Fivetech new SSD M.2 board latch is introduced to make the solid-state hard drive M.2 card lock more modern. The assembly design can be divided into: Screw in, Snap in, SMT, Snap in QT

Fivetech new product-SSD M.2 board latch modernizes SSD hard drive components; it replaces the original standard fixing screw lock. The new M.2 board latch provides greater modular flexibility for card connectors and can be used for advanced Interface function device. Fivetech M.2 board latch design mainly emphasizes easy to assemble to ensure the modular assembly state of M.2 cards, and extends the storage function of M.2 SSD card connector to various server storage devices. M.2 board latch are specifically designed for M.2 with different module widths and lengths. Fivetech M.2 board latch have been designed as a new and advanced version of existing assembly methods. Because the M.2 standard allows for double-sided component filling, the new SSD M.2 board latch can also be used for flip-side assembly of double-sided SSD hard drives.

Fivetech new SSD M.2 board latch has an automatic elastic rebound structure, and it only needs to press the M.2 card for one second to complete the assembly. The M.2 board lock has a quick release function. You can easily release the M.2 card just by gently moving it laterally to push open the blue plastic card lock end. The M.2 board lock has a vertical blocking structure. In addition to the lock speed being processed in seconds, it also has the function of preventing falling off and blocking the structure, providing stability and reliability. The vertical blocking structure also prevents plastic friction problems. Fivetech M.2 board latch saves time and effort, and its high reliability makes it user-friendly. The new SSD M.2 board latch represents high-quality fastener design functionality, which can improve assembly efficiency and increase the value of server storage equipment products. One finger can move the blue plastic card lock end to quickly release the card or double-sided card can be flipped and assembled at will. Press the M.2 card once to lock the M.2 card in seconds. Vertical blocking structure, completely reliable against falling off. Instinctual design, user friendly. The modularized pop-up structure design switch can save effort in seconds, and the new board lock configuration is easy to pop and eject. Can withstand rapid repeated extraction and buckle, elastic buckle seconds lock. Modular process assembly, assembly design can be divided into: Screw in, Snap in, SMT, Snap in QT types. Plastic card lock can be enterprise color management.

Fivetech's new SSD M.2 board latch is specifically designed for M.2 with different module widths and lengths.

M.2 has flexible physical specifications, allowing a wider variety of module widths and lengths to match more advanced interfaces. The M.2 standard is designed to maximize PCB space and minimize module space. As a result of its design, the M.2 standard allows longer modules and double-sided component groups. The M.2 module has a rectangular shape with an edge connector on one side and a semi-circular mounting fixing hole in the center of the other side. The circuit board on the host is usually designed to accept M.2 modules of various lengths. The M.2 connector on the host may be filled with one or more matching bayonets, depending on the type of module that the host can accept; Lengths 16, 26, 30, 38, 42, 60, 80 and 110 mm. The M.2 standard allows module widths of 12, 16, 22 and 30 mm. The M.2 module is installed on the matching connector provided by the host circuit board. At this time, the new SSD M.2 board latch from Fivetech can be used to fix the module to the specified position. The new SSD M.2 board latch assembly may be installed on any side of the module. The actual module type limits the maximum thickness of the module that can be installed; for instance the maximum allowed thickness of the module is 1.5 mm on each side. There are a variety of M.2 module host-side connectors for one or two sides, providing different amounts of space depending on the M.2 expansion card and the host PCB.

Fivetech 新式 SSD M.2板锁推出使固态硬碟M.2卡式锁扣更现代化, 组装设计可分成: Screw in, Snap in, SMT, Snap in QT

Fivetech新式产品-SSD M.2板锁使SSD硬盘组件现代化；它替代了原标准固定螺丝上锁，新式M.2板锁为卡连接器提供了更大的模组化灵活性，可用于高级接口功能设备。 Fivetech M.2板锁设计主要强调用于易于组装，以确保M.2卡片的模组化组装状态，并将M.2 SSD卡连接器存储延伸到各项伺服器储存设备。 M.2板锁专门设计用于具有不同模块宽度和长度的M.2。 Fivetech M.2板锁已被设计为对现有组装方法的新式进阶版本。由于M.2标准允许双面组件填充，因此新式 SSD M.2板锁还可双面SSD硬盘翻转组装方法。

Fivetech新式 SSD M.2板锁具有自动弹力反弹结构, 仅需按下M.2卡一秒钟即可完成组装。 M.2板锁具有快速释放功能，只需轻轻横向移动推开蓝色塑料卡锁端，即可轻松释放M.2卡。 M.2 板锁具备垂直阻塞结构，除了扣锁速度已秒速处理外，还具备防脱落阻掉结构功能, 提供了稳定度可靠性。垂直阻塞结构亦可防止塑料摩擦问题。 Fivetech M.2 板锁省时省力，高度可靠性让使用者适用友好度。新式 SSD M.2板锁代表了高质量扣件设计机能性，可提高组装效率并提高伺服器储存设备产品价值。一指移动蓝色塑料卡锁端即可快速进行卡片释放或双面卡片任意翻转组装。一次按压M.2卡即可秒速扣锁M.2卡。垂直阻塞结构，完全可靠防脱落阻掉。本能设计，人性化使用友好。模组化弹出结构设计开关可秒速省力作用，新式板锁配置易于弹出和顶开。可承受快速重复抽拔与扣锁，弹力卡扣秒锁。模组化工序组装，组装设计可分成: Screw in, Snap in, SMT, Snap QT types. 塑料卡锁可企业颜色管理。

Fivetech新式 SSD M.2板锁专门设计用于具有不同模块宽度和长度的M.2。

具有灵活的物理规范，允许更多种类的模组宽度与长度，并与更进阶的介面相配。 M.2标准的设计旨在最大化利用PCB空间并最小化模组空间。作为其设计结果，M.2标准允许更长的模组和双面组件群。 M.2模组的外形是长方形，在一侧有一个边缘连接器，并在另一侧边的中心有一个半圆形安装固定孔。主机上的电路板通常被设计为能接受多种长度的M.2模组，主机上的M.2连接器可能填充一个或多个匹配的卡口，这取决于主机可接受的模组类型；长度16、26、30、38、42、60、80和110毫米。 M.2标准允许模组宽度为12、16、22和30毫米。 M.2模组是被安装到主机电路板提供的匹配的连接器，此时可使用Fivetech新式 SSD M.2板锁固定模组到指定位置。新式 SSD M.2板锁组件可能被安装在模组的任意侧面，实际的模组类型限定了可以安装的组件最大厚度；例允许的组件最大厚度是每侧1.5毫米。有多种用于单侧或双侧的M.2模组主机端连接器，根据M.2扩充卡和主机PCB的情况提供不同的空间量。

Fivetech铰链顶出器- Hinge自动旋转弹出器, 用于弹出伺服机箱内子卡与母卡之间连接, 以置从机箱中拉出子卡匣. 闸门式设计依照蓝色手柄向左向右压的标记箭头快速开关.杠杆结构手柄可承受提拉重物, 强壮结构可双手平衡快速地重复抽拔开关

Hinge自动旋转弹出器,闸门式双把手设计手握方便. 按下蓝色塑料拨片开关以触发锁定以解锁弹出器.蓝色开关手柄向左向右箭头标记手指按压方向, 按下两边左右开关即可简易利用自动旋转式弹出器轻松平衡地双手将子卡匣拉出以脱离主机母卡. 依照蓝色手柄上向左向右压的标记箭头方向, 按下蓝色手柄触点即可释放侧边自动旋转弹出器锁头所具备的锁定功能, 释放内部自动旋转轮小工具以弹开连接解锁, 以脱离子母卡间的连接. 归位回锁时, 为了通过缩回弹出器使其返回原始定位位置，该锁头被设计为可自动旋转返回其起始位置, 弹簧自动回弹归位回锁。返回铰链顶出器时，塑料拨片可以自动收回以锁定其原始位置.

弹出器杠杆结构设计开关可省力作用, 杠杆配置易于弹出和顶开.手柄强壮结构可承受提拉重物, 快速重复抽拔与开关, 弹力卡扣明确快速. 模组化设计, 工序组装方便,整组也可客制化, 可企业颜色管理.

Fivetech Hinge Ejector-Hinge Auto Rotary Ejector, used to eject the connection between the sub card and the host card in the servo chassis, so as to pull the sub card cassette out of the chassis. The gate-type design follows the blue handle to the left and right arrow quick switch. Lever structure handle can withstand heavy lifting, strong structure can be balanced with both hands to quickly and repeatedly pull

Hinge Ejector hinge auto rotates ejector. The gate-type left and right both handles design is convenient to hand hold. Press the blue plastic paddle switch to trigger the lock to unlock the ejector. The blue switch handle left and right arrows mark the finger pressing direction, press the left and right switches on both sides. You can simply use the automatic rotary ejector to easily and evenly pull out the sub card tray with both hands to release it from the host card. Follow the direction of the marked left right arrow on the blue handle, and press the blue handle contact. Release the locking function of the side auto-rotating ejector lock, release the internal auto-rotating wheel gadget to unlock the connection by releasing the connection, and disengage the connection between the sub and host card. When returning to the starting position, in order to use the retractor to retract It returns to the original positioning position. The lock head is designed to be automatically rotated back to its starting position, and the spring auto rebounds to return to its starting position. When returning to the hinge ejector, the plastic pick can be auto retracted to lock its original position.

The lever structure design of the ejector can save effort, and the lever configuration is easy to pop up and open. The strong structure of the handle can withstand heavy lifting, fast repetitive extraction and switching, and the elastic buckle is clear and fast. Modular design, easy process assembly.  The entire kit can also be customized, and enterprise color management can be performed.

Fivetech indicative design AUTO LOCK QT built-in Torsion Spring can auto spring back to unlock the lock function, strong torsion spring springs back to lock, understand the internal server storage system of servo storage equipment-the best key fastener solution for cooling fans

The handling of server heat dissipation issues plays an important role in the design scope of the server system. Know that the internal cooling fans of the servo storage equipment system are placed in the chassis. When the server is being designed, the fans can be quickly disassembled, inserted, and accurately Installation positioning is an important issue to be considered during design, otherwise the inconvenience and failure rate will seriously affect the overall supply and demand situation of the data center operation.

The server cooling fan is arranged in the chassis. The use of the built-in Torsion Spring in the AUTO LOCK QT automatically rebounds and unlocks the lock function is an indicator design of Fivetech. We can measure the size and performance of the fan as a partial AUTO LOCK at the buckle. The lock is specially designed. When unlocking, it only needs to rotate 4/1 turns to unlock. When returning to the positioning of the fan box, also twist the AUTO LOCK buckle, and the torsion spring will spring back and lock automatically. 

With the increasing integration of server storage equipment, the fans used in the server CPU, chassis, graphics card, and power supply are the defenders of the normal and stable operation of the server. Therefore, the design of the cooling fan fastener of the server is a key requirement condition. Because the frequency of server fan extraction and removal is usually high, whether the fan can be disassembled effectively is one of the prerequisites for the stable operation of the server. 

In order to ensure the uninterrupted work of the server, the good fan cooling system in the chassis is not damaged by the failure of one or several fans, and the entire group of chassis normal operation. The server fans can use Auto Lock QT fasteners, which can be replaced at any time. Failed fan. Ensure that when the working fan is damaged, replace the new cooling fan immediately to continue the servo storage work. Or when the system works normally, the main fan works and the backup fan does not work. When the main fan fails or the speed is lower than the specified speed, it will automatically start Spare fan. The backup fan is usually in a stalled state, and it is guaranteed to take over service immediately when the working fan is damaged, and it will not cause shutdown due to system fan damage.