CN208961262U - Helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine - Google Patents
Helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine Download PDFInfo
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- CN208961262U CN208961262U CN201821626755.2U CN201821626755U CN208961262U CN 208961262 U CN208961262 U CN 208961262U CN 201821626755 U CN201821626755 U CN 201821626755U CN 208961262 U CN208961262 U CN 208961262U
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- plastic uptake
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Abstract
The utility model discloses helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machines, belong to laser cutting technique field, helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine, including workbench, being equipped on the upside of workbench can be along X, Y and Z axis translate main shaft, the inside of main shaft is equipped with CO 2 laser tube and transmitting mirror, the lower end of main shaft is connected with the C axis that can spend revolution, the lower end of C axis is connected with can be around the A axis of X-axis rotation, A the tip of the axis is connected with laser cutting head, laser cutting head includes focus lamp, it may be implemented using 5-shaft linkage numerical control laser cutting technique, cut the hole edge of helmet plastic uptake shell, use laser cutting, material moment is distilled as gas, it is siphoned away by exhaust fan, apparent mechanical force will not be generated to plastic uptake workpiece, the edge being cut into is smooth, quality is much high Competitiveness is promoted in mach quality convenient for promoting the quality of product.
Description
Technical field
The utility model relates to laser cutting technique fields, more specifically to five axis of helmet plastic uptake shell hole edge
Interlocked numerical controlled laser cutting machine.
Background technique
In industry, the hole location and edge of helmet plastic uptake shell are cut, three kinds of mass production methods is generallyd use, is analyzed as follows: one
It is the cutting of six axis robot milling cutter, advantage is that machining freedom degree is big, labor intensity of workers is low, speed of production is fast, the disadvantage is that
When cutting turning position, due to tool wear, chip speed is unreasonable, plastic-absorbing component and localization tool cooperate defective tightness (plastic uptake
It is soft, deformation etc.) etc. reasons, it is easy to generate small stair, it is subsequent to retouch;Second is that mostly set stamping die assembly line punching press, advantage are
The big product of the amount of being conducive to, the disadvantage is that mold takes, expensive, mould replacing time is longer, subsequent to have mold maintenance cost;Third is that application fixture
Hand cut, advantage are that hardware cost is low.The disadvantage is that labor intensity is bigger than normal, production efficiency is relatively low.
Six axis robot milling cutter cutting the current industry of plastic uptake in be widely applied, but as described above, the method due to inhale
Soft, deformation is moulded, when processing cutter unreasonable with the cooperation defective tightness of localization tool, tool wear and feed speed is caused
Mechanical force is generated with plastic uptake, is shaken in the turn position in plastic uptake hole due to plastic uptake and is easy to produce small stair.Add if can be avoided
The mechanical force that work generates, then can solve this quality problem.
Laser cutting will not generate apparent processing equipment power, therefore being cut by laser plastic uptake is a selection well.It inhales
Modeling is nonmetallic materials, the laser source that Ying Caiyong CO 2 laser tube generates.It is cut by laser in industry, six axis robot is only answered
For cutting metal, because laser source, by fiber optic conduction to laser head, optical fiber softness is suitable for layout on six axis robot;And
Carbon dioxide pipe laser source is not transmitted to laser head by the refraction of several reflective mirrors, then the focus lamp by installing on laser head will
Light convergence becomes a bit, therefore is not applied to six axis robot.So I proposes that one kind can be by carbon dioxide pipe laser
Source is applied to the numerically controlled processing equipment of five-axle linkage.
Utility model content
1. technical problems to be solved
Aiming at the problems existing in the prior art, the purpose of this utility model is to provide helmet plastic uptake shell hole edges with five
Axis linkage numerical control laser cutting machine, it may be implemented to cut helmet plastic uptake shell using 5-shaft linkage numerical control laser cutting technique
Hole edge, the thickness of helmet plastic uptake is generally between 0.5-1.5mm, using laser cutting, material moment is distilled as gas, by
Exhaust fan siphons away, and will not generate apparent mechanical force to plastic uptake workpiece, the edge being cut into is smooth, and quality is significantly larger than machine and adds
The quality of work promotes competitiveness convenient for promoting the quality of product.
2. technical solution
To solve the above problems, the utility model adopts the following technical scheme.
Helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine, including workbench, the upside of the workbench
Being equipped with can be along X, Y and Z axis translation main shaft, and the inside of the main shaft is equipped with CO 2 laser tube and transmitting mirror, the master
The lower end of axis is connected with the C axis that can spend revolution, and the lower end of the C axis is connected with can be around the A axis of X-axis rotation, the end of the A axis
End is connected with laser cutting head, and the laser cutting head includes focus lamp, and plastic uptake localization tool, institute are placed on the workbench
It states chain between plastic uptake localization tool and workbench and is connected to auxiliary fixing member, and plastic uptake localization tool is fixed in auxiliary fixing member,
Digging on the plastic uptake localization tool has plastic uptake hole, and plastic uptake workpiece, the lower end of the A axis are socketed on the plastic uptake localization tool
It is socketed with exhausting smoke evacuation head, is connected with the first air-exhausting duct on the exhausting smoke evacuation head, and the first air-exhausting duct is located in main shaft, it can
5-shaft linkage numerical control laser cutting technique is applied to realize, cuts the hole edge of helmet plastic uptake shell, the thickness of helmet plastic uptake is general
Between 0.5-1.5mm, using laser cutting, material moment is distilled as gas, is siphoned away by exhaust fan, it will not be to plastic uptake workpiece
Apparent mechanical force is generated, the edge being cut into is smooth, and quality is significantly larger than mach quality, convenient for promoting the product of product
Matter promotes competitiveness.
Further, the exhausting smoke evacuation head includes inner sleeve and exhausting exhaust smoke hole, fixed company on the exhausting exhaust smoke hole
It is connected to the first filter screen, exhausting exhaust smoke hole is not easy to be blocked.
Further, one end of first air-exhausting duct is fixedly connected with exhaust fan, and the air outlet of the exhaust fan connects
It is connected to the second air-exhausting duct, and one end of the second air-exhausting duct is located in waste gas treatment equipment, exhaust gas can be not only discharged in exhaust fan, simultaneously
Prevented also from burning plastic uptake hole edge.
Further, the waste gas treatment equipment includes a pair of of waste gas treatment tank, in one of them described waste gas treatment tank
It is placed with impurity absorption bucket, is placed with gas disinfecting bucket in another described waste gas treatment tank, different places can be carried out to exhaust gas
Reason.
Further, active carbon particle is contained in the impurity absorption bucket, one end of second air-exhausting duct is through useless
The side wall of gas disposal case and the bottom for being located at impurity absorption bucket, the particulate contamination in adsorbable exhaust gas, the gas disinfecting bucket
It is inside contained with thimerosal, can be carried out disinfection to processed exhaust gas, it is safer.
Further, PCL control device is installed on the main shaft, the PCL control device include operation panel and
MCU, convenient for operating the normal work of cutting machine.
Further, digging on the side wall of the pair of waste gas treatment tank has services aperture, a pair of services aperture
On be stamped cover board, and between cover board and waste gas treatment tank be sealing structure, convenient for open cover board to miscellaneous in waste gas treatment tank
Matter adsorption barrel or gas disinfecting bucket are replaced or are safeguarded.
Further, guide duct is fixedly connected between two waste gas treatment tanks, and two waste gas treatment tanks pass through
Guide duct is connected, and one end of the guide duct is located at the liquid level of thimerosal hereinafter, can make after active carbon particle adsorbs
Exhaust gas can carry out disinfection processing again.
Further, the inside of the waste gas treatment tank is fixedly connected with the second filter screen, and the second filter screen is located at gas
The surface of body disinfecting bucket, the upper end of the waste gas treatment tank are fixedly connected with exhaust blower, and the inlet end of the exhaust blower is located at
Side wall through waste gas treatment tank and the upside positioned at the second filter screen, exhaust blower can enhance the effect of exhaust, the second filter screen
Filtering again can be carried out to gas, keep the gaseous mass of discharge higher.
3. beneficial effect
Compared with the prior art, utility model has the advantages that
(1) this programme may be implemented to cut the hole edge of helmet plastic uptake shell using 5-shaft linkage numerical control laser cutting technique,
The thickness of helmet plastic uptake is generally between 0.5-1.5mm, and in the prior art, plastic uptake workpiece is rigidly inadequate, can go out after plastics sucking moulding
It now deforms, the tolerance of vpg connection is lower, and material moment is distilled as gas, inhaled by exhaust fan using laser cutting by this programme
It walks, apparent mechanical force will not be generated to plastic uptake workpiece, the edge being cut into is smooth, and quality is significantly larger than mach matter
Amount promotes competitiveness convenient for promoting the quality of product.
(2) exhausting smoke evacuation head includes inner sleeve and exhausting exhaust smoke hole, and the first filter screen is fixedly connected on exhausting exhaust smoke hole,
Exhausting exhaust smoke hole is not easy to be blocked.
One end of (3) first air-exhausting ducts is fixedly connected with exhaust fan, and the air outlet of exhaust fan is connected with the second air-exhausting duct,
And second one end of air-exhausting duct be located in waste gas treatment equipment, exhaust gas can be not only discharged in exhaust fan, while inhaling prevented also from burning
Mole side.
(4) waste gas treatment equipment includes a pair of of waste gas treatment tank, is placed with impurity absorption in one of waste gas treatment tank
Barrel, it is placed with gas disinfecting bucket in another waste gas treatment tank, different processing can be carried out to exhaust gas.
(5) active carbon particle is contained in impurity absorption bucket, the side wall of waste gas treatment tank is run through in one end of the second air-exhausting duct
And it is located at the bottom of impurity absorption bucket, the particulate contamination in adsorbable exhaust gas is contained with thimerosal in gas disinfecting bucket, can be right
Processed exhaust gas carries out disinfection, safer.
(6) PCL control device is installed, PCL control device includes operation panel and MCU, convenient for operation cutting on main shaft
The normal work of machine.
(7) digging on the side wall of a pair of of waste gas treatment tank has services aperture, and cover board, and cover board are stamped in a pair of of services aperture
It is sealing structure between waste gas treatment tank, convenient for opening cover board to the impurity absorption bucket or gas disinfecting bucket in waste gas treatment tank
It is replaced or is safeguarded.
Guide duct is fixedly connected between (8) two waste gas treatment tanks, and two waste gas treatment tanks are connected by guide duct
It is logical, one end of guide duct be located at the liquid level of thimerosal hereinafter, can allow the exhaust gas after active carbon particle adsorbs again into
Row disinfection treatment.
(9) inside of waste gas treatment tank is fixedly connected with the second filter screen, and the second filter screen is located at gas disinfecting bucket
Surface, the upper end of waste gas treatment tank are fixedly connected with exhaust blower, and the inlet end of exhaust blower is located at through the side of waste gas treatment tank
Wall and the upside for being located at the second filter screen, exhaust blower can enhance the effect of exhaust, and the second filter screen can carry out again gas
Filtering keeps the gaseous mass of discharge higher.
Detailed description of the invention
Fig. 1 is the partial structural diagram of the utility model;
Fig. 2 is the cutting process structural schematic diagram of the utility model;
Fig. 3 is the emission-control equipment structural schematic diagram of the utility model.
Figure label explanation:
1 main shaft, 2 C axis, 3 A axis, 4 laser cutting heads, 5 workbench, 501 auxiliary fixing members, 6 plastic uptake localization tools, 601
Plastic uptake hole, 7 plastic uptake workpiece, 8 exhausting smoke evacuation head, 801 inner sleeves, 802 exhausting exhaust smoke holes, 9 exhaust fans, 10 waste gas treatment tanks, 11
Cover board, 12 impurity absorption buckets, 13 gas disinfecting buckets, 14 guide ducts, 15 second filter screens, 16 exhaust blowers, 17 second air-exhausting ducts, 18
First air-exhausting duct.
Specific embodiment
The following is a combination of the drawings in the embodiments of the present utility model;The technical scheme in the embodiment of the utility model is carried out
Clearly and completely describe;Obviously;The described embodiments are only a part of the embodiments of the utility model;Rather than whole
Embodiment, based on the embodiments of the present invention;Those of ordinary skill in the art are without making creative work
Every other embodiment obtained;It fall within the protection scope of the utility model.
In the description of the present invention, it should be noted that term " on ", "lower", "inner", "outside", " top/bottom end " etc.
The orientation or positional relationship of instruction is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model
It is described with simplifying, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation structure
It makes and operates, therefore should not be understood as limiting the present invention.In addition, term " first ", " second " are only used for description mesh
, it is not understood to indicate or imply relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " being provided with ", " be arranged/connect ", " connection " etc., shall be understood in a broad sense, such as " connection ", may be a fixed connection, can also be with
It is to be detachably connected, or be integrally connected;It can be mechanical connection, be also possible to be electrically connected;It can be directly connected, it can also be with
Indirectly connected through an intermediary, it can be the connection inside two elements.For the ordinary skill in the art, may be used
The concrete meaning of above-mentioned term in the present invention is understood with concrete condition.
Embodiment 1:
Helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine referring to FIG. 1-2, including workbench 5, work
The upside of platform 5, which is equipped with, to be equipped with CO 2 laser tube and transmitting mirror along X, Y and Z axis translation main shaft 1, the inside of main shaft 1,
The lower end of main shaft 1 be connected with can 360 degree revolution C axis 2, the lower end of C axis 2 be connected with can around X-axis rotation A axis 3, A axis 3
End is connected with laser cutting head 4, and laser cutting head 4 includes focus lamp, is placed with plastic uptake localization tool 6, plastic uptake on workbench 5
Chain is connected to auxiliary fixing member 501 between localization tool 6 and workbench 5, and plastic uptake localization tool 6 is fixed on auxiliary fixing member 501
On, digging on plastic uptake localization tool 6 has plastic uptake hole 601, and plastic uptake workpiece 7, the lower end cap of A axis 3 are socketed on plastic uptake localization tool 6
It is connected to exhausting smoke evacuation head 8, is connected with the first air-exhausting duct 18 on exhausting smoke evacuation head 8, and the first air-exhausting duct 18 is located in main shaft 1.
Referring to Fig. 3, exhausting smoke evacuation head 8 includes inner sleeve 801 and exhausting exhaust smoke hole 802, fixed on exhausting exhaust smoke hole 802
It is connected with the first filter screen, exhausting exhaust smoke hole 802 is not easy to be blocked, and one end of the first air-exhausting duct 18 is fixedly connected with exhaust fan 9,
The air outlet of exhaust fan 9 is connected with the second air-exhausting duct 17, and one end of the second air-exhausting duct 17 is located in waste gas treatment equipment, takes out
Blower 9 can not only be discharged exhaust gas, while prevented also from burning plastic uptake hole edge,
Referring to Fig. 3, waste gas treatment equipment includes a pair of of waste gas treatment tank 10, placed in one of waste gas treatment tank 10
There is impurity absorption bucket 12, be placed with gas disinfecting bucket 13 in another waste gas treatment tank 10, different processing can be carried out to exhaust gas,
Active carbon particle is contained in impurity absorption bucket 12, one end of the second air-exhausting duct 17 is run through the side wall of waste gas treatment tank 10 and is located at
The bottom of impurity absorption bucket 12, the particulate contamination in adsorbable exhaust gas are contained with thimerosal in gas disinfecting bucket 13, can be to
The exhaust gas of processing carries out disinfection, safer, and further, digging on the side wall of a pair of of waste gas treatment tank 10 has services aperture,
It is stamped cover board 11 in a pair of of services aperture, and is sealing structure between cover board 11 and waste gas treatment tank 10, convenient for opening cover board 11
To in waste gas treatment tank 10 impurity absorption bucket 12 or gas disinfecting bucket 13 replaced or safeguarded., two waste gas treatment tanks 10
Between be fixedly connected with guide duct 14, and two waste gas treatment tanks 10 are connected by guide duct 14, one end position of guide duct 14
In thimerosal liquid level hereinafter, the exhaust gas after active carbon particle adsorbs can be allow to carry out disinfection again processing.
The inside of waste gas treatment tank 10 is fixedly connected with the second filter screen 15, and the second filter screen 15 is located at gas disinfecting bucket
13 surface, the upper end of waste gas treatment tank 10 are fixedly connected with exhaust blower 16, and the inlet end of exhaust blower 16, which is located at, runs through exhaust gas
The side wall for the treatment of box 10 and the upside for being located at the second filter screen 15, exhaust blower 16 can enhance the effect of exhaust, the second filter screen 15
Filtering again can be carried out to gas, keep the gaseous mass of discharge higher.
PCL control device is installed, PCL control device includes operation panel and MCU, convenient for operation cutting machine on main shaft 1
Normal work, this technology is known to the skilled person, here, the utility model people no longer repeats one by one.
In use, its process flow the following steps are included:
One, the plastic uptake on suitable plastic uptake localization tool 6 and plastic uptake localization tool 6 is made according to the requirement of plastic uptake and type
Hole 601.
Two, cutting process is write by those skilled in the art according to plastic uptake hole edge position, and cutting process is incorporated into MCU.
Three, according to the thickness of plastic uptake workpiece 7, reasonable laser power is set on the control panel.
Four, plastic uptake localization tool 6 is installed to saw working bench, and fixed.
Five, plastic uptake workpiece 7 is inserted on plastic uptake localization tool 6.
Six, control panel is operated, booting starts processing program, the CO 2 laser tube being loaded on main shaft 1, through sending out
It penetrates mirror and is transmitted to laser head, optical fiber is pooled the high-energy for a little having concentration by the focus lamp on laser head, can transient evaporation
Plastic uptake workpiece 7, main shaft 1 can be translated along X, Y, Z axis, and C axis 2 voluntarily can carry out 360 degree of revolutions around Z axis, and A axis 3 can surround X-axis
Rotation, the movement of such laser head just have five-axle linkage ability, can cut according to processing program to plastic uptake workpiece 7.
Seven, completion of processing, out part.
This programme may be implemented to cut the hole edge of helmet plastic uptake shell, head using 5-shaft linkage numerical control laser cutting technique
The thickness of helmet plastic uptake is generally between 0.5-1.5mm, and in the prior art, plastic uptake workpiece is rigidly inadequate, will appear after plastics sucking moulding
Deformation, the tolerance of vpg connection is lower, and material moment is distilled as gas, siphoned away by exhaust fan using laser cutting by this programme,
Apparent mechanical force will not be generated to plastic uptake workpiece, the edge being cut into is smooth, and quality is significantly larger than mach quality, just
In the quality for promoting product, competitiveness is promoted.
The preferable specific embodiment of the above, only the utility model;But the protection scope of the utility model is not
It is confined to this.Anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its improvement design is subject to equivalent substitution or change, should all cover in the protection scope of the utility model
It is interior.
Claims (9)
1. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine, including workbench (5), the workbench (5)
Upside is equipped with can be along X, Y and Z axis translation main shaft (1), and the inside of the main shaft (1) is equipped with CO 2 laser tube and transmitting
Mirror, it is characterised in that: the lower end of the main shaft (1) be connected with can 360 degree revolution C axis (2), the C axis (2) lower end connection
Having can be connected with laser cutting head (4) around the A axis (3) of X-axis rotation, the end of the A axis (3), the laser cutting head (4)
It including focus lamp, is placed with plastic uptake localization tool (6) on the workbench (5), the plastic uptake localization tool (6) and workbench
(5) chain is connected to auxiliary fixing member (501) between, and plastic uptake localization tool (6) is fixed on auxiliary fixing member (501), the suction
Digging in modeling localization tool (6) has plastic uptake hole (601), is socketed with plastic uptake workpiece (7), the A on the plastic uptake localization tool (6)
The lower end of axis (3) is socketed with exhausting smoke evacuation head (8), is connected with the first air-exhausting duct (18) on exhausting smoke evacuation head (8), and first
Air-exhausting duct (18) is located in main shaft (1).
2. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 1, it is characterised in that:
Exhausting smoke evacuation head (8) includes inner sleeve (801) and exhausting exhaust smoke hole (802), fixed company on the exhausting exhaust smoke hole (802)
It is connected to the first filter screen.
3. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 1, it is characterised in that:
One end of first air-exhausting duct (18) is fixedly connected with exhaust fan (9), and the air outlet of the exhaust fan (9) is connected with second row
Air hose (17), and one end of the second air-exhausting duct (17) is located in waste gas treatment equipment.
4. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 3, it is characterised in that:
The waste gas treatment equipment includes a pair of of waste gas treatment tank (10), is placed with impurity in one of them described waste gas treatment tank (10)
Adsorption barrel (12), another described waste gas treatment tank (10) is interior to be placed with gas disinfecting bucket (13).
5. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 4, it is characterised in that:
Active carbon particle is contained in the impurity absorption bucket (12), waste gas treatment tank is run through in one end of second air-exhausting duct (17)
(10) side wall and the bottom positioned at impurity absorption bucket (12), the gas disinfecting bucket (13) is interior to be contained with thimerosal.
6. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 1, it is characterised in that:
PCL control device is installed, the PCL control device includes operation panel and MCU on the main shaft (1).
7. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 4, it is characterised in that:
Digging on the side wall of a pair of waste gas treatment tank (10) has services aperture, is stamped cover board (11) in a pair of services aperture,
It and is sealing structure between cover board (11) and waste gas treatment tank (10).
8. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 4, it is characterised in that:
It is fixedly connected with guide duct (14) between two waste gas treatment tanks (10), and two waste gas treatment tanks (10) pass through guide duct
(14) it is connected, one end of the guide duct (14) is located at the liquid level of thimerosal or less.
9. helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine according to claim 5, it is characterised in that:
The inside of the waste gas treatment tank (10) is fixedly connected with the second filter screen (15), and the second filter screen (15) is located at gas disinfection
The surface of bucket (13), the upper end of the waste gas treatment tank (10) are fixedly connected with exhaust blower (16), the exhaust blower (16)
Inlet end is located at the side wall through waste gas treatment tank (10) and is located at the upside of the second filter screen (15).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109079342A (en) * | 2018-10-08 | 2018-12-25 | 深圳创丰宝运动科技有限公司 | The helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine and its technique |
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2018
- 2018-10-08 CN CN201821626755.2U patent/CN208961262U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109079342A (en) * | 2018-10-08 | 2018-12-25 | 深圳创丰宝运动科技有限公司 | The helmet plastic uptake shell hole edge 5-shaft linkage numerical control laser cutting machine and its technique |
CN109079342B (en) * | 2018-10-08 | 2023-07-25 | 东莞利达运动用品有限公司 | Five-axis linkage numerical control laser cutting machine for hole edge of helmet plastic suction shell and process thereof |
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Effective date of registration: 20211123 Address after: 523000 Yang Gong Zhou Cun, Shatian Town, Dongguan City, Guangdong Province Patentee after: Dongguan Lida sporting goods Co.,Ltd. Address before: 518100 Huangpu Yifeng Industrial Town, Huangpu Community, Xinqiao Street, Baoan District, Shenzhen City, Guangdong Province Patentee before: SHENZHEN CHUANGFENGBAO SPORTS TECHNOLOGY Co.,Ltd. |