrate, is provided with a first positioning structure for positioning a workpiece to be machined.
In one embodiment, the positioning socket includes:
the positioning female seat is arranged on the positioning substrate;
the positioning male seat is arranged on one side, away from the positioning substrate, of the positioning female seat, and a second positioning structure which is matched with the male seat is arranged between the male seat and the female seat;
the workpiece to be machined is arranged on one side, far away from the positioning female seat, of the positioning male seat.
In one embodiment, the female positioning socket includes:
the first mounting plate is connected to the positioning substrate;
the first mounting platform is arranged on the first mounting plate and protrudes towards one side far away from the positioning substrate.
In one embodiment, the male positioning seat comprises:
the second mounting plate is mounted on the first mounting table, and the second positioning structure is arranged between the second mounting plate and the mounting table;
the second mounting table is arranged on the second mounting plate and is protruded towards one side far away from the first mounting table, and the first positioning structure is arranged on the second mounting table.
In one embodiment, the edge profile of the second mounting station is adapted to the target machining configuration of the part to be machined.
In one embodiment, the second mounting plate is provided with a connecting part located on the periphery side of the second mounting table, and a mutually matched connecting structure is arranged between the connecting part and the first mounting table.
In one embodiment, the height of the connecting structure protruding from the side of the second mounting plate on which the second mounting platform is arranged is lower than the height of the second mounting platform, or the height of the connecting structure protruding from the side of the second mounting plate on which the second mounting platform is arranged is equal to the height of the second mounting platform.
In one embodiment, the mounting positions are a plurality of mounting guide grooves formed in the positioning substrate, the mounting guide grooves are parallel to each other, and the positioning seat is provided with a guide block matched with the mounting guide grooves.
In one embodiment, the positioning base plate is a circular plate.
The application also provides a machining mechanism for producing the collimating device, the machining mechanism comprises the auxiliary machining assembly.
The utility model has the beneficial effects that: this supplementary processing subassembly includes positioning substrate and positioning seat, positioning substrate has a plurality of installation positions, every installation position has corresponding location coordinate, the positioning seat is when installing arbitrary one installation position, the position of positioning seat has just also been confirmed by corresponding, the machined part is further treated to first location structure that sets up on the positioning seat to fix a position, so, after being used for processing to make the machined part of treating of collimation device further install on the positioning seat, its position of locating has just also been confirmed, thereby make things convenient for processing agency to treat the machined part and process, and guarantee that processing agency treats the machining precision of machined part, with the higher collimation device of stable production precision. One positioning substrate can simultaneously position a plurality of workpieces to be processed through a plurality of mounting positions, so that the processing efficiency of the processing mechanism for the workpieces to be processed is improved. And, because first location structure sets up the one side of keeping away from the location base plate at the positioning seat, treat that the machined part is when installing the positioning seat through first location structure, also can keep away from the location base plate relatively to can make things convenient for processing agency to treat the machined part from treating a plurality of positions that the machined part is not connected with the auxiliary processing subassembly and process, thereby further improve the production efficiency of production collimation device.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
Fig. 1 is a schematic perspective view of an auxiliary processing assembly according to an embodiment of the present invention;
FIG. 2 is a schematic diagram illustrating a disassembled structure of an auxiliary processing assembly according to an embodiment of the present invention;
fig. 3 is a schematic cross-sectional view of an auxiliary processing assembly according to an embodiment of the present invention.
Description of the main element symbols:
100. an auxiliary processing assembly; 200. a workpiece to be processed; 10. positioning the substrate; 11. an installation position; 20. positioning seats; 21. positioning the female seat; 211. a first mounting plate; 212. a first mounting table; 22. positioning a male seat; 221. a second mounting plate; 222. a second mounting table; 223. a second positioning structure; 224. a connecting structure; 2211. a connecting portion.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.
In the description of the present invention, it is to be understood that the terms "length", "width", "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 illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection or electrical connection; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
Referring to fig. 1-3, an auxiliary processing assembly 100 for assisting in the fabrication of alignment devices in a processing machine is shown according to the present application.
In one particular embodiment, as shown in FIG. 1, the auxiliary processing assembly 100 includes:
the positioning seat 20, the positioning seat 20 is used for installing the workpiece 200 to be processed;
the positioning device comprises a positioning substrate 10, wherein a plurality of mounting positions 11 for mounting a positioning seat 20 are arranged on the positioning substrate 10, and each mounting position 11 is provided with a corresponding positioning coordinate;
one side of the positioning seat 20 away from the positioning substrate 10 is provided with a first positioning structure for positioning the workpiece 200 to be processed.
In this embodiment, the positioning substrate 10 has a plurality of mounting locations 11, each mounting location 11 has a corresponding positioning coordinate, when the positioning seat 20 is mounted on any one of the mounting locations 11, the position of the positioning seat 20 is correspondingly determined, and the first positioning structure disposed on the positioning seat 20 further positions the workpiece 200 to be processed, so that after the workpiece 200 to be processed into the collimator device is further mounted on the positioning seat 20, the position of the workpiece 200 to be processed is determined, thereby facilitating the processing of the workpiece 200 to be processed by the processing mechanism, and ensuring the processing accuracy of the workpiece 200 to be processed by the processing mechanism. One positioning substrate 10 can simultaneously position a plurality of workpieces 200 to be processed through a plurality of mounting positions 11, thereby improving the processing efficiency of the processing mechanism for the workpieces 200 to be processed. Moreover, since the first positioning structure is disposed on one side of the positioning seat 20 away from the positioning substrate 10, when the workpiece 200 is mounted on the positioning seat through the first positioning structure, the positioning substrate 10 is also relatively away from the positioning structure, so that the processing mechanism can process the workpiece 200 from a plurality of positions where the workpiece 200 is not connected to the auxiliary processing assembly 100, thereby further improving the production efficiency of the collimating device.
Specifically, the first positioning structure is a positioning hole formed in the positioning seat 20, a positioning column matched with the positioning hole is arranged on the workpiece 200, and the relative position between the workpiece 200 and the positioning seat 20 can be determined through the matching between the positioning hole and the positioning column, so that the workpiece 200 is positioned. Further, in the present embodiment, the positioning seat 20 and the workpiece 200 are provided with bolt holes that are engaged with each other, and after the relative position between the workpiece 200 and the positioning seat 20 is determined by the first positioning structure, the bolt further penetrates through the bolt hole and is locked, so that the workpiece 200 can be fixed to the positioning seat 20.
In further alternative embodiments, the first positioning structure may also be a positioning column disposed on the positioning seat 20, and a positioning hole matched with the positioning is formed on the workpiece 200, so that the workpiece 200 can be positioned. The workpiece 200 to be machined can be further fixedly connected to the positioning seat 20 in a snap-fit manner, so that the subsequent machining mechanism can conveniently machine the workpiece.
Referring to fig. 1-2, as an embodiment of the auxiliary processing assembly 100 of the present application, in particular, the positioning seat 20 includes:
a positioning female seat 21, wherein the positioning female seat 21 is arranged on the positioning substrate 10;
the male positioning seat 22 is installed on one side of the female positioning seat 21 far away from the positioning substrate 10, and a second positioning structure 223 is disposed between the male positioning seat 22 and the female positioning seat 21.
It should be noted that, in this embodiment, in order to facilitate the installation of the workpiece 200 to be processed, the positioning seat 20 is convenient to detach, the positioning seat 20 is provided with a male positioning seat 22 and a female positioning seat 21 which are detachably connected together, in the implementation, the female positioning seat 21 is used for being connected with the positioning substrate 10, the male positioning seat 22 is used for being connected with the workpiece 200 to be processed, further, the female positioning seat 21 is installed on the positioning substrate 10 for positioning, and then the male positioning seat 22 installed thereon is further positioned, and after the male positioning seat 22 to be positioned is installed, the workpiece 200 to be processed is positioned. During machining, the workpiece 200 to be machined is mounted on one side of the positioning male seat 22 away from the positioning female seat 21, so that the workpiece 200 to be machined can be connected with the positioning substrate 10 through the positioning seat 20, and the positioning effect of the positioning substrate 10 on the workpiece 200 to be machined is realized.
In this embodiment, the second positioning structure 223 includes locating on the public seat 22 of location and towards the protruding location boss of the female seat 21 of location and set up on the female seat 21 of location and with the constant head tank of location boss looks adaptation, and when the public seat 22 of location was close to the female seat 21 of location, the location boss is sunk in the constant head tank in order to realize the location to the public seat 22 of whole location. In more alternative embodiments, the second positioning structure 223 may also include a positioning groove disposed on the male positioning seat 22 and a positioning boss disposed on the female positioning seat 21 and adapted to the positioning groove, and a user may select a specific structure according to actual requirements.
Referring to fig. 2, as an embodiment of the auxiliary processing assembly 100 provided by the present application, in order to further enhance the positioning and processing effect of the workpiece 200 to be processed, it should be noted that the positioning female seat 21 includes:
a first mounting plate 211, the first mounting plate 211 being connected to the positioning substrate 10;
and a first mounting table 212, wherein the first mounting table 212 is arranged on the first mounting plate 211 and protrudes to the side far away from the positioning substrate 10.
Specifically, in this embodiment, the first mounting plate 211 is used to be connected to the positioning substrate 10, so that the whole positioning female seat 21 can be fixed to the positioning substrate 10, and the first mounting table 212 is disposed in the middle of the side of the first mounting plate 211 away from the positioning substrate 10, and at the same time, for convenience of implementation, the first mounting table 212 is formed by extending the middle of the side of the first mounting plate 211 towards the direction away from the positioning substrate 10, so as to form a boss. Obviously, in the present embodiment, the first mounting platform 212 is configured as a rectangular boss, and in other cases, it can also be configured as a trapezoid, a circle, etc., all of which are within the protection scope of the present embodiment. It should be noted that the second positioning structure 223 is disposed on a side of the first mounting platform 212 facing the positioning male socket 22, i.e. on a top periphery of the first mounting platform 212, so as to facilitate mounting of the positioning male socket 22.
In the embodiment, the first mounting plate 211 is provided with the first mounting table 212, so that the vertical distance between the workpiece 200 to be processed and the positioning substrate 10 can be increased, interference between the two parts during processing can be avoided, and the processing efficiency of the workpiece 200 to be processed can be improved.
Referring to fig. 2, as an embodiment of the auxiliary processing assembly 100 of the present application, the positioning male socket 22 includes:
the second mounting plate 221 is mounted on the first mounting table 212, and a second positioning structure 223 is arranged between the second mounting plate 221 and the mounting table;
and the second mounting table 222 is arranged on the second mounting plate 221 and protrudes to one side far away from the first mounting table 212, and a first positioning structure is arranged on the second mounting table 222.
The second mounting plate 221 is mounted on the first mounting table 212, and both the size and the shape are adapted to each other. In addition, in the embodiment, the second mounting table 222 extends from the middle of the side of the second mounting plate 221 away from the first mounting table 212, and the second mounting table 222 is arranged to further increase the vertical distance between the workpiece 200 to be processed and the positioning substrate 10, so as to further improve the processing efficiency.
Referring to fig. 2, as an embodiment of the auxiliary processing assembly 100 proposed in the present application, the edge profile of the second mounting platform 222 is adapted to the target processing structure of the workpiece 200 to be processed. The workpiece 200 to be machined is mounted on the second mounting table 222, and then is further machined by a machining mechanism in a subsequent machining program, and the machining mechanism may perform actions such as extrusion and the like on the workpiece 200 to be machined in the process of machining the workpiece 200 to be machined, so that under the condition that the edge profile of the second mounting table 222 is adapted to the target machining structure, the second mounting table 222 can be prevented from blocking the machining process of the machining mechanism, so as to further treat the machining precision of the workpiece 200, so that the auxiliary machining mechanism in the embodiment can stably and auxiliarily manufacture the high-precision collimating device.
Referring to fig. 2-3, as an embodiment of the auxiliary processing assembly 100 proposed in the present application, the second mounting plate 221 has a connecting portion 2211 located on the periphery of the second mounting table 222, and a connecting structure 224 is disposed between the connecting portion 2211 and the first mounting table 212. The connecting structure 224 includes a first bolt hole formed on the connecting portion 2211, a second threaded hole formed on the first mounting platform 212 in the female positioning seat 21 and matched with the first threaded hole, and a bolt passing through the first threaded hole and the second threaded hole. During the installation, earlier through second location structure 223 with the public seat 22 of location and the female seat 21 between the installation position 11 position determination, then pass first bolt hole and second bolt hole with the bolt in proper order to further lock the bolt, can be so that fix a position fixed connection between public seat 22 and the female seat 21 of location.
Referring to fig. 3, as an embodiment of the auxiliary processing assembly 100 provided in the present application, a height of the connecting structure 224 protruding from the second mounting plate 221 on a side where the second mounting table 222 is disposed is lower than a height of the second mounting table 222, that is, a height of a portion of the bolt protruding from the second mounting plate 221 on a side away from the first mounting table 212 is lower than a height of the second mounting table 222. The workpiece 200 to be processed is mounted on the second mounting table 222, in which case the connection structure 224 can be prevented from affecting the processing of the processing mechanism for the workpiece 200 to be processed.
In a further alternative embodiment, the height of the connecting structure 224 protruding from the side of the second mounting plate 221 on which the second mounting platform 222 is disposed is equal to the height of the second mounting platform 222, that is, the height of the portion of the bolt protruding from the side of the second mounting plate 221 away from the first mounting platform 212 is equal to the height of the second mounting platform 222, in this case, the connecting structure 224 can also be prevented from affecting the processing of the workpiece 200 by the processing mechanism.
Referring to fig. 1-2, as an embodiment of the auxiliary processing assembly 100 provided in the present application, the mounting locations 11 are a plurality of mounting guide slots opened on the positioning substrate 10, and the positioning seat 20 is provided with a guide block matching with the mounting guide slots. When the positioning seat 20 is mounted on the positioning substrate, the guide block on the positioning seat 20 is matched with any one of the mounting guide grooves, then the positioning seat 20 is pushed to a proper position in the mounting guide groove, and then the positioning seat 20 is further locked by a bolt, so that the positioning seat 20 can be mounted on any one of the mounting positions 11 of the positioning substrate 10, and thus the position of the positioning seat 20 is determined, and further the position of the to-be-processed member 200 mounted on the positioning seat 20 is determined.
Furthermore, in this embodiment, the installation guide grooves are parallel to each other, that is, the installation guide grooves are distributed on the positioning substrate 10 at a certain interval, so that a plurality of installation positions 11 can be arranged in the direction perpendicular to the positioning substrate 10 and the installation guide grooves, which not only facilitates the installation of the positioning seat 20, but also further facilitates the determination of the coordinates of the installation positions 11.
Referring to fig. 1-2, as one embodiment of the auxiliary processing assembly 100 of the present application, the positioning substrate 10 is a circular plate. Then, after the positioning substrate 10 is mounted, the positioning substrate 10 can be rotated around the center of the circle while the mounting position 11 of the positioning substrate 10 is restricted. Further, after the positioning seat 20 is mounted on the positioning substrate 10, the positioning substrate 10 can further drive the positioning seat 20 and the workpiece 200 to be processed mounted on the positioning seat 20 to rotate, so that the workpiece 200 to be processed can be further conveniently processed from multiple directions.
The application also provides a processing mechanism for producing the collimating device, the processing mechanism comprises an auxiliary processing assembly 100, the auxiliary processing assembly 100 comprises a positioning substrate 10 and a positioning seat 20, the positioning seat 20 is used for positioning and installing a workpiece 200 to be processed, which is used for manufacturing the collimating device, and the positioning substrate 10 is used for positioning the positioning seat 20. After the auxiliary processing assembly 100 positions the workpiece 200, the processing mechanism can more accurately process the workpiece 200, thereby ensuring the precision of the produced collimator.
Specifically, the machining mechanism in this embodiment includes a central control device and a multi-axis linkage machining device that is connected to the central control device and can machine the workpiece 200 to be machined from a plurality of orientations, each mounting location 11 on the positioning substrate 10 has a corresponding positioning coordinate, the central control device has positioning coordinate data of each mounting location 11, then, when the positioning seat 20 is mounted on any one of the mounting locations 11, the central control device can acquire coordinate data of the mounting of the positioning seat, and after the workpiece 200 to be machined is mounted on the positioning seat 20, the central control device can control the multi-axis linkage machining device to move to the corresponding position to machine the workpiece 200 to be machined, so that the precision of the produced collimator is ensured.
The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. An auxiliary processing assembly for assisting in the manufacture of collimating apparatus in a processing mechanism, comprising:
the positioning seat is used for installing a workpiece to be machined;
the positioning base plate is provided with a plurality of mounting positions for mounting the positioning seat, and each mounting position is provided with a corresponding positioning coordinate;
one side of the positioning seat, which is far away from the positioning substrate, is provided with a first positioning structure for positioning a workpiece to be machined.
2. The secondary tooling assembly of claim 1 wherein said locating socket comprises:
the positioning female seat is arranged on the positioning substrate;
the positioning male seat is arranged on one side, away from the positioning substrate, of the positioning female seat, and a second positioning structure which is matched with the male seat is arranged between the male seat and the female seat;
the workpiece to be machined is arranged on one side, far away from the positioning female seat, of the positioning male seat.
3. The secondary processing assembly of claim 2, wherein the locating female socket comprises:
the first mounting plate is connected to the positioning substrate;
the first mounting platform is arranged on the first mounting plate and protrudes towards one side far away from the positioning substrate.
4. The secondary tooling assembly of claim 3 wherein the locating pin comprises:
the second mounting plate is mounted on the first mounting table, and the second positioning structure is arranged between the second mounting plate and the mounting table;
the second mounting table is arranged on the second mounting plate and is protruded towards one side far away from the first mounting table, and the first positioning structure is arranged on the second mounting table.
5. The auxiliary processing assembly of claim 4, wherein the edge profile of the second mounting station is adapted to a target processing configuration of the workpiece to be processed.
6. The auxiliary processing assembly of claim 4, wherein the second mounting plate has a connecting portion located on the periphery of the second mounting table, and a mutually engaging connecting structure is provided between the connecting portion and the first mounting table.
7. The auxiliary processing assembly of claim 6, wherein the height of the connecting structure protruding from the side of the second mounting plate on which the second mounting platform is provided is lower than the height of the second mounting platform, or the height of the connecting structure protruding from the side of the second mounting plate on which the second mounting platform is provided is the same as the height of the second mounting platform.
8. The auxiliary processing assembly as claimed in claim 1, wherein the mounting locations are a plurality of mounting guide slots opened on the positioning base plate, the mounting guide slots are parallel to each other, and the positioning base is provided with a guide block matched with the mounting guide slots.
9. The auxiliary processing assembly of claim 1, wherein the positioning base plate is a circular plate.
10. A tooling mechanism for producing collimating apparatus, wherein the tooling mechanism comprises an auxiliary tooling assembly according to any of claims 1 to 9.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122522112.1U CN216442053U (en) | 2021-10-19 | 2021-10-19 | Auxiliary machining assembly and machining mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122522112.1U CN216442053U (en) | 2021-10-19 | 2021-10-19 | Auxiliary machining assembly and machining mechanism |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN216442053U true CN216442053U (en) | 2022-05-06 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202122522112.1U Active CN216442053U (en) | 2021-10-19 | 2021-10-19 | Auxiliary machining assembly and machining mechanism |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN216442053U (en) |
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2021
- 2021-10-19 CN CN202122522112.1U patent/CN216442053U/en active Active
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Address after: 518000 floors 1-5, No. 8179-1, Bao'an Avenue, Digang community, Shajing street, Bao'an District, Shenzhen, Guangdong Province Patentee after: Baichao (Shenzhen) Laser Technology Co.,Ltd. Address before: 518000 floors 1-5, No. 8179-1, Bao'an Avenue, Digang community, Shajing street, Bao'an District, Shenzhen, Guangdong Province Patentee before: Shenzhen DNE Laser Science and Technology Co.,Ltd. |
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