French youth international Amine Harit has been sent to play for the reserves after going on a night out in the middle of last week, according to L’Équipe.

Harit has not played for Les Canaris since he was sent off against Nancy at the beginning of last month.

It is unclear as to how long Harit will be banished from first team activity for.

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#Product Trends

New Allweiler mobile PCP pump unit launched

Circor International Inc has announced the launch of the new Allweiler AEB-1F-ME mobile progressing cavity pump unit, ideal for food and beverage market transfer and metering applications, including wine and wine mash, fruits, water, dips, sauce, juice and oils.

With the new design, the stator is always prepared for a dry run protection. The suction casing interface to the mechanical seal housing has been optimised and it now features a drain connection. The stub shaft and mechanical seal housing dimensions offer easier assembly and disassembly of the patented clamp set connection between the pump and the geared motor.

Using the long pitch geometry of Circor’s Optiflow series, the new AEB-1F-ME series is available in block design. Combined with the provided trolley, the mobile unit can be used very flexibly at different installations. It is offered in a variety of sizes, including 103, 203, 403, 553 and 703.

The AEB-1F-ME series replaces the AEB-E-ME series; spare parts for the prior model will continue to be available, including stators, joints and seals.

Block forming machine for the integration of Mechatronics, High-tech, high-precision modern equipment.

If the correct use and maintenance, its service life is quite long, the economic benefits followed, otherwise will attract trouble, even unpredictable consequences.

1, have trained staff, not to operate the block molding machine alone.

2. The operator must read and understand the operation Manual of the block forming machine without exception.

3. The quality, cleanliness and working viscosity of the hydraulic oil of the block forming machine determine the wood reliability of the hydraulic system of the block forming machine, as well as the efficiency, life and economy of the block forming machine. 4, block molding machine to the fuel tank when the injection should use 10 micron filtration device, absolutely do not allow no filtration device direct oil injection.

Overview

Basic Info.

Model NO.
Blanket

Material
Polyester

Age Group
Adults

Feature
Portable

Type
Fleece Blanket

Knitting Method
Warp Knitting

Pattern
Plain Color

Usage
Home, Hotel

Transport Package
Customize

Specification
Customize Size

Trademark
non-brand

Origin
China

Production Capacity
3000000PCS/Month

Product Description

Adults 100% Polyester Portable Airline Bedding Reusable Fleece Blanket with Multi Color

 

Product Description

 

Products description: Products Name Blanket Material / Composition 100% Polyester Type Jacquard/printed/embroidery SAMPLE DAY 2-7DAYS Weight 1-1.5kgs Width Follow the customer request Brand Kangdefen or OEM Certification EN,SGS,GRS,ISO,BCSI,SEDEX Color Follow the customer request Usage Car, Lining, Home Textile, Trousers, Upholstery Weaving Process Shuttle Features of Fabric Soft,Waterproof, Flame Retardant, Anti-Static, Tear-Resistant, Heat-Insulation, Blackout, Shrink-Resistant,and follow the customer request Quality standard SGS functional Test Delivery Information: Port Ningbo / Shanghai MOQ 10000 pcs Capacity 3000000 per Month

 

Detailed Photos
  

Company Profile

FAQ
Q1: Can you provide us sample, is it free or need to pay?
A1: Free for standard items, only need to charge Express fee properly.(No need charge the express fee if you have your freight collect account like Fedex Dhl TNT)Customized samples need to charge sample fee.

Q2: What is the lead time for samples?
A2: If we are not in busy season, your ordered samples will be sent out to you about 3-10 days.

Q3: What is the lead time for delivery?
A3: In general we are able to manufacture orders of a quantity of up to a few thousand items within 15-30days since order of confirmation fixed.

Q4: Can I put my own label and logo on the products?
A4: Yes, And you also have two options as below.
(1)Send your label design to us, and we will make them for you and put them on the items.
(2)Send your finished labels to us, and we will put them on the items.

Q5: What is the minimum order quantity(MOQ)?
A5: Regarding OEM service, general MOQ of each design is 1000pcs per color, with best price. For your special request with less MOQ, please let us know, we would check with our warehouse and our fabric supplier to find a available solution. Welcome to contact us for details.

Q6: How to deliver?
A6: By sea or by air or by courier like DHL, UPS, Fedex.
 
Q7: What’s your Payment term?
A7: T/T or LC or 30% deposit before production, the 70% balance before shipping.

Q8: Where is your factory located, is it convenient to visit?
A8: Our factory located in Shaoxing city Zhejiang province, we can provide business vehicle to take you coming and departure.

Description

Icetool Cap Can has a body made of solid aluminum and a lid out of stainless steel. Used nicotine pouches can be stored conveniently under the lid.

• Strong and durable
• Keeps your snus and nicopods fresh and safe
• Made of  stainless steel and aluminum

 

Hight and Weight

Diameter 73 mm (2,9 inches)

Height 23 mm (0,9 inches)

Weight: 80 grams (2,8 oz)

 

Premier League side Liverpool have entered into discussions with French U19 international and Lyon left-back Jordy Gaspar about signing a professional contract with them, according to Téléfoot.

Gaspar, who already has a professional contract offer on the table from his current side Lyon, is also in talks with AC Milan.

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Let’s be honest, it has been quite a challenging year for gold.

There were a number of factors influencing the gold price in 2022, including rampant inflation, rising interest rates, and lingering geopolitical tensions.

As we are nearing the end of the year, you may be wondering:

What will happen to gold in 2023?

While there’s no definite answer to this question, we will try to give you an idea of where the price of gold could go next year.

In this SPOTLIGHT, you will learn:

• What happened to the price of gold in 2022?
• Why did gold not rally amid soaring inflation?
• Will the price of gold go up in 2023?

So let’s start.

What happened to the price of gold in 2022?

As with any other asset, it has been a year of ups and downs for gold.

In early March, the price of gold surged above $2,000 to its highest level since 2020, as the war in Ukraine pushed investors to seek protection from rising geopolitical risks and high inflation.

Since then, however, other factors have come into play, making gold lose some of its gains. We call them the Fed effect.

The U.S. central bank has started aggressively hiking interest rates to curb stubbornly high inflation, pushing the U.S. dollar to its highest level in two decades.

Keyword: gold loan Auckland

Production CNC machining involves the specialized use of CNC (Computer Numerical Control) technologies geared specifically for high-volume manufacturing. This approach to CNC machining harnesses both computer-aided design (CAD) and computer-aided manufacturing (CAM) to achieve precision and efficiency in creating numerous parts with minimal variance and higher throughput rates compared to traditional methods.

How Does Production CNC Machining Compares with Traditional CNC Machining

Traditionally, the CNC machining process has been revered for its flexibility and precision, accommodating custom and prototype designs. However, production CNC machining differentiates itself by focusing on repetitive production, which demands robust CNC systems and machining processes. Unlike the traditional approach where setup changes may occur frequently, production CNC setups are optimized once and run repetitively for mass production, leveraging automation and advanced programming to reduce costs and increase productivity.

How Does Production CNC Machining Work?

The process of production CNC machining is a symphony of six precise, automated steps, from raw material to finished product.

1. Material Selection and Preparation: Choosing the right material—whether metal, composites, or plastics—is critical. The properties of the stock material such as hardness and machinability determine the approach to machining.
2. Programming: Utilizing CAD software and CAM software, the desired part is designed and the corresponding machine instructions are generated in the form of G code. This step is crucial as it lays down the blueprint for the entire machining process.
3. Machining Operation: The actual machining starts with the CNC machine tools (such as CNC mills, lathes, and routers) carrying out the operations. Tools like cutting tools and machine tools work on the raw material to shape it as per the CAD design.
4. Inspection and Quality Assurance: Throughout the machining process, regular inspections are carried out to ensure that the machined parts meet the stringent quality standards necessary for high-volume production. Techniques such as coordinate measuring machines (CMM) and automated visual inspection are used.
5. Post-Processing: After machining, parts often undergo post-processing, which can include treatments like heat treatments, anodizing, or painting to enhance the strength, durability, or aesthetic appeal of the components.
6. Final Inspection and Shipping: The finished parts undergo a final inspection to ensure they meet all specifications. Upon approval, they are packaged and shipped to the next destination in the supply chain.

What Types of CNC Machines are Used in Production?

These machines used for production CNC machining range from CNC mills and lathes to routers and are essential in the high-volume manufacturing environment.

• CNC Mills: These machines are versatile and used for a wide range of milling operations, from drilling to cutting complex shapes.
• CNC Lathes: Used primarily for turning operations, CNC lathes rotate the workpiece against a cutting tool to shape it into symmetrical objects.
• CNC Routers: Similar to mills but typically used for cutting softer materials like wood, plastics, and foams. CNC routers are excellent for intricate designs and fine detailing.
• CNC Machining Centers: These are more advanced than standard mills and often include capabilities for multiple types of machining like drilling, milling, and tapping, often with automatic tool changers.
• Multi-Axis Machines (4-axis and 5-axis CNC Machines): These machines can operate tools from multiple directions and angles, allowing for the production of extremely complex geometries with high precision.
• CNC Grinders: Used for grinding metals and other materials into precise shapes and finishes. These machines provide high accuracy for critical surface finishing.
• CNC Plasma Cutters:  These are used for cutting through electrically conductive materials by means of an accelerated jet of hot plasma, ideal for metal materials.
• CNC Electric Discharge Machines (EDM): Using electrical sparks to mold materials into desired shapes, EDMs are perfect for extremely hard materials that are difficult to machine with traditional techniques.
• CNC Drilling Machines: Specifically designed to drill holes in metals and other materials, CNC drilling machines offer high precision in repetitive tasks.
• CNC Fabrication Machines: These include machines used for bending, punching, or shearing metal sheets, often used in structural metal fabrication.
• CNC Turning Centers: These are advanced versions of CNC lathes equipped with additional features such as live tooling, sub-spindles, and turrets for enhanced functionality.

Low-Volume vs. High-Volume Production Machines

The distinction between machines suited for low-volume versus high-volume production is significant, as each type of production has different requirements in terms of flexibility, speed, and cost-efficiency.

Machines Suitable for Low-Volume Production

For low-volume production, the key is flexibility and the ability to efficiently handle varied designs without extensive downtime for setup changes. Machines typically used in these scenarios include:

• Standard CNC Mills and Lathes: These are versatile and can be quickly reconfigured for new jobs, making them ideal for small batches or custom products.
• CNC Routers: Especially useful for woodworking, sign making, and plastics fabrication, these machines are excellent for jobs that require fine detailing and a high degree of customization.
• 3D Printers (Additive Manufacturing Machines): Increasingly used for low-volume production, these machines can create complex geometries that are otherwise challenging to machine, with minimal waste.

These machines allow manufacturers to experiment with designs and produce complex, customized products without the need for large production runs.

This capability is particularly valuable in industries like aerospace and medical devices, where tailored specifications are often required.

Machines Suitable for High-Volume Production

High-volume production demands efficiency and the ability to produce large quantities of parts quickly while minimizing labor and operational costs. Machines used for high-volume production include:

• Automated CNC Machining Centers: These often feature pallet changers and multi-tool setups to minimize idle times and maximize output without human intervention.
• Multi-Axis CNC Machines: Capable of performing complex operations without repositioning the workpiece, reducing cycle times and increasing throughput.
• Dedicated Production Lines: These involve multiple CNC machines linked together with automated loading and unloading systems, ideal for mass production of standardized products.

What Materials are Suitable for Production CNC Machining?

Here’s a detailed look at the most commonly production machined materials.

Aluminum

Renowned for its lightweight and strength, aluminum is relatively easy to machine and is commonly used in aerospace and automotive applications. Its thermal conductivity allows for efficient heat dissipation during machining.

Stainless Steel

Valued for its strength and corrosion resistance, stainless steel is more challenging to machine than aluminum due to its toughness. This requires specific types of CNC machining tools and techniques, such as using higher cutting forces and specialized cooling methods.

Brass

Often chosen for its low friction properties and aesthetic appeal, brass is easier to machine than stainless steel and is commonly used in decorative and electrical components. Its softness allows for high machining speeds and fine finishes.

Titanium

Known for its high strength-to-weight ratio and corrosion resistance, titanium is extensively used in the aerospace and medical industries. However, it is also one of the more difficult metals to machine, requiring advanced CNC machined parts and cutting tools to handle its toughness and work-hardening properties.

Plastics (e.g., Nylon, Acrylic, PEEK)

Plastics are widely used due to their versatility, resistance to corrosion, and varying degrees of thermal and electrical insulation properties. Each type requires different machining strategies; for example, acrylic is brittle and requires careful handling to prevent cracking, whereas nylon is abrasion-resistant and can be machined at higher speeds.

Composites (e.g., Carbon Fiber Reinforced Plastic)

Composites are prized in high-performance applications for their exceptional strength-to-weight ratios. Machining these materials often involves considerations for preventing delamination and ensuring the integrity of the fibers is maintained throughout the machining process.

What are Unique Material Properties Affecting the Production Machining Process

Each material impacts the machining process differently:

• Hardness and Toughness: Metals like titanium require specific types of CNC machined parts and cutting tools to effectively manage the stress on the tool.
• Thermal Resistance: Materials with high thermal resistance may need specialized cooling techniques during machining to prevent deformation.
• Abrasive Materials: Such as certain composites, can cause increased wear on cutting tools and require frequent replacements.

What Are the Benefits of CNC Production Machining?

CNC (Computer Numerical Control) production machining offers several compelling benefits that significantly enhance manufacturing processes across various industries. These benefits not only improve operational efficiencies but also contribute to better overall profitability and quality.

• Improved Productivity: CNC machines operate at a consistent pace, unaffected by human fatigue, which drastically increases the throughput and speed of production. The automation provided by CNC machining means faster production times and the ability to run the machines continuously over extended periods.
• Minimum Material Wastage: Precision in CNC machining is unmatched. With advanced CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) software, these machines can minimize errors and excess use of materials, effectively reducing waste and cost associated with scrap.
• Reduced Manpower Requirements: Automation in CNC machining reduces the need for a large workforce to manually operate machinery. A few skilled operators can manage multiple CNC machines, decreasing labor costs and minimizing human error.
• Increased Profitability: The culmination of high productivity, reduced waste, and lower labor costs all contribute to higher overall profitability for businesses. Efficient processes mean quicker turnaround times, allowing more jobs to be completed in less time.

How Does CNC Machining Enhance Safety and Efficiency?

 

CNC machining significantly enhances safety in the manufacturing environment by reducing the need for direct human interaction with heavy machinery and sharp tools. Here’s how CNC enhances safety:

• Automated Operations: Most CNC operations are fully automated, which means there’s less physical handling of machinery by operators, reducing the risk of accidents and injuries.
• Precision and Control: CNC machines offer precise control over tool paths, reducing the likelihood of tool collisions, equipment damage, and potential injuries that can occur with manual operations.
• Consistent Quality and Reduced Human Error: With programmed operations, CNC machines consistently produce parts with minimal deviations, which reduces the chances of errors that might compromise safety.

Efficiency Gains

The efficiency of CNC machining is one of its most significant advantages, stemming from several key operational aspects:

• High Speed and Consistency: CNC machines can produce parts at a consistently high speed and run 24/7 with minimal downtime, which is crucial for meeting production deadlines and maintaining workflow efficiency.
• Complex Machining Made Simple: With the ability to perform complex cuts and detailed precision work, CNC machines can handle intricate designs that would be difficult and time-consuming to achieve manually.
• Reduced Setup Times: Modern CNC machines have quicker setup times for new productions, thanks to advanced software that can easily be updated or modified for new tasks.
• Integration with Modern Manufacturing Systems: CNC machines easily integrate with other production systems within a manufacturing environment, such as quality control and inventory systems, streamlining the entire production process from start to finish.

Industries That Benefit from Production CNC Machining

CNC machining has transformed manufacturing across several industries by enhancing efficiency, accuracy, and the ability to produce complex designs with high precision. Here are some key sectors that significantly benefit from CNC machining technologies:

Automotive

In the automotive industry, CNC machining is crucial for producing durable and precise components such as engine blocks, gearbox cases, and suspension parts, which must meet strict tolerance levels.

Aerospace

This sector relies on CNC for manufacturing critical and complex aerostructure components, including airframes and engine mounts, where precision and the strength-to-weight ratio are vital.

Consumer Electronics

CNC machines are used to create components of consumer electronics that require high precision and are often made from advanced materials, including smartphone cases and camera assemblies.

Medical Devices

CNC machining plays a critical role in the medical field for creating custom implants, orthopedic devices, and surgical tools, which require exact specifications for patient compatibility.

Energy Sector

CNC machining is used to produce components for wind turbines, such as blades and gearboxes, as well as parts for solar panel assemblies. The precision of CNC is also crucial for manufacturing components used in nuclear, oil, and gas industries, including pipes, valves, and reactor components

Defense and Military

This sector relies heavily on CNC machining for the production of high-precision and durable components like firearm components, military vehicle parts, and aeronautical components that must meet stringent government and military standards.

Maritime Industry

CNC machines are used to fabricate parts for ships and submarines, including engine components, propellers, and various structural elements that require high resistance to corrosive marine environments.

Transportation and Railways

Components for railway systems, including signaling equipment, engine parts, and communication devices, are manufactured using CNC machines to ensure reliability and safety in rail operations.

Construction and Architecture

CNC machining helps produce structural components, detailed fittings, and decorations made from metal, stone, or composites used in building and architectural designs.

Telecommunications: Precision parts for communication devices, including satellite components and base station modules, are produced using CNC machining to ensure high performance and durability.

Heavy Machinery

CNC machining is essential for manufacturing large-scale machinery components used in agriculture, mining, and construction. These parts often require robust materials and precise specifications.

Jewelry and Luxury Goods

CNC machines are also used to create intricate designs and precise cuts in jewelry making, watches, and other luxury goods, allowing for detailed and complex patterns that are difficult to achieve by hand.

Art and Sculpture

Artists and sculptors use CNC machining to create complex artworks from various materials, such as metals, wood, and plastics, taking advantage of the technology’s ability to replicate intricate designs with high precision

Sports Equipment:

CNC technology is used in the production of sports equipment, such as golf clubs, bicycles, and racing components, where precision and weight considerations are crucial.

Designing for CNC Production Machining

Designing for CNC production machining requires a deep understanding of both the capabilities and limitations of CNC technology. It is essential to consider several key factors to ensure efficient and effective production.

Here are ten essential guidelines for designing parts specifically suited for CNC machining:

• Material Selection: Choose materials that not only meet the strength and durability requirements of the part but are also compatible with CNC machining to optimize the machining process and tool life.
• Tolerancing: Apply appropriate tolerances that balance part functionality with manufacturability. Overly tight tolerances can unnecessarily increase production costs and complexity.
• Geometric Complexity: Simplify designs as much as possible without compromising the part’s integrity. Avoid unnecessary complex features that could complicate the machining process and increase the risk of errors.
• Design for Machinability: Consider the cutting tools’ capabilities, ensuring that features like holes, pockets, and corners can be easily accessed by standard tool sizes.

• Optimize Wall Thickness: Too thin walls can lead to material deformation, while too thick walls may result in excessive use of material and increased machining time.
• Incorporate Standard Hole Sizes: Use standard drill bit sizes to reduce the need for custom tools, which can escalate costs and extend lead times.
• Avoid Deep Cavities: Deep cavities can be challenging to machine and may require special tooling, which increases complexity and cost.
• Use Radii Instead of Sharp Corners: Internal corners should have radii to reduce stress concentrations and accommodate the cutter’s geometry.
• Material Hardness: Hard materials can be challenging to machine and may lead to increased wear on cutting tools. Choosing the right tool material, such as carbide or diamond-coated tools, and optimizing cutting speeds and feeds can help manage this issue.
• Access to Internal Features: Design parts to allow easy access for the cutting tools. Consider splitting a complex part into simpler sub-assemblies that can be easily machined and assembled later.

Optimizing CNC Production for Efficiency

Efficiency in CNC production not only reduces costs but also increases output and improves product quality. Here are some effective strategies to enhance production efficiency in CNC machining:

• Batch Processing: Organizing production into batches minimizes setup times and maximizes machine usage. This approach is particularly effective when producing multiple parts that require similar machining processes.
• Toolpath Optimization: Advanced software can be used to plan the most efficient cutting paths. By minimizing travel time and maximizing cutting efficiency, toolpath optimization reduces machine wear and energy consumption.
• Automated Quality Control: Implementing automated quality control systems, such as sensors and measurement tools, ensures that production standards are met consistently. This automation helps in identifying and correcting errors in real-time, thereby reducing waste and rework.

Quality Control in Production CNC Machining

Quality control (QC) in CNC production is essential to ensure that components meet precise specifications and standards. Here’s a concise overview of the key QC measures in CNC production:

• Design Verification: Before production, the design is analyzed using CAD software to optimize for CNC machining, including checking dimensions and tolerances.
• Material Inspection: Raw materials are inspected for purity and compatibility to prevent machining errors and tool wear.
• Tool Calibration: Regular calibration of CNC machines and tools ensures they operate at optimal performance, maintaining consistency across produced parts.
• In-Process Monitoring: Key parameters like cutting speed and feed rate are monitored. Advanced CNC machines adjust these in real-time to optimize the machining process.
• First Article Inspection (FAI): The first manufactured part is thoroughly inspected to set quality standards for subsequent production.
• Dimensional Inspection: Parts are measured with tools like micrometers and CMMs to ensure they meet the required dimensions, crucial for high-accuracy applications.
• Surface and Finish Quality Checks: Inspections are conducted visually and with surface roughness testers to detect any surface defects.
• Statistical Process Control (SPC): This involves analyzing data from the machining process to identify and correct deviations, ensuring quality consistency.
• Final Inspection and Documentation: Each batch undergoes a final inspection before shipment, accompanied by detailed documentation, including inspection reports and compliance certificates.

Technologies Used in CNC Machining Quality Assurance

To maintain high standards in CNC machining, various sophisticated technologies are employed:

• Coordinate Measuring Machines (CMM): CMMs are used extensively to ensure dimensional accuracy and precision. They provide detailed inspections of geometries and can measure complex and intricate parts with high precision.
• Automated Visual Inspection: This technology uses cameras and image processing software to detect surface defects and dimensional errors. It is fast and effective, especially for high-volume inspections where manual checks would be impractical.

How to Choose a Production CNC Machining Provider?

Selecting the right production CNC machining provider is crucial for ensuring efficiency, precision, and quality in your manufacturing process.

Here are the four main factors to consider:

1. Begin by evaluating the provider’s experience and expertise in handling high-volume production. Look for a company with a proven track record in your specific industry, as this ensures familiarity with the material requirements and design complexities unique to your products.
2. Assess their technological capabilities, including the range of CNC machines they operate and their ability to handle diverse materials and complex geometries. A strong provider will offer advanced multi-axis machines, automated inspection systems, and comprehensive post-processing services.
3. Quality assurance is another critical factor. Ensure the provider follows rigorous quality control measures, including First Article Inspection (FAI) and statistical process control (SPC) to guarantee consistent quality.
4. Finally, consider their customer support structure. A dedicated project manager working within your time zone can streamline communication, ensuring timely project updates and efficient issue resolution.

For those seeking reliable production CNC machining services, 3ERP is a trusted provider known for experienced engineers who excel in DFM optimization, professional project managers working in your time zone, and a commitment to quality through First Article Inspection and consistent output.

Partnering with 3ERP guarantees excellence in every stage of the production process. 3ERP offers 100K+ Mass Production Machining with tolerance as tight as ±0.01 mm.

Conclusion

Production CNC machining delivers high-volume manufacturing with exceptional precision and efficiency. Unlike traditional methods, it focuses on optimizing setups for repetitive production, reducing costs, and enhancing productivity through automation and robust processes.

From material selection to final inspection, this approach ensures consistent quality across large-scale production runs. Production CNC machining is ideal for industries demanding reliable, precise, and efficient mass production.

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在北京时间8月28日，前NBA球员尼克-杨在社交媒体上发表推文，对凯文-加内特和蒂姆-邓肯进行了比较。

尼克-杨写道：“加内特之于邓肯就像科比之于乔丹，人们害怕说出来加内特更强…。”

本教程适用版本：WPS 365 点击免费使用

我们都知道Excel表格可以进行很多办公的功能，那么你知道用Excel表格如何打印分页，自动分页和取消分页吗？如果你还不是非常的清楚，那么这篇文章你可一定要仔细看喽！

我们看到下面这幅图，有4个表格，我希望每张纸上打印一个表格，然后用4张纸打印出来：

>>免费升级到企业版，赠超大存储空间

首先我们在顶部工具栏中点击页面布局，在子菜单中点击分页预览，具体操作如下图所示：

>>免费升级到企业版，赠超大存储空间

这样我们就可以清楚的看到表格分以后的效果图：

>>免费升级到企业版，赠超大存储空间

自动分页的话，我们需要右击鼠标，点开页面设置，然后再顶部我们点击页边距，我们可以看到上下左右都可以自定义设置，之后我们就可以保存自定义设置：

>>免费升级到企业版，赠超大存储空间

如果要取消分页的话，我们也是在页面编辑中，关闭分页预览就OK啦：

>>免费升级到企业版，赠超大存储空间

这个小技巧你学会了吗？