ບ້ານ > ພາກຮຽນ spring ແຮງປ່ຽນແປງ
ອອກແບບ cordless curtains springs
ອອກແບບ cordless curtains springs
There are many types of curtains on the market today, such as Venetian blinds, Roman blinds and honeycomb blinds. When the curtains are lowered, the windows can be shaded to reduce light entering the house and improve privacy. Generally speaking, curtains are provided with control ropes, which can drive the bottom rail of the curtain to rise or fall. In particular, the bottom rail is raised by a roller take-up hanger, and the hanger can be extended from the roller so that the bottom rail can be lowered.        However, the problem that the control cord may restrain children has been noted, so a cordless curtain has been developed. This cordless curtain can raise and lower the bottom rail by means of a coil spring box. Coil spring boxes used in window blinds usually consist of multiple springs that provide torsion to maintain the bottom rail at the desired height. However, the assembly of such a coil spring...
Pull Bead Roller Blinds ແລະ Cordless Roller Blinds
Pull Bead Roller Blinds ແລະ Cordless Roller Blinds
The roller blinds are blackout roller blinds, soft yarn roller blinds, and Shangri-La roller blinds in appearance. They are mainly corded and cordless. Roller shutters have many advantages such as beautiful and simple appearance, firm and durable structure, etc. Roller shutters are suitable for various places, especially for large-area glass curtain walls. When the roller blind fabric is put down, it can soften the indoor light, avoid the trouble of direct sunlight, and achieve a good shading effect. When the roller blind is raised, its volume is very small, so that it is not easy to be detected.        The bead roller blinds use the rope or chain to ascend and descend. The biggest problem of the rope/bead system is that the curtain will not be pulled when it is too big, and the rope will easily break. It is not very convenient to use, and the rope is easy to get dirty. It is very dangerous for...
ພາກຮຽນ spring ແຮງປ່ຽນແປງໃນອຸປະກອນການຈັດສົ່ງຢາ
ພາກຮຽນ spring ແຮງປ່ຽນແປງໃນອຸປະກອນການຈັດສົ່ງຢາ
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)....
ຄໍາຮ້ອງສະຫມັກຂອງພາກຮຽນ spring ພະລັງງານໃນ lock ຄວາມປອດໄພລໍ້ຍູ້ໄຟຟ້າ
ຄໍາຮ້ອງສະຫມັກຂອງພາກຮຽນ spring ພະລັງງານໃນ lock ຄວາມປອດໄພລໍ້ຍູ້ໄຟຟ້າ
One of the biggest benefits of electric wheelchairs is the use of an electric drive that allows users to move freely even without having to push themselves manually or with human power. These wheelchairs are prepared for people in different situations, while allowing more people with inconvenient lives to regain their freedom. The electric wheelchair includes a mobile seat part, a body part used as a seat support, a seat adjustment mechanism arranged under the seat to maintain the balance of the seat part, a underbody part located under the body part, and a crawler walking mechanism.   Electric wheelchair characterized in that the safety locking device is a double-wing safety locking device comprising a housing, a pair of latching members fixed to the wall of the housing by the action of a power spring, two pinions, one of which is configured as a small motor, each latching member having a small tooth edge and a large tooth edge, each of the...
Variable force spring Product
 ພາກຮຽນ spring ພະລັງງານ
ພາກຮຽນ spring ພະລັງງານ
ລັກສະນະ: ພາກຮຽນ spring ພະລັງງານແມ່ນ coiled ດ້ວຍແຖບເຫຼັກ. ປ່ອງພາກຮຽນ spring ແມ່ນຈໍາເປັນເພື່ອຈໍາກັດເສັ້ນຜ່າກາງນອກຂອງມັນ. ສູນກາງຂອງພາກຮຽນ spring ແມ່ນເຊື່ອມຕໍ່ກັບ shaft ໄດ້. ໃນເວລາທີ່ກໍາລັງພາຍນອກຖືກນໍາໃຊ້ເພື່ອເຮັດໃຫ້ shaft ແລະພາກຮຽນ spring rotate ກັບກັນແລະກັນ, ພາກຮຽນ spring ຈະໄດ້ຮັບການບາດແຜຢູ່ໃນ shaft ແລະເກັບຮັກສາໄວ້ Torsion, ເມື່ອຜົນບັງຄັບໃຊ້ພາຍນອກຫາຍໄປ, ພາກຮຽນ spring ສ້າງ torsion ສຸດ shaft ຫຼືປ່ອງພາກຮຽນ spring. ຂໍ້ໄດ້ປຽບ: ປ່ຽງພະລັງງານຖືກແບ່ງອອກເປັນສາຍນ້ໍາພະລັງງານທໍາມະຊາດແລະນ້ໍາພຸພະລັງງານທາງສ່ວນຫນ້າຄວາມກົດດັນຕາມຮູບຮ່າງທີ່ຜ່ອນຄາຍຂອງເຂົາເຈົ້າ. ໃນທາງກົງກັນຂ້າມ, ພາກຮຽນ spring ພະລັງງານປະເພດ pre-force ສາມາດເກັບຮັກສາ 25% ກັບ 55% ແຮງບິດເພີ່ມເຕີມແລະສະຫນອງການຫັນປະສິດທິພາບຫຼາຍ. ລະດັບການຜະລິດຜະລິດຕະພັນ: ຄວາມຫນາແມ່ນ 0.05 ~ 0.85mm, ແລະຄວາມກວ້າງແມ່ນ 2.0 ~ 60mm. ຫຼັກການຂອງ scene: ເຄື່ອງສີດປາກກາທີ່ມີຄວາມແມ່ນຍໍາສູງໃຊ້ພາກຮຽນ spring ພະລັງງານທີ່ເປັນເອກະລັກເພື່ອໃຫ້ປະລິມານຢາຂະຫນາດນ້ອຍແລະຖືກຕ້ອງສູງ. ປະລິມານທີ່ຄົງທີ່ຂອງຢາແມ່ນສັກເຂົ້າໄປໃນຮ່າງກາຍໂດຍຜ່ານຜົນບັງຄັບໃຊ້ຄົງທີ່ຂອງພາກຮຽນ spring ...
 ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່
ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່
ລັກສະນະ: ຜົນບັງຄັບໃຊ້ຄົງທີ່ (ແຮງຄົງທີ່) ພາກຮຽນ spring ແມ່ນມ້ວນດ້ວຍແຖບສະແຕນເລດ. ແຖບເຫຼັກທີ່ມີຄວາມເຂັ້ມແຂງສູງແມ່ນຮູບຮ່າງໂດຍອຸປະກອນພາກຮຽນ spring ການຜະລິດສະເພາະ. ໃນ​ເວ​ລາ​ທີ່​ຜົນ​ບັງ​ຄັບ​ໃຊ້​ພາຍ​ນອກ straightens ໃຫ້​ເຂົາ​ເຈົ້າ​, ພາກ​ຮຽນ spring ຕາມ​ທໍາ​ມະ​ຊາດ​ຈະ​ລົມ​ກັບ​ຄືນ​ໄປ​ບ່ອນ​ແລະ​ຜະ​ລິດ elasticity​, ແຕ່​ວ່າ​ມັນ​ບັນ​ລຸ​ເປົ້າ​ຫມາຍ​ສາ​ມາດ​ກັບ​ຄືນ​ໄປ​ບ່ອນ​ຈຸດ​ເລີ່ມ​ຕົ້ນ​ທີ່​ພວກ​ເຮົາ​ໄດ້​ລະ​ບຸ​ໄວ້​ຫຼັງ​ຈາກ​ທີ່​ໄດ້​ຮັບ​ການ​ປ່ຽນ​. ຂໍ້ໄດ້ປຽບ: ຂໍ້ດີຂອງພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ໃນໄລຍະພາກຮຽນ spring ສາຍແບບດັ້ງເດີມ: 1. ໃນພື້ນທີ່ການຕິດຕັ້ງຂະຫນາດນ້ອຍຫຼາຍ, ຜົນຜະລິດ elastic ສູງຫຼາຍສາມາດບັນລຸໄດ້. 2. ຮັກສາຄວາມຍືດຫຍຸ່ນຄົງທີ່ໃນທຸກໆເສັ້ນເລືອດຕັນ. 3. ເສັ້ນເລືອດຕັນໃນທາງສ່ວນຫນ້າແມ່ນສັ້ນ, ແລະພຽງແຕ່ເສັ້ນເລືອດຕັນໃນສັ້ນແມ່ນຈໍາເປັນເພື່ອບັນລຸຄວາມຍືດຫຍຸ່ນທີ່ຕ້ອງການ. 4. ຄວາມຍາວຕົ້ນສະບັບແມ່ນຫນ້ອຍກ່ວາພາກຮຽນ spring ສາຍ, ແລະເສັ້ນເລືອດຕັນໃນແມ່ນບໍ່ຈໍາກັດ. ລະດັບການຜະລິດຂອງ Dingli Clockwork: ຄວາມຫນາແມ່ນ 0.05 ~ 0.85mm, ແລະຄວາມກວ້າງແມ່ນ 2.0 ~ 60mm. ຫຼັກການຂອງ scene: ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ມີລັກສະນະຂອງການຮັກສາຜົນບັງຄັບໃຊ້ຄົງທີ່ໃນໄລຍະ stroke ຍາວ, ແລະສາມາດບັນລຸ ...
 ບໍລິການອອກແບບການເພີ່ມປະສິດທິພາບ
ບໍລິການອອກແບບການເພີ່ມປະສິດທິພາບ
ຈາກແນວຄວາມຄິດຂອງຜະລິດຕະພັນ, ການອອກແບບເພື່ອການຜະລິດຜະລິດຕະພັນສໍາເລັດຮູບ, ພວກເຮົາສາມາດຊ່ວຍເຫຼືອລູກຄ້າໃນການສໍາເລັດພວກເຂົາ, ແລະຊ່ວຍໃຫ້ລູກຄ້າເພີ່ມປະສິດທິພາບຜະລິດຕະພັນຂອງພວກເຂົາຈາກທັດສະນະຂອງການນໍາໃຊ້ພາກຮຽນ spring, ເລັ່ງການພັດທະນາຜະລິດຕະພັນ, ແລະເລັ່ງເວລາໃນການຕະຫຼາດ. ຈາກຂັ້ນຕອນເບື້ອງຕົ້ນຂອງການອອກແບບອົງປະກອບພາກຮຽນ spring, ການຜະລິດເຖິງການປະກອບສຸດທ້າຍ, ລູກຄ້າເລືອກຂໍ້ດີທີ່ Qianye ສາມາດໄດ້ຮັບ. 1. ປະຫຍັດເວລາໃນການພັດທະນາຜະລິດຕະພັນ 2. ໃຫ້ທ່ານມີຫຼາຍວິທີແກ້ໄຂ, ເລືອກການແກ້ໄຂການເພີ່ມປະສິດທິພາບທີ່ຕ້ອງການ 3. ພາກຮຽນ spring ທີ່ເຫມາະສົມກັບຜະລິດຕະພັນຂອງທ່ານທີ່ດີທີ່ສຸດ 4. ຮັບໃຊ້ທ່ານຕະຫຼອດຊີວິດແລະຕອບສະຫນອງການສະຫນັບສະຫນູນດ້ານວິຊາການໃດໆທີ່ທ່ານມີ.
 ພາກຮຽນ spring ແປງກາກບອນ
ພາກຮຽນ spring ແປງກາກບອນ
ລັກສະນະ: 1. ເນື່ອງຈາກກໍາລັງຄົງທີ່, ບໍ່ວ່າຈະເປັນຄວາມຍາວຂອງແປງກາກບອນແລະ commutator, ຄວາມກົດດັນຍັງຄົງຢູ່ຄືກັນ. 2. ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ຫຼຸດຜ່ອນການສູນເສຍແປງກາກບອນ, prolongs ຊີວິດຂອງແປງກາກບອນ, ແລະຫຼຸດຜ່ອນການສູນເສຍໃນປະຈຸບັນ. ເຖິງ 3. ມໍເຕີຂະຫນາດນ້ອຍສາມາດໄດ້ຮັບການອອກແບບເພື່ອຫຼຸດຜ່ອນເສັ້ນຜ່າກາງນອກຂອງມໍເຕີ. 4. ຄວາມຍາວຂອງແປງກາກບອນສາມາດເພີ່ມຂຶ້ນ. ເຖິງ 5. A commutator ຂະຫນາດໃຫຍ່ສາມາດຖືກນໍາໃຊ້. ເພື່ອ 6. ຫຼຸດຜ່ອນ sparks ແລະຫຼຸດຜ່ອນການແຊກແຊງໄຟຟ້າ. ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ສໍາລັບແປງກາກບອນມ້ວນດຽວ 1. ຄວາມກວ້າງຂອງແປງກາກບອນ 2. ຄວາມສູງຂອງແປງກາກບອນ: ຄວາມກວ້າງຂອງພາກຮຽນ spring ຈະຕ້ອງນ້ອຍກວ່າຄວາມສູງຂອງແປງກາກບອນ 3. ຄວາມຍາວຂອງແປງກາກບອນ abradable: ເສັ້ນເລືອດຕັນໃນພາກຮຽນ spring ຈະຕ້ອງຫຼາຍກ່ວາຄວາມຍາວຂອງ abradable ໄດ້. ແປງກາກບອນ 4. ຄວາມກົດດັນຕິດຕໍ່ທີ່ຕ້ອງການສໍາລັບແປງກາກບອນແລະ commutator: ຕ້ອງການພາກຮຽນ spring force Constant force spring for double-rolled carbon brush 1. Carbon brush width 2. Carbon brush height: The spring width must be ...
 ພາກຮຽນ spring torsion ຄົງທີ່
ພາກຮຽນ spring torsion ຄົງທີ່
ລັກສະນະ: ຄົງທີ່ (ຄົງທີ່) torque ພາກຮຽນ spring (ພາກຮຽນ spring) ແມ່ນເຮັດດ້ວຍສະແຕນເລດ. ຜົນບັງຄັບໃຊ້ພາຍນອກ rewins mainspring ຈາກສະພາບທໍາມະຊາດຂອງມັນໄປສູ່ລໍ້ຜົນຜະລິດ (ການເກັບຮັກສາພະລັງງານ). ເມື່ອຜົນບັງຄັບໃຊ້ພາຍນອກຖືກໂຍກຍ້າຍ, ພາກຮຽນ spring ຈະກັບຄືນສູ່ສະພາບທໍາມະຊາດຂອງມັນ. ໃນເວລາດຽວກັນ, ແຮງບິດຄົງທີ່ (ຜົນບັງຄັບໃຊ້ elastic ທີ່ເກັບຮັກສາໄວ້) ແມ່ນຜະລິດ (ປ່ອຍອອກມາ) ໃນລໍ້ຜົນຜະລິດ, ດັ່ງນັ້ນມັນຖືກເອີ້ນວ່າເຄື່ອງກໍາເນີດແຮງບິດຄົງທີ່. ເສັ້ນດ່າງ. ເປັນຂອງ (ວິທີການນໍາໃຊ້ໃນພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່) ຂໍ້ໄດ້ປຽບ: ຂໍ້ໄດ້ປຽບຂອງພາກຮຽນ spring ແຮງບິດຄົງທີ່ເມື່ອທຽບກັບພະລັງງານ (ເລື່ອນ) springs: 1. ແຮງບິດຈະບໍ່ປ່ຽນແປງເນື່ອງຈາກການເພີ່ມຂຶ້ນຂອງຈໍານວນຂອງການປະຕິວັດ. ເຖິງ 2. ບໍ່ມີຂອບເຂດຈໍາກັດຈໍານວນຂອງການຫັນມີ, ແລະການອອກແບບຂອງ turns ຫຼາຍ turns ສ່ວນໃຫຍ່ adopts ພາກຮຽນ spring ແຮງບິດຄົງທີ່. ເຖິງ 3. ຈໍານວນຂອງການຫມຸນທີ່ບໍ່ຖືກຕ້ອງແມ່ນຂະຫນາດນ້ອຍ, ພະລັງງານຫຼາຍສາມາດເກັບຮັກສາໄດ້, ແລະປະສິດທິພາບສູງກວ່າ. ການຜະລິດລະດັບຂອງພາກຮຽນ spring torque ຄົງ: ຄວາມຫນາແມ່ນ 0.05 ~ 0.85mm, ແລະ width ...
 ບໍລິການຕິດຕັ້ງແລະຕິດຕັ້ງ
ບໍລິການຕິດຕັ້ງແລະຕິດຕັ້ງ
ບໍລິສັດ Qianye ບໍ່ພຽງແຕ່ສະຫນອງການຜະລິດຂອງພາກຮຽນ spring ທີ່ມີຄວາມແມ່ນຍໍາ, ແຕ່ຍັງສຸມໃສ່ການອອກແບບໂຄງສ້າງແລະການແກ້ໄຂທີ່ເປັນປະໂຫຍດຂອງລະບົບພາກຮຽນ spring ທັງຫມົດ, ແລະສາມາດສະຫນອງຊຸດການຜະລິດແລະປະກອບລະບົບທີ່ສົມບູນ.
Variable force spring News
 ຫຼັກການສາກຂອງພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່
ຫຼັກການສາກຂອງພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່

ເວລາ: 2022-9-14

The constant force spring is made of stainless steel strip. The high-strength steel strip is shaped by specific spring production equipment. When it is straightened by external force, the spring will naturally roll back and produce elastic force. However, when our goal is achieved, it can return to the starting point specified by us after displacement. So do you know that constant force springs can be applied to those scenes? Let's have a look!      Constant force spring has the characteristic of maintaining constant force in long stroke. In a very small device space, it can achieve very high elastic output. It can be applied to the nail pushing device of nailing gun for linear pushing. When the fixed force spring is straightened by external force, the spring will naturally retract and produce elastic force. It has the movement functions of balancing or saving force. It can be applied to the height adjustment of computer display and electric fan.      The fixed force spring can achieve extremely high elastic output in a very small device space. Its function can be applied to product applications requiring linear movement such as round-trip, sliding, stretching, homing, balancing or labor-saving, such as automobile cup holder.  Shenzhen Qianye Precision Metal Co., Ltd. was established in 2006 to supply high-quality stainless steel springs for many fields. Through continuous efforts, 19 patent certificates and 4 spring equipment software copyrights have been granted by the State Intellectual Property Office, and an enviable industry influence has been built. The company designs and manufactures a wide range of power springs, constant...
 ຄໍາຮ້ອງສະຫມັກຂອງພາກຮຽນ spring ໃນປະຕູອຸດສາຫະກໍາ
ຄໍາຮ້ອງສະຫມັກຂອງພາກຮຽນ spring ໃນປະຕູອຸດສາຫະກໍາ

ເວລາ: 2022-9-14

The constant force spring of the industrial door mainly plays a balancing role and reduces the burden on the motor. The force of the spring is equivalent to the force of the industrial door, which is the most ideal configuration state. If the spring force is too large or too small, it will affect the operation of the industrial door. In severe cases, safety accidents may occur and endanger others.        Constant force springs are often used to provide balance to products, so what is balance?        Constant force springs are most useful in applications that require consistent recoil. Ordinary springs behave according to a mathematical equation called Hooke's law. Hooke's law states that the force of a recoil spring in the direction of recoil is equal to the distance the spring is displaced from equilibrium. Simply put, we look at how far the spring is stretched - multiplied by a mathematical constant, the rate of the spring. The recoil direction of the spring is opposite to the stretch direction. ,km        Hooke's Law does not affect constant force springs because their recoil remains constant throughout their range of motion. Their unique design consists of a thin, coiled steel strip that rests when fully coiled. Constant force springs are loaded when they are partially or fully deployed. When released, the spring springs back, pulling the extended ribbon back and rolling up properly. Since the recoil force is mainly obtained closest to the take-up roll, a constant force is maintained. A constant force spring can...
 How to get the most out of your device with Variable Force Spring
How to get the most out of your device with Variable Force Spring

Time:2022-11-8

If you're looking for ways to get the most out of your variable force spring, you've come to the right place! We will take you to understand. What is a variable force spring and what are its uses? A variable force spring is a device that allows a user to adjust the amount of force applied to a plunger. This type of spring is often used in medical devices, such as syringes, to ensure a consistent level of force is applied with each use. How do you maximize the performance of your variable force spring? There are a few things you can do to maximize the performance of your variable force spring. First, make sure that the spring is properly aligned with the moving parts it is supposed to be interacting with. Also, make sure that there is no debris or other obstructions in the way. Finally, make sure that the spring is properly lubricated. What are some of the benefits of using a variable force spring? A variable force spring is a great option for many applications because it offers a wide range of forces. This makes it perfect for use in systems that need to be adjustable to accommodate different loads. Additionally, a variable force spring is very reliable and can withstand a great deal of wear and tear.   How can you get the most out of your device with Variable Force Springs? Variable force springs are a great way to customize the feel of your device. There are a few ways that you can get the...
 ຂໍ້ໄດ້ປຽບຂອງພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ Qianye ໃນເຕັກໂນໂລຊີ
ຂໍ້ໄດ້ປຽບຂອງພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ Qianye ໃນເຕັກໂນໂລຊີ

ເວລາ: 2022-9-14

ພາກຮຽນ spring ແມ່ນສ່ວນປະກອບທີ່ໃຊ້ທົ່ວໄປໃນອຸດສາຫະກໍາ. ມັນຖືກນໍາໃຊ້ໃນທຸກປະເພດຂອງຜະລິດຕະພັນ, ຈາກເຮືອບິນແລະເຮືອຮົບກັບໂທລະສັບມືຖືແລະກ້ອງຖ່າຍຮູບ. ເພາະສະນັ້ນ, ການຜະລິດພາກຮຽນ spring ມີປະຫວັດສາດຫຼາຍຮ້ອຍປີ. ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ມີລັກສະນະຂອງການຮັກສາຜົນບັງຄັບໃຊ້ຄົງທີ່ໃນເສັ້ນເລືອດຕັນໃນຍາວ. ຫນ້າທີ່ຂອງມັນສາມາດຖືກນໍາໃຊ້ກັບຄໍາຮ້ອງສະຫມັກຂອງຜະລິດຕະພັນທີ່ຕ້ອງການການເຄື່ອນໄຫວເສັ້ນເຊັ່ນ: ໄປ, ເລື່ອນ, stretching, ບ້ານ, ການດຸ່ນດ່ຽງຫຼືການປະຫຍັດແຮງງານ, ເຊັ່ນ: ປະຕູແລະປ່ອງຢ້ຽມຍົກ, ຈໍສະແດງຜົນຄອມພິວເຕີແລະການປັບລະດັບຄວາມສູງຂອງພັດລົມ, shelf ສະແດງຮ້ານຫຼື motor ແປງກາກບອນ motor. ໃນຕະຫຼາດ, ຜູ້ຜະລິດພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ໂດຍທົ່ວໄປໃຊ້ເຄື່ອງພາກຮຽນ spring ຮອຍທພບແປດ, ເຊິ່ງເອີ້ນວ່າເຄື່ອງຂັດແປດສໍາລັບສັ້ນ. ເຄື່ອງພາກຮຽນ spring claw ແປດໄດ້ຖືກພັດທະນາຢ່າງຕໍ່ເນື່ອງບົນພື້ນຖານຂອງສາມແກນ. ແຂນຂອງຮອຍທພບແປດຕໍາແຫນ່ງຂອງເຄື່ອງຈັກພາກຮຽນ spring ຮອຍທພບແປດສາມາດຫມຸນໄດ້ 360 ອົງສາໃນທິດທາງຂ້າງຫນ້າແລະປີ້ນກັບກັນ. ລໍາດັບການເຮັດວຽກຂອງແຂນໂຄ້ງແມ່ນຖືກກໍານົດໂດຍຮູບຮ່າງຫຼືມຸມຂອງແຜ່ນ cam, ແລະຫຼັງຈາກນັ້ນເຄື່ອງມືຊ່ວຍເຊັ່ນ: ເຄື່ອງວັດແທກເສັ້ນໂຄ້ງ, ເຄື່ອງຕັດມຸມ, ມີດ collision ຫຼື cutter ຖືກນໍາໃຊ້ເພື່ອສໍາເລັດການປຸງແຕ່ງຜະລິດຕະພັນພາກຮຽນ spring. ດ້ານຂອງພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ທີ່ຜະລິດໂດຍເຄື່ອງ claw ແປດຈະ rough, ມູນຄ່າຜົນບັງຄັບໃຊ້ບໍ່ຫມັ້ນຄົງ, ມັນງ່າຍທີ່ຈະພວນວົງ, ແລະຊີວິດການບໍລິການແມ່ນຂ້ອນຂ້າງສັ້ນ. ຢ່າງໃດກໍຕາມ, Qianye ໃຊ້ເຄື່ອງມ້ວນພາກຮຽນ spring. ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ຄົງທີ່ຜະລິດໂດຍເຄື່ອງມ້ວນພາກຮຽນ spring ສາມາດຕອບສະຫນອງຄວາມຕ້ອງການຄວາມເຂັ້ມແຂງໃນພື້ນທີ່ຈໍາກັດ; Qianye ຍັງ​ເພີ່ມ​ຄວາມ​ເຂັ້ມ​ແຂງ​ຈາກ​ສອງ ...
 ການ​ນໍາ​ໃຊ້​ຂອງ​ການ​ປ່ຽນ​ແປງ Force Springs ໃນ​ການ​ສະ​ແດງ​ຂາຍ​ຍ່ອຍ​
ການ​ນໍາ​ໃຊ້​ຂອງ​ການ​ປ່ຽນ​ແປງ Force Springs ໃນ​ການ​ສະ​ແດງ​ຂາຍ​ຍ່ອຍ​

ເວລາ: 2022-9-14

Variable force springs are very common in the point-of-purchase or POP industry, especially in shelf pushers. Variable force springs provide variable force to precisely match increasing or decreasing force requirements, propelling the product horizontally forward. Due to their wide applicability, these springs can be seen in the tobacco, cosmetic, electronics and medical industries. So why use variable force springs in shelf thrusters?       1. Inventory Control        Variable force springs are commonly used in trays that push products forward in a controlled manner. Variable-force springs in the push-in trays aid product fronts, so the shelves are always well-stocked. These trays allow for more organized store inventory and help track inventory needs. This is even more critical in today's COVID-conscious environment.         2. Product Integrity        Variable force springs are designed around the weight of the product they push. This ensures that the product is never slammed or damaged when it is selected. Variable force springs allow most products to be pushed with a consistent force regardless of item weight. At Qianye Precision, we understand the importance of displaying products in high-end retail spaces. We take this into account in every design.         3. Customer Satisfaction Variable force springs make shopping easier for consumers because products are displayed in a more organized and aesthetically pleasing manner. Products include cosmetics, nutraceuticals and pharmaceuticals, beverages, food, and anything suitable for retail display.         In terms of the design of the variable force spring under consideration, because the force...
 ການວິເຄາະກ່ຽວກັບສາເຫດຂອງຄວາມຜິດຂອງແປງກາກບອນຂອງເຄື່ອງກໍາເນີດໄຟຟ້າທີ່ກໍານົດໄວ້
ການວິເຄາະກ່ຽວກັບສາເຫດຂອງຄວາມຜິດຂອງແປງກາກບອນຂອງເຄື່ອງກໍາເນີດໄຟຟ້າທີ່ກໍານົດໄວ້

ເວລາ: 2022-9-15

ໃນຊຸມປີມໍ່ໆມານີ້, ບົດສະຫຼຸບດ້ານຄວາມປອດໄພຫຼາຍໆຄັ້ງໄດ້ລາຍງານຢ່າງຕໍ່ເນື່ອງກ່ຽວກັບອຸປະຕິເຫດການປິດທີ່ເກີດຈາກແປງກາກບອນຫຼືຄວາມລົ້ມເຫຼວຂອງວົງແຫວນລວບລວມ rotor ຂອງຫນ່ວຍງານເຄື່ອງກໍາເນີດຂະຫນາດໃຫຍ່, ເຊິ່ງກໍ່ໃຫ້ເກີດການສູນເສຍທາງດ້ານເສດຖະກິດຢ່າງຫຼວງຫຼາຍຕໍ່ວິສາຫະກິດ. ແປງກາກບອນແມ່ນແປງມໍເຕີ. ການບໍາລຸງຮັກສາທີ່ບໍ່ຖືກຕ້ອງແລະການນໍາໃຊ້ແປງກາກບອນຂອງເຄື່ອງກໍາເນີດໄຟຟ້າທີ່ກໍານົດໄວ້ໃນລະຫວ່າງການປະຕິບັດງານຈະເຮັດໃຫ້ການຫຼຸດຜ່ອນການໂຫຼດອຸບັດຕິເຫດຫຼືແມ້ກະທັ້ງການປິດ. ປັດໄຈທີ່ນໍາໄປສູ່ຄວາມຜິດຂອງແປງກາກບອນ ປັດໃຈແມ່ເຫຼັກໄຟຟ້າ : ເມື່ອມີການປັບປ່ຽນກະແສໄຟຟ້າ ຫຼື ຄວາມຕື່ນເຕັ້ນ, spark ຂອງແປງກາກບອນມີການປ່ຽນແປງຢ່າງຈະແຈ້ງ. ໃນເວລາທີ່ exciter commutates, ການຕິດຕໍ່ລະຫວ່າງແປງກາກບອນແລະ commutator ບໍ່ດີ, ແລະການຕໍ່ຕ້ານການຕິດຕໍ່ແມ່ນຂະຫນາດໃຫຍ່ເກີນໄປ; ຄວາມຫນາບໍ່ສະເຫມີກັນຂອງຮູບເງົາ oxide ຂອງ rectifier ຫຼືວົງ slip ເຮັດໃຫ້ເກີດການແຜ່ກະຈາຍທີ່ບໍ່ສົມດຸນຂອງປະຈຸບັນແປງກາກບອນ ; ຫຼືການປ່ຽນແປງຢ່າງກະທັນຫັນຂອງການໂຫຼດແລະວົງຈອນສັ້ນຢ່າງກະທັນຫັນນໍາໄປສູ່ການກະຈາຍແຮງດັນຜິດປົກກະຕິລະຫວ່າງ commutators ; ການ overload ຂອງຫນ່ວຍງານແລະຄວາມບໍ່ສົມດຸນ; ການເລືອກແປງກາກບອນແມ່ນບໍ່ສົມເຫດສົມຜົນ, ໄລຍະຫ່າງຂອງແປງກາກບອນແມ່ນບໍ່ເທົ່າທຽມກັນ; ບັນຫາຄຸນນະພາບຂອງແປງກາກບອນ, ແລະອື່ນໆ. ປັດໄຈກົນຈັກ: ສູນ commutator ບໍ່ຖືກຕ້ອງ, rotor imbalance ; ການສັ່ນສະເທືອນຂະຫນາດໃຫຍ່ຂອງຫນ່ວຍງານ; bulge insulation ລະຫວ່າງ commutators ຫຼື commutators bulge ; ແປງ ກາກ ບອນ ດ້ານ ການ ສໍາ ພັດ ເຊັ່ນ ບໍ່ ກ້ຽງ, ຫຼື commutator ຜິວ ຫນັງ roughness ທີ່ ເກີດ ຈາກ ການ ພົວ ພັນ ທີ່ ດີ ; ດ້ານ commutator ບໍ່ສະອາດ ; ຊ່ອງຫວ່າງທາງອາກາດພາຍໃຕ້ແຕ່ລະເສົາປີ້ນກັບກັນແມ່ນບໍ່ເທົ່າທຽມກັນ; ຄວາມກົດດັນຂອງພາກຮຽນ spring ກ່ຽວກັບແປງກາກບອນແມ່ນບໍ່ສອດຄ່ອງຫຼືບໍ່ເຫມາະສົມ; ແປງກາກບອນໃນການຈັບແປງເກີນໄປວ່າງແລະເຕັ້ນໄປຫາ, ຫຼືແປງກາກບອນແຫນ້ນເກີນໄປໃນການຈັບແປງຕິດ, ແລະອື່ນໆ ຫຼຸດຜ່ອນການດໍາເນີນງານ ...
 ການອອກແບບຂອງ Constant Force Spring ໃນ Spool Damper
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...
 ການນຳໃຊ້ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ທີ່ປ່ຽນແປງໄດ້ໃນຊັ້ນວາງທີ່ເລື່ອນເວລາ
ການນຳໃຊ້ພາກຮຽນ spring ຜົນບັງຄັບໃຊ້ທີ່ປ່ຽນແປງໄດ້ໃນຊັ້ນວາງທີ່ເລື່ອນເວລາ

ເວລາ: 2022-9-14

Supermarkets and convenience stores can be seen everywhere. Now more and more people are developing retail. Traditionally, products on shelves are usually placed in order. Some merchants install automatic propellers. After customers buy products, the propellers will push The products at the back are automatically advanced, and when the customer wants to find this product, it is easier to see, which is convenient for the customer to find the desired product and stimulates the customer's desire to buy. Theft of small items in retail stores is a problem that occurs. An ideal form of anti-theft is to create time delays between the dispensing of multiple products. If there is a considerable delay between the distribution of individual products, thieves are less likely to steal the products.        A shelf-delayed pusher equipped with variable force springs can eliminate this problem. The propulsion system includes a pusher, a track and a stop mechanism. The propulsion system includes a resistance mechanism connected to the track and the pusher, and controls the forward movement of the pusher along the track, thereby controlling the speed at which the product is propelled for retrieval by the consumer. When engaged, the stop mechanism prevents the pusher from advancing the product, and the indexing mechanism also limits the forward travel of the pusher to a discrete distance.        The variable force spring can expand the negative gradient and the positive gradient into a spring. It breaks through the influence of the traditional spring affected by Hooke's law, so that the stroke and force are...