Torsion spiral ພາກຮຽນ spring

Qianye Spring ເປັນຜູ້ປະກອບສ່ວນທີ່ດີທີ່ສຸດໃນການສູບຢາສູບ

ເວລາ: 2022-9-14

The cigarette pusher is tailor-made for convenience store cigarette cabinets. Its patented innovative design thinking not only breaks the shortage of traditional cigarette racks, but also solves the pain point of cigarette display and display at one time, and also conforms to the trend of the times of innovation. The use of the cigarette pusher enriches the cigarette display scene, improves the cigarette display scene, makes the display of different cigarettes beautiful, and enriches the cigarette display effect. The one-piece molding process reduces manual assembly costs and improves production efficiency. It is used together with display cabinets, shelves and cigarette cabinets to improve the display effect of related display props, greatly improving the space efficiency and labor efficiency of commodity placement. It can improve the display effect of cigarettes, save the cost of manual tally, improve the efficiency of tally, and do not need to manually replenish and tally the goods repeatedly. It can improve the buyer's consumption experience and visual impact, thereby increasing the sales amount of the store and increasing the turnover. The cigarette pusher is a new type of pusher that innovates the traditional cigarette placement and has an automatic stretch device. This pusher must be equipped with a telescopic spring-type device. After each pack of cigarettes is taken, the spring will push the remaining cigarettes. Cigarettes are automatically pushed forward. The propelling device in the cigarette pusher uses a variable force spring. Variable force springs and variable torsion springs can break through the influence of traditional springs by Hooke's law, so that the stroke and force are no...

ການອອກແບບຄໍາຮ້ອງສະຫມັກຂອງພາກຮຽນ spring torsion ຄົງທີ່ໃນຮັງລົດຖີບ

ເວລາ: 2022-9-14

 ຮັງລົດຖີບແມ່ນອຸປະກອນຍົກອັດຕະໂນມັດສໍາລັບລົດຖີບ, ເຊິ່ງຖືກວາງຢູ່ເທິງເພດານຂອງຫ້ອງແລະສາມາດຍົກໄດ້ຢ່າງຫມັ້ນຄົງແລະເກັບຮັກສາໄວ້ເທິງຫລັງຄາ. ມັນ​ສາ​ມາດ​ຮອງ​ຮັບ​ລົດ​ຖີບ​ໄດ້​ຢ່າງ​ປອດ​ໄພ, ບໍ່​ວ່າ​ຮູບ​ຮ່າງ​ຫຼື​ຂະ​ຫນາດ​ຂອງ​ມັນ. ວິທີການເກັບຮັກສາແມ່ນງ່າຍດາຍ. ຖ້າ​ເຈົ້າ​ຕ້ອງ​ຂຶ້ນ​ລົດ​ຖີບ, ຄ່ອຍໆ​ດຶງ​ເຊືອກ​ທີ່​ວ່າງ, ຍູ້​ລົດ​ຖີບ​ລົງ ແລະ​ລົດ​ຖີບ​ຈະ​ຖືກ​ຍົກ. ຖ້າ​ເຈົ້າ​ຢາກ​ເອົາ​ລົດ​ຖີບ​ອອກ, ເຈົ້າ​ພຽງ​ແຕ່​ດຶງ​ລົດ​ຖີບ​ຂອງ​ເຈົ້າ​ຄ່ອຍໆ​ລົງ ແລະ​ໃຫ້​ລົດ​ຖີບ​ລົງ​ພື້ນ. ຊັ້ນວາງລົດຖີບນີ້ຖືກອອກແບບເພື່ອໃຫ້ທ່ານສາມາດວາງລົດຖີບຂອງທ່ານໄດ້ຢ່າງງ່າຍດາຍ, ແລະທ່ານສາມາດເກັບຮັກສາລົດຖີບຂອງທ່ານໄດ້ເກືອບທຸກບ່ອນ. ມັນຂະຫຍາຍພື້ນທີ່ເກັບມ້ຽນຂອງລົດຖີບໄດ້ສູງສຸດ. ສິ່ງທີ່ເຮັດໃຫ້ຫນ່ວຍງານນີ້ເປັນເອກະລັກແມ່ນກົນໄກພາກຮຽນ spring ເປັນເອກະລັກຂອງມັນ. ທ່ານບໍ່ຕ້ອງການພະລັງງານຫຼື pulleys ໄດ້ຢ່າງງ່າຍດາຍຍົກລົດຖີບສໍາລັບທ່ານ, ພຽງແຕ່ຄໍາແນະນໍານິ້ວມືຂອງທ່ານ. ກົນໄກຂອງພາກຮຽນ spring ເປັນເອກະລັກແມ່ນເຫດຜົນສໍາຄັນທີ່ຮັງລົດຖີບຍ້າຍລົດຖີບຂຶ້ນແລະລົງ, ເຮັດໃຫ້ພາກຮຽນ spring ນີ້ທ້າທາຍທີ່ຈະເຮັດ. ມີຂໍ້ກໍານົດທີ່ເຄັ່ງຄັດກ່ຽວກັບຄວາມຍາວແລະຄວາມຫມັ້ນຄົງຂອງພາກຮຽນ spring, ແລະພາກຮຽນ spring ທີ່ບໍ່ຕອບສະຫນອງມາດຕະຖານແມ່ນບໍ່ມີເງື່ອນໄຂ. ຮັງລົດຖີບແມ່ນຕິດກັບເພດານຂອງທ່ານດ້ວຍສອງປະຕູແລະໃຊ້ກົນໄກຂອງພາກຮຽນ spring ເພື່ອຍົກລົດຖີບຂອງທ່ານ. ຄືກັນກັບຊຸດຜ້າມ່ານທີ່ເຮັດວຽກໄດ້, ການດຶງສາຍເຄເບີ້ນທີ່ອ່ອນໂຍນຈະເຮັດໃຫ້ລົດຖີບຂອງເຈົ້າລົງມາເທິງພື້ນ. ເຈົ້າຍັງສາມາດຈອດລົດຖີບຢູ່ບ່ອນໃດກໍໄດ້ໃນຂະນະທີ່ລົດລົງ, ຊຶ່ງໝາຍຄວາມວ່າ ຮັງລົດຖີບຍັງສອງເທົ່າເປັນບ່ອນເຮັດວຽກເບົາ. ຄວາມໜາທີ່ສອດຄ້ອງກັນຈະຕ້ອງ...

ການ​ນໍາ​ໃຊ້​ພາກ​ຮຽນ spring ພະ​ລັງ​ງານ​ຢູ່​ໃນ​ຊ່ອງ luggage ຂອງ​ເຮືອ​ບິນ​

ເວລາ: 2022-9-14

Luggage compartments in the aircraft cabin are usually located above the heads of seated passengers. To ensure optimum headroom between luggage compartments on the one hand, and to facilitate loading on the other hand, aircraft luggage racks can be lowered from shell luggage compartments or trays in certain applications. When lowered, the front of the luggage compartment opens for loading. A luggage compartment with a lowered housing for an aircraft, wherein the lowered housing is connected to a pulley attached to a support structure of the aircraft by a cable. In order to lower the shell, when the rope lifts the shell on the pulley, the rope is released from the pulley, in which the pulley is biased by the force of the power spring along the rotation direction of the rope wound on the pulley. The power assistance for the pivoting of the luggage cover is realized as a spring device. This solution can achieve low maintenance and wear-free equipment in every case.   The natural tendency to expand of the power spring imparts a moment to the arbor or case, resulting in usable torque. The torque produced is cumulative, so the torque increases as the spring is tightened and decreases as the spring is loosened. Power springs that can be assembled into the customer's housing for immediate assembly, or a retaining ring is provided for transferring the spring into the customer's housing. Power spring torque and total turns are the most important output requirements in power spring design. The performance of a power spring depends on the size of the spring material (thickness, width and length) and available space (housing and mandrel...

ພາກຮຽນ spring ແຮງປ່ຽນແປງໃນອຸປະກອນການຈັດສົ່ງຢາ

ເວລາ: 2022-9-14

Devices for automatically delivering drugs, such as automatic syringes, are known as convenient and safe means of protection for patients to manage different drugs themselves. For safety reasons, many devices for delivering drugs include covers and other devices that protect users before and after use, such as injection needles. Different devices for transporting drugs are different in their overall design settings. They all have a mechanism for automatically transferring the contents of pre filled and pre filled containers, and there is no need to manually force the contents of the containers into the patient through the transmission components, namely needles and nozzles. Automatic delivery mechanisms in devices used to deliver drugs usually include compression coil springs. The challenge in the design of such springs is to balance the need for sufficient force at the end of the stroke and the need for less force during storage that will overload other parts of the device (when the spring is fully compressed).   The problems caused by conventional coil springs in drug delivery devices can be overcome by variable force springs. A novel device for delivering drugs, which includes an elastic member (60), a driving mechanism (50), a holding mechanism (40) and a starting mechanism, the driving mechanism has one end connected to a stop and a second end operably connected to the elastic member, the holding mechanism is used to loosely hold the driving mechanism in the first position, where in the elastic member has accumulated energy, The starting mechanism is operably connected to the holding mechanism for releasing the driving mechanism...

ພາກຮຽນ spring ພະລັງງານປະດິດສ້າງ Qianye ມີບົດບາດສໍາຄັນໃນ Hose Reel

ເວລາ: 2022-9-14

Hose Reel is also called pipe winder, Winder, reel, drum and air drum. Among many working equipment, the pipe winder is a very labor-saving and convenient long-distance energy transmission device. Its basic structure consists of hose, power spring, rotating shaft and other safety mechanisms.         The power spring of the hose reel can stretch and shrink the pipeline, intensively manage various energy pipelines, and change the previous phenomenon that the pipeline, power plug, oxyacetylene pipeline, bulb, spray gun and other tools are scattered in disorder. It can be used alone or in combination, which greatly saves the factory space, beautifies the working environment and improves the grade of the enterprise. Improve the working environment. The power spring is made of rolled steel strip. A spring box is required to limit its outer diameter in use. The center of the spring is connected with the shaft. When an external force is applied to make the shaft rotate relative to the spring, the spring will roll on the shaft center and store torque. When the external force disappears, the spring will produce torque on the shaft or spring box. The tension on the spring has been pre loaded at the factory, and the spring produced by an improperly selected manufacturer may become unstressed or have excessive tension. Too much tension will lead to too fast and fierce retraction. At the same time, the service life will be relatively short, and the elasticity will soon fail.         Our company has made technical product updates for power springs. First of all, our company adopts 301 stainless steel with...

ການອອກແບບຂອງ Constant Force Spring ໃນ Spool Damper

ເວລາ: 2022-9-14

 When powered by a damped constant force spring mounted on the spool, there are several key principles that influence the design of linear motion applications. These principles support robust and consistent performance of products in a variety of applications, including automotive and aircraft interiors, industrial machine components, and many other user interface applications. The example components shown above will be cited as examples of the various design principles detailed below. This example assembly has a sliding drawer (shown in red) powered by a constant force spring mounted on a spool (spool in green; constant force spring shown in yellow) running within a mounting base (shown in grey), such as a central Console a car. A ratchet or door latch mechanism (not shown) can be implemented to allow the tray to be locked in place with a single press by the user. This example is a typical set of applications used in the automotive industry.        1. Preload spring        When a constant force spring is in its free state, it does not exert any force. As the spring stretches, the spring force rapidly increases from zero to nominal load. However, to avoid including this "accelerated" part of the work envelope, the design can use preloading. An example of preloading is shown in the figure below. Note that although the mechanism is retracted, the depicted spring is extended.        To include preload in the design, ensure that the spring extends a distance equal to the outer diameter of the coil during assembly in order to engage...

passivation ແມ່ນຫຍັງ? ຜະລິດຕະພັນຂອງຂ້ອຍຕ້ອງການມັນບໍ?

ເວລາ: 2022-9-14

 "My new stainless steel product specification requires' passivation '. Do I need it?" Our answer is that you may not. That's why. Passivation is the process of protecting stainless steel from corrosion by adding an oxide layer on its outer surface. Although some stainless steel product specifications require passivation to reduce corrosion risk, most of them are unnecessary and expensive, and may damage some metal products, including flat bar springs, such as constant force, variable force and constant torque springs, all of which are uncommon products manufactured by Qianye precision.     The reason passivation is not a good idea for flat bar springs is because passivation involves the use of acids and harsh chemicals to initially clean the metal as part of the process. The geometry of these spring types means that many small cracks can form between the coil layers. The acid used in passivation can become trapped in these crevices. This resulted in longer-than-expected exposure of the stainless steel, which in turn resulted in hydrogen embrittlement and eventual spring failure. Additionally, mechanically exposing all surfaces of the spring to acid can damage the spring, resulting in changes in force/torque output or defects. There are better, simpler, cheaper ways to avoid any need for corrosion and passivation of stainless steel components, and it's as simple as choosing a fussy material. Remember that the risk of corrosion of any stainless steel component is driven by the environment (such as the presence of water and other chemicals) and Qianye Precision typically uses high quality 301 stainless steel for our springs....

ວິທີການເຮັດໃຫ້ພາກຮຽນ spring ແຮງຄົງທີ່ຜະລິດຜົນບັງຄັບໃຊ້ຫຼາຍ

ເວລາ: 2022-9-15

A common way to install a constant force spring is to use two or more springs to obtain greater force in a narrow space. This may be necessary if the diameter or width of a single spring exceeds the allocated space, but there is room to add multiple smaller springs. When engaging multiple springs, a much smaller spring design can be used. The total force is the sum of the spring forces.       When combining springs, it is recommended to use the same spring for multiple installation. Compared with using two or more completely different springs to realize the load, this method is more economical and the design will be simpler. Since the force is the sum of the springs, the total force required should be evenly distributed between the number of springs used. We will discuss three different mounting methods for use with multiple springs.         1、 Back to back method The back-to-back method uses two springs that expand in opposite directions and produce a very stable extension. The distance between the springs should be far enough to allow the spring material to bend naturally so that the component will not bind when retracted.         2、 Series method When two or more springs are used, it is also a very common practice to install springs in series. Although this method does not have the stability of the back-to-back method, space availability usually determines the use of this design. 3、 Laminar flow method Laminating springs together is the third option in this series. The term...