The lean pean is a targeted product of Shenzhen Sunqit Electronics Technology Co., Ltd. A complete and scientific modern production model is the assurance of its quality. For improving performance, while the R&D team completes its design, the quality inspection department will strictly check it from the raw material to the shipment process, not allowing the defective one to enter the market.
SUNQIT products have received a great number of praises from customers at home and abroad. They enjoy an increasing sales volume and a huge market share for their excellent performance and competitive price. A great number of companies see the great potential of the product and many of them make up their decisions to cooperate with us.
Customer-driven customization is conducted through SUNQIT to fulfill the unique needs. With years of experience in the industry, we have cultivated a team of expert willing to serve the customers and tailor lean pean to their needs.
Lean pipes need to be designed with load capacity in mind. Strength can be increased by adding fulcrum, connecting parts and parallel use of double cladding plastic pipes. When designing the structure, make sure that the main load is applied directly to the pipe fittings and not to the connections.
The maximum horizontal distance is every 600mm (according to the specific weight of the design of the specific structure) can be built at will, using block type assembly, must be vertical with the ground column support, and every 1200mm, vertical column should be directly to the ground. In the case of products with casters, the underframe shall be of double rod parallel construction. The horizontal distance is 600mm, and the safety bearing of a single rod and slide is 30kg. A whole plastic covering than by the collet string up a few plastic tube strength is stronger, so in the plastic covering tube selection, the stress rod must be the whole rod, the connecting rod can be segmenting.
When designing a rod product, the usage should be considered in detail. If it does not need to move, try not to design a product with casters. Line bar products are also known as flexible, according to your site conditions and customer requirements, comprehensive design scheme, flexible disassembly and installation, no welding, practical, automotive, electronics, printing, clothing, dust workshop, installation is more health, no pollution.
The width of each column of the sliding shelf (center distance) is the width of the turnover box placed +60mm; The height of each floor is +50mm of the height of the turnover box placed. The determination of the slope Angle of the slide, the general slope Angle of the slide is 5~8 degrees, when placing precision materials, heavy materials and the bottom of the turnover box is smooth, the slope Angle should be smaller.
Line Rod Lean Tube has another name, it is multiple-unit tube. There are 3 materials in industry: wire rod, stainless steel tube, aluminum alloy lean tube. We can also call them, which are the first generation, the second generation, the third generation lean tube in industry. Today I will emphatically introduce everyone about standard of bearing strength of line rod lean tube. It is convenient to everybody has data reference to purchase lean tube and organize bench car finished products.
The standard of the first generation and the second generation lean tube strength data test.
Condition: the first, the two sides of tube should fix and apply a concentrated load at the arrow. The second, tube strength is including internal dimensions of fittings.
Recommend to use: the bending height of the middle part of the material is 5/1000 of the length of the pipe.
Limit load: the load on which the pipe begins to undergo plastic deformation.
When the recommended load is exceeded, please control the load within 80% of the limit load.
When the sliding load of the connector is less than the recommended service load and the limit service load, mark the sliding load of the connection. (Green)
The third generation lean pipe strength data monitoring standard.
Conditions: the first, both ends of the pipe are fixed, and a concentrated load F is applied at the arrow. The second, the length of the pipe shall be the internal size including the connector.
Recommended load: a load whose bending height of the middle part of the pipe is 5/1000 of the length of the pipe.
Limit load: the load on which the lean pipe begins to undergo plastic deformation.
When exceeding the recommended load, please control the load within 80% of the limit load.
When the sliding load of the connector is less than the recommended load and the limit load, the sliding load of the connector shall be marked. (Green)
Who invented the third-generation lean management? Regarding the inventor of the third-generation lean management, I would like to elaborate on the following aspects in the hope of helping everyone!
The origin of lean management:
The concept of lean management was initially proposed by Toyota, originating in the 1990s as a management philosophy derived from the Toyota Production System (TPS). The core of this concept lies in "refinement" and "benefit", which means reducing input and consumption, improving economic efficiency and output quality.
The first generation of lean management:
The initial form of lean management is closely related to the Toyota Production System, emphasizing the achievement of business goals through optimizing production processes, reducing waste, and improving efficiency. However, there is no clear record or documentation regarding the specific inventor or designer of the first generation lean management.
Second generation lean management:
The second generation of lean management applies the concept of lean management to all business processes and systems of the enterprise from the perspective of the entire value chain. This stage of lean management emphasizes comprehensiveness and systematicity, but it also lacks a clear inventor record.
Third generation lean management:
The characteristics of the third generation lean pipe are its aluminum alloy material and a wider variety of accessories. The third generation of lean management is described as "designed in Germany" and is more common in the eastern region. However, this does not mean that Germany is the inventor of the third generation of lean management, but rather that Germany has contributed to the development and application of lean management technology.
The concept of lean management was initially proposed by Toyota, but there is no clear record or information about which specific generation of lean management inventors. Germany may have contributed to the technology and application of third-generation lean management, but this does not mean that Germany is its inventor. The development and evolution of third-generation lean management is a continuous process involving contributions from multiple countries and enterprises.
Lean tube does not contain heavy metal elements, zero pollution, and can be completely recycled. Furthermore, due to the strong anti-corrosion of lean pipe, the surface hardness far exceeds that of stainless steel, its strength is also twice as common as the same wall thickness steel pipe.
In addition to reducing the time and movement necessary to pick and place parts and tools, Lean Tubes can help reduce the risk of injury in the workplace.
The main components of the lean pipe are covered with plastic, and new accessories that can be matched with the original lean rack can be designed to increase the use of different production methods or different work stations according to the needs of different products.
The lean tube is lightweight, and the surface resistance of the lean tube is extremely low, making it an ideal antistatic material.
What are the inspection standards for lean pipe joints? Below, we will share with you that the inspection standards for lean pipe joints mainly include the following aspects:
1. Appearance quality inspection: Ensure that the appearance of the storage joint has no obvious defects, such as cracks, bubbles, burrs, rust spots, dents, etc., to ensure its normal function during installation and use.
2. Material composition analysis: By using spectral analysis, chemical analysis and other methods to detect the chemical composition of the pipe joint material, confirm whether its material meets the design requirements, and ensure that it has the required strength, corrosion resistance, high temperature resistance and other characteristics.
3. Mechanical performance testing: Evaluate the tensile strength, yield strength, hardness, and other mechanical properties of pipe joints to ensure that they will not fracture or deform during use.
4. Pressure performance testing: Evaluate the sealing and strength of pipe joints under pressure, including pressure resistance testing and burst pressure testing, to ensure their safe use in high-pressure pipeline systems.
5. Sealing performance testing: Ensure that the joint and pipeline are effectively sealed after connection to prevent medium leakage.
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