Category: News

在北京时间8月26日的报道中，前NBA球员兼达拉斯独行侠(原名达拉斯小牛)的主教练埃弗里·约翰逊在参加一个节目时讨论了关于史上最伟大球员(GOAT)的争议话题。

约翰逊表示乔丹是他心中的GOAT：“大家可以用各种数据和统计来分析，但我也相信我的眼睛。我的眼睛直观的告诉我，任何人和乔丹比都明显有巨大的差距，我无意冒犯任何人。”

Jan
23

A Message From Sherex

Are you experiencing problems with tolerance stack? Having trouble with misalignment during joint servicing? Riv-Float Rivet Nuts are the answer! Using a patented floating inner nut design, Riv-Float provides fast and easy attachment points in off-center applications, reducing the risk of cross threading and spin out.

Riv-Float rivet nuts are an ideal replacement for riveted nut plates and cage nuts as they reduce installation time by requiring only one hole and can be installed blind. Riv-Float can also replace weld nuts, offering quicker, easier installation, and eliminating the possibility of weld spatter affecting threads and the need for costly ventilation systems.   

For applications with restricted backside clearance, Riv-Float Short provides the same solution to tolerance stack as Riv-Float with a reduced profile, allowing for blind installation in tight spaces. 

Riv-Float and Riv-Float Short can be installed with the Sherex Flex-5 installation tool with the use of a Riv-Float anvil.

Riv-Float and Riv-Float Short

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那些经典的香奈儿包包总是给人很优雅很女人的印象，而自从2011年9月Le Boyle boy chanel成为香家的新成员以后，爱街拍的潮妞们又多了一种潮流个性的新选择，le boy总是被人称为有一种酷酷的男生味道，就如老佛爷取名为le boy一样，拥有自己独特的个性魅力，在设计中溶入了欧式复古的元素，同时不失香奈儿经典优雅气息，精美的菱格纹走线，外加欧式的波纹边框设计，点缀独特的金属扣，粗中有细的链条肩带，成为le boy chanel独家的时尚ICO。

le boy chanel在穿衣搭配方面同样拥有出色的表行，尽管现在拥有一款le boy已经不算是稀奇，可是还是有那么多的明星、模超都会时常搭配，le boy不只是适合平时休闲感较为随意的打扮都会有很好的效果，就算是穿得更为靓丽时髦搭配也十分出色，比如T桖加牛裤、或花短裤、要不穿裙子、总之四季的衣衫都能完美百搭。

Karl Lagerfeld卡尔之所以取名为Le Boy Chanel，最大的原因可能是Chanel女士的Boyish男孩子气态度，假如你看过coco chanel小姐抽烟的照片那必能理解，又有人说是为了纪念她的情人ArtherBoyCapel先生而命名，而小编偏偏喜欢管它叫帅帅的le boy，也有人叫它辣妈包，看来每个经典包的都会有许多很好听的名字吧，le boy拥有十分火爆的人气，成为许多明星休闲度假必备单品，其中孙骊、姚晨、周迅、anglebaby、韩火火、刘诗诗、孙菲菲、詹妮弗·洛佩慈Jennifer Lopez、绯闻女孩儿莱克•莱弗利 (Blake Lively)都是它的粉丝哟。

le boy chanel不是明星的专属，更是许多潮妞出街扮靓之美物。

在北京的中心街景、慢步都市的女生搭配黑色菱纹le boy chanel，专柜价格28000左右。

樱花粉色的原版羊皮le boy chanel

你可知道le boy拥有哪些尺寸？小号宽W20×高H13×厚D7cm，中号W25xH16xD9cm，大号W30 X H22 X D9CM；

绯闻女孩儿莱克•莱弗利 (Blake Lively)同款手提le boy chanel，采用油腊牛皮电压制作而成，尺寸W32 x H26 x D10cm；

20cm的迷你款le boy chanel

红色的原版羊皮中号25cm le boy chanel

电光蓝+黑色超炫的拼色风格，原版羊皮中号25cm le boy chanel

黑白拼色le boy香奈儿包包

玫红花色南非真蟒蛇皮le boy chanel ，20cm迷你款

泰国珍珠鱼皮限量版le boy chanel

红色撞色le boy ，25cm中号法国原版羊皮

高订时装惯用的丝绒质地le boy，除此以外古铜的金属扣上刻上条条的痕迹，2013年的秋冬季款式。

西班牙原版树纹牛皮，以及反绒面牛皮边框，十分复古的风格演绎，这种皮料的纹路与chanel2.55其实是一种，十分特殊的纹路，让人感觉很像手掌，有些沧桑感。

缝线与电压纹同时装饰的le boy，采用西班牙油腊牛皮制作而成

20cm迷你限量版le boy，南非蟒蛇皮配黄铜色五金

兔毛与马毛也成为le boy的全新时尚元素

2014Paris-Dallas巴黎-达拉斯高定手工坊系列，手工雕刻限量版le boy chanel，精美的热带雨林生长的茂密枝叶雕刻得栩栩如生。

2014Paris-Dallas巴黎-达拉斯高定手工坊系列，刻有精美花纹的金属边框装饰、成为这款le boy最为奢华与个性的象征，而且由外至内带给人一种复古的宫廷风情。

《来自星星的你》千颂伊同款镶钻版le boy，许许多多的闪钻点缀到璀璨，另人感受十分奢华的le boy魅力

2014春夏季最新款渐变风le boy

2014春夏款涂鸦风格的le boy布包演绎

2014Paris-Dallas高定手工坊之出街潮物，朋克风20cm le boy金属铆钉包

2014春夏爆款，电光蓝色珠光漆皮20cm 迷你款le boy

接下来看看那些爱背le boy出街的明星与模特们

人称坏女孩爱丽丝·德拉尔(AliceDellal) 受老佛爷亲邀拍摄le boy chanel时尚大片

2014纽约时装周街拍，模特秀莹光绿色le boy，色彩与光感都十分惊艳

2014李宇春也走了趟香奈儿时装周看秀，背le boy亮相可谓绝配了

街挂英国名媛出街秀le boy

刘诗诗出街随意打扮，背le boy亮相

超模拍摄电光蓝拼色le boy时尚大片

孙菲菲巴黎出街秀le boy链条包

周迅观赏香奈儿文化展阴湿白色le boy亮相

帅帅的国际华人超模刘雯，国外度假休闲随意打扮，背30cm大包le boy chanel街拍

Oct
24

We were shocked and saddened to learn this morning that Joe Greenslade passed away suddenly last night. 

Joe served as Technical Director for the Industrial Fasteners Institute from 2007 until 2015. He was a fastener industry icon, having started his career in 1970 working for various fastener manufacturers before founding Greenslade and Company in 1978.  He sold the company in 2007 and came to work for the IFI.  In a recent conversation with IFI managing director, Joe said that working for IFI had been his dream job.  You could tell he thoroughly enjoyed working in the industry, and he put 100% of his effort into anything he set out to accomplish.

Joe retired from IFI in 2015 when Salim Brahimi took over as Technical Director.  Joe stayed on as a special consultant to IFI, maintaining the upkeep of the IFI Technology Connection software that he had developed and is relied upon by many companies today.

Please keep Joe’s wife, family and colleagues in your thoughts and prayers today.  We will notify you again once we know more details about services or charities for donations.

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The world of modern machining is a realm where precision meets innovation, and at the heart of this technological marvel lies the CNC Lathe – a cornerstone in advanced manufacturing. This article delves deep into the essence of CNC lathes, exploring their history, functionality, types, and much more, unraveling the complexities of these sophisticated machines.

What is а CNC Lathe?

A CNC lathe is a sophisticated machine tool designed for precision CNC turning and manufacturing through Computer Numerical Control (CNC).

It’s an embodiment of technological evolution, marrying the age-old principles of a lathe machine with advanced computer programming to achieve unprecedented accuracy and efficiency in machining.

The CNC lathe machine tool has revolutionized how materials are manipulated, making it an indispensable tool in various industries and many machine shops. Its ability to perform intricate cutting and shaping with incredible precision makes it a cornerstone in modern manufacturing processes. Whether it’s metal, plastic, or wood, the CNC lathe’s versatility in handling diverse materials is unmatched.

Short history of CNC Lathe

Embarking on a journey back in time, the history of the CNC lathe is a fascinating tale of technological evolution. The inception of the CNC lathe marks a significant milestone in the transition from manual to automated machining.

When was CNC lathe invented?

The genesis of the CNC lathe dates back to the 1940s and 1950s. This era witnessed the birth of a new technological wave, driven by the need for more precise and efficient manufacturing methods.

The advent of computer technology was the catalyst that transformed traditional lathes into the highly sophisticated CNC lathes we know today.

Pioneers like John T. Parsons and Frank L. Stulen were instrumental in this transformation, with their work in the aviation industry leading to the development of the first numerically controlled machines. These early versions laid the groundwork for the CNC lathes that have become integral in modern manufacturing.

How Does a CNC Lathe Machine Work?

Delving into the workings of a CNC lathe unveils a symphony of precision engineering and computerized control. Unlike a manual lathe, where the craftsmanship lies primarily in the hands of the operator, a CNC lathe integrates computerized technology to enhance precision and efficiency. Here’s a detailed look at its process:

1. Design Phase: Initially, you, the operator, create a detailed design using CAD (Computer-Aided Design) software. This design includes all specifications for the desired part, from dimensions to shapes.
2. Programming: The CAD design is then translated into G-code, the programming language that CNC machines understand. This code instructs the CNC lathe on how to move, shape, and create the part.
3. Setup: Next, you set up the CNC lathe. This involves selecting and installing the appropriate cutting tools and securing the workpiece onto the machine.
4. Machining Process: The CNC lathe, guided by the G-code, begins the machining process. The workpiece is rotated at high speeds while the cutting tool is moved across two or more axes to shape the material.
5. Quality Check: Throughout the process, the CNC lathe monitors the cutting conditions and makes real-time adjustments to ensure precision. The final part is checked against the original specifications for accuracy.

What are the Key Components of a CNC Lathe Machine?

A CNC lathe is an assembly of intricate components, each playing a crucial role in its operation. Understanding these components gives you a deeper insight into how these machines achieve such high levels of precision and efficiency. Here’s a breakdown of the key parts:

• Main Spindle: The heart of the lathe, where the workpiece is mounted and rotated.
• Chuck: A device that holds the workpiece in place on the spindle.
• Tailstock: Provides additional support for longer workpieces, ensuring stability during machining.
• Tool Turret: Holds various cutting tools and rotates to bring the desired tool into position.
• Control Panel (CNC Controller): The interface where you input the G-code and control the machine’s operations.
• Bed: The base that supports all major components of the lathe.
• Carriage: Moves along the bed, carrying the cutting tool and guiding it along the workpiece.
• Headstock: Houses the main spindle and often includes the gear mechanism for controlling spindle speed.
• Coolant System: Delivers coolant to the cutting area to manage temperature and prolong tool life.
• Chip Conveyor: Removes the metal chips produced during machining, keeping the work area clean.

What Types of CNC Lathes Are Available?

The world of CNC lathes is diverse, with each type tailored to specific machining needs. Understanding the different types available is key to choosing the right one for your projects. Let’s explore the most common types:

2-Axis CNC Lathe

A 2-Axis CNC Lathe is the fundamental model in CNC machining. It operates on two linear axes, X and Z. The X-axis controls the diameter, moving the tool inwards and outwards, while the Z-axis controls the length, moving the tool back and forth along the workpiece. This setup is ideal for simple and symmetrical parts.

Applications and Use Cases:

• Turning Operations: Ideal for creating cylindrical parts.
• Facing Tasks: Efficient for creating flat surfaces on the ends of workpieces.
• Drilling and Boring: Capable of drilling holes and enlarging them to precise dimensions.
• Grooving and Parting: Suitable for making grooves and separating parts from the workpiece.

Preferred Projects:

• Symmetrical Components: Best for parts with uniform shapes like rods and shafts.
• General Manufacturing: Commonly used in mass production due to its efficiency and simplicity.

3-Axis CNC Lathes

The 3-Axis CNC Lathe introduces an additional Y-axis, expanding its capabilities beyond the 2-axis model. The Y-axis moves perpendicular to the X-Z plane, allowing for off-center milling operations. This added versatility makes it suitable for more complex shapes and designs.

Applications and Use Cases:

• Complex Turning: Able to handle more intricate designs than the 2-axis lathe.
• Off-Center Drilling and Milling: Can perform operations that are not aligned along the main axes.
• Advanced Shaping: Suitable for parts with non-cylindrical profiles.
• Multi-Process Machining: Combines turning with milling and drilling in a single setup.

Preferred Projects:

• Complex Geometries: Ideal for parts with irregular shapes and features.
• Precision Components: Offers higher precision for critical applications in industries like aerospace and medical.
• Custom Manufacturing: Perfect for bespoke or limited-edition productions where complexity and precision are paramount.

4-Axis CNC Lathes

A 4-Axis CNC Lathe introduces an additional axis, usually the C-axis, which allows the spindle to rotate perpendicularly to the cutting plane. This added axis expands the machine’s ability to create complex shapes and patterns, offering you more versatility in CNC lathe machining.

Applications and Use Cases:

• Complex Contours: Ideal for creating intricate designs that require both turning and milling.
• Precision Engraving: Capable of detailed engraving work on cylindrical surfaces.
• Off-Center Drilling and Milling: Enhances the ability to perform operations away from the centerline of the workpiece.
• Multi-Process Machining: Streamlines the production process by combining different operations in one setup.

Preferred Projects:

• Advanced Aerospace Components: Well-suited for parts with complex geometries.
• Automotive Parts: Ideal for producing sophisticated components with intricate details.
• Custom Manufacturing: Optimal for projects requiring high precision and complex detailing.

5-Axis CNC Lathes

A 5-Axis CNC Lathe adds even more flexibility, with the additional axes (usually the A and B axes) enabling the tool to approach the workpiece from virtually any direction. This functionality is paramount for parts requiring complex geometries and angles.

Applications and Use Cases:

• Complex 3D Shapes: Perfect for machining parts with non-standard shapes.
• Simultaneous Cutting: Allows simultaneous movement along multiple axes, reducing machining time and improving precision.
• High-Precision Manufacturing: Offers unparalleled accuracy for critical components.
• Intricate Medical Devices: Ideal for producing small, complex parts used in medical equipment.

Preferred Projects:

• Aerospace and Defense: Essential for manufacturing complex aerostructures and defense components.
• Medical Industry: Suitable for creating intricate medical implants and devices.
• Custom Prototyping: Excellent for prototypes requiring detailed and accurate representation of final products.

6 or More Axis CNC Lathes

CNC Lathe machines with 6 or more axes represent the pinnacle of machining flexibility and precision. These lathes can manipulate the workpiece and the tool in multiple directions simultaneously, offering unparalleled capability in creating highly complex parts.

Applications and Use Cases:

• Ultra-Precise Components: Ideal for parts where tolerances are extremely tight.
• Complex Tool Paths: Capable of executing sophisticated tool paths that lesser axes machines cannot achieve.
• Multi-Faceted Manufacturing: Suitable for parts requiring a combination of turning, milling, drilling, and engraving in a single setup.

Preferred Projects:

• Advanced Engineering Applications: Essential in sectors that require extreme precision, such as aerospace engineering and precision engineering.
• Complex Industrial Components: Ideal for producing parts with complicated geometries that are used in advanced machinery.
• Research and Development: Perfect for experimental designs where flexibility and precision are crucial.

What is the difference between a horizontal and a vertical CNC lathe?

The primary distinction between horizontal and vertical CNC lathes lies in their orientation and the applications they’re best suited for.

Horizontal CNC Lathes:

• Orientation: The spindle in a horizontal lathe is positioned horizontally, with the workpiece mounted perpendicularly to the axis.
• Applications: Primarily used for longer, cylindrical workpieces.
• Advantages: Easier chip evacuation due to gravity, generally better for heavier and larger workpieces.
• Limitations: May not be suitable for parts with complex geometries.

Vertical CNC Lathes:

• Orientation: The spindle is positioned vertically, with the workpiece attached to a horizontal chuck.
• Applications: Ideal for heavy, large-diameter, and short workpieces.
• Advantages: Gravity helps to secure the workpiece, reducing the need for extensive clamping. Offers better access to the workpiece for certain operations.
• Limitations: Not as effective for long, slender parts where gravity can impact accuracy.

3ERP CNC lathe machines

As a leading provider of CNC turning services, 3ERP has three high-quality CNC lathes in our factory from renowned manufacturers like Haas, Bochi and GM. They are capable of machining both plastic and metals, achieving tolerances as tight as 0.01mm (0.000393 inches) and

What Operations Can Be Performed on a CNC Lathe?

CNC lathes are versatile machines capable of performing a wide range of operations, each contributing to the creation of precise and intricate parts:

1. Turning: The fundamental operation involving the removal of material from the exterior of a workpiece to produce cylindrical parts.
2. Facing: Cutting a flat surface at the end of the workpiece or along its length.
3. Drilling: Creating holes in the workpiece using a drill bit.
4. Boring: Enlarging a hole previously drilled, achieving precise diameters and depths.
5. Reaming: Finishing the drilled holes to improve their accuracy and surface finish.
6. Threading: Cutting internal or external threads (such as screws or nuts) onto a workpiece.
7. Knurling: Creating a regular, cross-patterned surface on the workpiece for better grip.
8. Grooving: Cutting narrow grooves along the workpiece for functional or aesthetic purposes.
9. Parting or Cutoff: Separating a part from the rest of the workpiece.
10. CNC Milling: Incorporating milling operations in CNC lathes, especially those with additional axes, to create features off the main axis of the part.
11. Chamfering: Cutting bevels at the edge of a workpiece.
12. Eccentric Turning: Producing off-center or non-symmetrical shapes.
13. Tapping: Forming internal threads using a tapping tool.

What Softwares are Used in CNC Lathe Programming and Machining?

The precision and efficiency of CNC lathes are largely due to the advanced software that drives them. This software spans from design to production, ensuring every aspect of the machining process is meticulously controlled and executed. Here’s an overview of the types of software used in CNC lathe programming and machining:

• CAD (Computer-Aided Design) Software: Vital for creating detailed designs and blueprints of the parts to be manufactured. Examples include AutoCAD, SolidWorks, and Fusion 360.
• CAM (Computer-Aided Manufacturing) Software: Transforms CAD designs into G-code, the language understood by CNC machines. Popular examples are Mastercam, Fusion 360, and GibbsCAM.
• CNC Simulation Software: Allows operators to simulate and visualize the entire machining process, aiding in error detection and prevention. VERICUT and Machining Simulation Software are notable examples.
• G-Code Editors: Provide the capability to write and edit G-code manually, ensuring greater control over the machining process. NC Corrector and G-Wizard Editor are widely used.
• Toolpath Generation Software: Essential for defining efficient paths for the cutting tools. Often integrated within CAM software packages.
• DNC (Distributed Numerical Control) Software: Facilitates seamless communication between computers and multiple CNC machines. Examples include Predator DNC and CIMCO DNC.
• Machine Monitoring and Management Software: Tracks the performance and efficiency of CNC machines, aiding in maintenance scheduling. MDC-Max and FactoryWiz are popular choices.
• Post-Processing Software: Converts CAM-generated toolpaths into machine-specific G-code, often a component of CAM packages.
• CAD/CAM Integrated Software: Combines the functionalities of CAD and CAM in a single package for streamlined workflow. Fusion 360 and BobCAD-CAM are examples of such integration.
• 3D Modeling Software: Used for creating complex 3D models that can be translated into machining operations. Rhino and Blender are suited for more artistic or intricate designs.
• Quality Control Software: Ensures the accuracy of machined parts by comparing them against the original CAD design. Hexagon PC-DMIS and Quality Control Systems are widely used for this purpose.
• Customizable Control Software: Offers personalized control interfaces or machine operations for advanced users. LinuxCNC and Mach3/Mach4 are examples of such software.

How Accurate is a CNC Lathe?

CNC lathes can achieve precision levels as tight as ±0.0005 inches (±0.0127 mm). This level of accuracy is essential in creating components for critical applications like aerospace, medical devices, and automotive manufacturing.

Along with precision, CNC lathes offer high repeatability, ensuring that every part produced matches the last with minimal variance. This consistency is crucial for large-scale production runs.

How Much Does CNC Lathe Cost?

The cost of CNC lathes varies widely based on type, size, functionality, and specific features. Here’s an average price range for different types of CNC lathes:

• Entry-Level CNC Lathes: These smaller and more basic machines are suitable for small businesses or hobbyists. They typically range from $20,000 to $60,000.
• Mid-Range CNC Lathes: Offering more features and capabilities, these machines are suited for medium-sized enterprises and more complex projects. Prices range from $60,000 to $250,000.
• High-End CNC Lathes: These lathes are equipped with advanced features like multiple axes, higher precision, and greater automation capabilities. This type of CNC machine is necessary for large-scale industrial manufacturing and can cost anywhere from $250,000 to over $500,000.

What is the Lifespan of a CNC Lathe?

CNC lathes typically have a lifespan of 10 to 15 years. However, with proper maintenance and care, many machines continue to operate efficiently well beyond this range.

What are the Best Practices for CNC Lathe Programming and Operation?

To harness a CNC turning machine full potential, it’s essential to follow best practices in programming and operation. Here’s a comprehensive guide, including software options, programming tips, and troubleshooting strategies:

1. Understand Your Machine: Familiarize yourself with the specific CNC lathe machine you’re working with, including its capabilities and limitations.
2. Choose the Right Software:
   • CAD (Computer-Aided Design) for designing parts.
   • CAM (Computer-Aided Manufacturing) for translating CAD designs into machine instructions (G-code).
   • CNC Simulation Software for previewing and adjusting the machining process.
3. Programming Methods:
   • Direct Programming on the Machine: Utilize the CNC Programming Support System for on-the-spot programming, ideal for simpler tasks or modifications.
   • Off-line Programming using CAD/CAM Systems: Best for complex operations, allowing detailed planning and simulation.
4. Create Efficient Toolpaths: Optimize toolpaths for the shortest travel time while ensuring the quality of the cut.
5. Tool Selection and Setup: Choose the appropriate tools for your operation, considering material, type of cut, and precision required.
6. Material Consideration: Understand the properties of the material you are working with and adjust your programming accordingly.
7. Test Runs and Simulations: Before the actual operation, run simulations or test programs to ensure everything works as planned.
8. Regular Maintenance Checks: Keep your CNC lathe in top condition with regular maintenance, reducing the chances of errors and machine downtime.
9. Stay Updated on Software: Regularly update your CAD/CAM and other software to leverage the latest features and security updates.
10. Troubleshooting Common Issues: Develop a clear understanding of common machining issues and their solutions, like tool breakage, programming errors, or finish quality problems.
11. Safety First: Always adhere to safety protocols, including proper machine guarding, use of personal protective equipment, and adherence to operational guidelines.
12. Documentation and Records: Keep detailed records of your programming and machining operations, which can be invaluable for troubleshooting and future reference.
13. Continuous Learning: Stay abreast of new technologies and techniques in CNC machining. Continuous learning is key to mastering CNC lathe programming and operation.

What is the Difference Between a CNC Lathe and a Regular Lathe?

Understanding the distinction between a CNC lathe and a regular lathe is crucial in choosing the right equipment for your machining needs. The main technological differences include:

• Control System: CNC lathes are controlled by a computer, whereas regular lathes are manually operated.
• Precision and Accuracy: CNC lathes offer significantly higher precision and consistency compared to regular lathes.
• Complexity of Operations: CNC lathes can perform complex operations and intricate designs, which are challenging to achieve with regular lathes.
• Production Speed and Efficiency: CNC lathes generally work faster and are more efficient, particularly for high-volume production.
• Skill Requirements: Operating a CNC lathe requires knowledge of programming and software, whereas manual lathes require traditional machining skills.

Conclusion

Its advanced technology, precision, and efficiency make a CNC lathe machine indispensable for a wide range of applications.

By understanding the nuances of CNC lathe operation, lifespan, and the differences from traditional lathes, businesses and operators can make informed decisions that maximize productivity and maintain quality.

FAQs

How Loud is a CNC Lathe?

CNC lathes vary in noise level depending on size and operation, but they generally produce around 70 to 90 decibels during operation, similar to the noise level of a hairdryer or a lawnmower.

What is the M Code of CNC Lathe?

M codes are part of the programming language for CNC machines, controlling the miscellaneous functions that do not involve the movement of the tool. Examples include M03 for spindle start and M05 for spindle stop.

How Much Electricity Does a CNC Lathe Use?

The electricity usage of a CNC lathe depends on its size and complexity. On average, smaller lathes may use about 5 to 10 kW, while larger industrial models can consume 20 kW or more during heavy operation.

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一个精美的礼品包装往往可以让人心情愉悦，惊喜感加倍，不管是网上购物还是收到礼物，这点很多人都很有感触吧，礼品盒 礼品袋已经成为产品或不可缺的部分，精美的包装也是奢侈品的象征，LV GUCCI 香奈儿的礼品袋偶尔也是明星街拍的时尚配饰，我们曾见过许多设计很特别很有创意的包装，相比之下，高高在上的奢侈品牌礼品袋设计是不是更加高大上呢？这次我们就来欣赏下众多奢侈品礼品盒 礼品袋设计吧。

作为最有名气的奢侈品牌，一直延续经典风格并稳中求变的LV包，在全球范围内都拥有太多的喜爱者，现在LV包装已经从深啡色变成了鲜明的黄色，看来LV的包装也如LV经典款式一样，也会渐渐产生一些变化。

有人问现在LV礼品盒为什么是黄色了呢？不是红色或者紫色什么的，基色这个颜色搭配背后其实也有故事的，灵感来自LV 1928年古董硬箱，让我们一起来向经典致敬吧。

同样以淡橙色为代表的Tod’s，包装的感觉更传统、简洁。Tod’s正常系列的盒子和防尘袋的颜色组合刚好是相反的。

最外面的盒子一改往常的橙色，用了更深邃一些的深巧克力色设计

不同尺寸的Tod’s礼品盒

Tod’s的防尘布袋

香奈儿的包装直接告诉我们，这个奢侈品牌是多么注重黑白色呢，纯黑色的香奈儿礼品盒从去年开始已经被白色替换了，而且盖子都是磁扣了，香奈儿包装还有一种情怀，许多人问小编，为什么买香奈儿包包还会送一朵白色的花，其实是有原因的，那是coco chanel最喜欢的山茶花，象征浪漫的爱情。对于很多女生来说，只是拿着香奈儿购物袋子，就已经很开心了，更不要提打开盒子时像拆礼物一样的心情了！

一款很像礼品盒的香奈儿晚宴包，蛮有创意的。

印上coco chanel头像还有菱格纹图案的香奈儿布袋，已经是黑色的，现在也是白色的

白色的香奈儿礼品盒

看到橙色的礼品盒就会像到爱马仕了，满满的活力感，这么多奢侈品牌，爱马仕的礼盒包装是唯一没怎么变化的。

潮人拧爱马仕购物袋街拍展现时尚造型

当打开一个蒂芙尼包装就会有满满的惊喜感 幸福感流露出来

一片清新感的湖水绿色，蒂芙尼已经被很多人用来指一种色彩了，就是包装上这种色彩

蒂芙尼首饰的海报上也经常会将礼品包装当成画面重要部分展现

史上最清新的礼品盒配色了，像爱情海一样浪漫

说完首饰与包包的礼品盒购物袋了，再来看看女斜的礼品盒吧。

gucci包包精彩绝伦的设计已经蔓延到礼品盒 购物袋上了，全新老虎图案的gucci包装

三种流行元素的gucci礼品盒设计，左边中间分别冷色与暖色天竺葵图案，右边上花鸟图案

最后我们以一款深啡色LV购物袋来向经典致敬吧，从包包到礼品盒  LV GUCCI 香奈儿哪家更高大上？相信你心里已经有了答案，如果您对美丽包包名品网以上内容感兴趣，不凡添加我们V信一起交流吧。

Description

HiT Apelsin Orange – Feel the fresh pure taste of Orange added by natural essential oils with HiT Apelsin. The well-balanced moisture gives a quick release of both flavour and nicotine. The soft slim-sized nicotine pouches fit well under the lip. A strong pouch with a nicotine level of 20 mg/g.

From the creator of FOX – HiT comes in 5 unique flavours – Blackberry, Blueberry, Apelsin (orange), Dr.Pepper and Lemongrass, all of them with a great taste and strong nicotine kick!

FACTS

Weight: 15g (net)
Nicotine: 20 mg/g (15mg per pouch)
Flavour: Oranges
Pouches: 20 / can
Pouch size: Slim
Texture: Moist
Available in: Single cans, Rolls (10 cans)
Manufacturer: GN Tobacco AB

Description

Grant Fresh Mint Light 4mg – A more gentle pod from Grant with 4mg/g nicotine. This all white nicopod has a fresh peppermint taste which is well balanced out with spearmint sweetness along the whole experience.

FACTS

Weight: 11,8g (net)
Nicotine: 8 mg/g (4mg per pouch)
Flavour: Fresh Mint
Pouches: 27 / can
Pouch size: Slim
Texture: Moist
Available in: Single cans, Rolls (10 cans)
Manufacturer: UAB Kordula

Description

GOAT Crystal Ice #16 – This all white snus from CBI comes with a fresh taste of  peppermint that reminds you of the coolness of crystal clear ice. The can has 20 white portions 100% free from tobacco but with a sweet flavor of Mint. The strenght is 16,4 mg per gram that gives you a portion strenght of  11,5mg per pouch,

 

FACTS

Weight: 14 grams

Flavour: Ice, Mint

Nicotine: 16,4 mg/g (11,5 mg/pouch)

Pouch size: Slim

Number of pouches: 20

Texture: Moist

Available in: Single Cans, Rolls (10 cans)

Manufacturer: Consumer Brands International 

Description

FIX Blueberry Ice S5 – This tobacco free snus has a sweet blueberry flavor combined with a dash of cooling mint that makes the taste make you think of blueberry ice cream.

FACTS

Net Weight: 14 g
Flavour Description: Blueberry
Nicotine Level: 16,42 mg/g  (11,5 mg per pouch)
Pouch size: Slim
Pouch Weight: 0,7 g
Number of pouches: 20
Texture: Moist
Available in: Single cans, Rolls (10 cans)
Manufacturer: Habit Factory in Sweden AB