Produktbeskrivelse
Agricultural Tractor 540 Cardan Drive Wide Angle PTO Shaft with CE Certification Slip Cutch Yoke Tube Universal U joint For Farm Machines
Produktbeskrivelse
| Modelnummer | 05(Push Pin)+RA2(Overrunning Clutch) |
| Fungere | Kraftoverførsel |
| Bruge | Traktorer og diverse landbrugsredskaber |
| Ågtype | trykknap/hurtigudløser/kuglebeslag/krave/dobbelt trykknap/bolte/splitstifter |
| Bearbejdning af åg | Smedning |
| Rørtype | Trekantet/stjerne/citron |
| Spline-type | Spline-type |
|
Materlal and Surface Treatment |
|
|
Cross shaft |
Heat treatment of 20Cr2Ni4A forging |
|
Bearing cup |
20CrMOTi forging heat treatment |
|
Flange fork |
ZG35CrMo, steel casting |
|
Spline shaft |
42GrMo forging heat treatment |
|
Spline bushing |
35CrM0 forging heat treatment |
|
Sleeve body |
42CrMo forging |
|
Surface treatment: |
spraying |
|
Flat key, positioning ring |
42GrMo forging |
The above are standard models and materials.
If you have special supporting requirements, you can customize production according to customer needs.
Please click here to consult us!
Technological Process
Workblank Cuttinh>Workblank Preparation>Forging Preparation>Turn-milling Machining>Drill Earhole>Boring Earhole>Spline Broaching>Grove Milling>Cutting>Pressure Pipe>Drill Pin>Burring>U J Assembly>Driving Shaft assembly >-Painting & Marking> Plastic Shield Assembly>Packing> Loading> Deliverying
Firmaprofil
We is located in HangZhou City, HangZhou, near the first tier cities of HangZhou and ZheJiang . Convenient transportation and beautiful environment.
We are committed to the production and research and development of PTO, agricultural machinery transmission shafts, and all supporting accessories. Currently, we have established long-term and close cooperation with countries in Europe (Italy, Germany, France, Ukraine, etc.), America (United States, Mexico, Brazil, Chile, etc.), Russia, Southeast Asia (Thailand, Malaysia, Indonesia, etc.), Oceania (New Zealand, Australia, etc.), and other countries in the foreign market, The domestic market mainly focuses on the matching of agricultural machinery, and vigorously explores the development of agricultural machinery in the ZheJiang market. At present, the factory covers an area of over 20 acres of farmland and has over 100 long-term employees (including 7 engineers). The company already has ISO, CE and other certificates.
Factory workshop
Lathe equipment
Test equipment
Package
Certificeringer
Relaterede produkter
1.Supply agricultural machinery transmission shaft series from 1 to 8, and various supporting components.
U joint, Tube, Safty Shield, Yokes, Torque Limited, Wide Angle Joint, Free Wheel ect Universal joint, shaft, dust cover, fork, torque
Limiter, wide-angle fork, overrunning clutch…
2.Supply all kinds of Plastic Guard
Offer Different Color of Safety Shield Including the Tubes Inside. Safty Shied Types and Colors According to Your Requirements
3.PTO Booklet,CE Sign,Notations and Sticker
4.We also have all products related to agricultural machinery in Hong Kong, including agricultural gearboxes used in conjunction with PTO shafts
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| Type: | Pto Shaft |
|---|---|
| Anvendelse: | Forarbejdning af landbrugsprodukter, landbrugsinfrastruktur, jordbearbejdning, høst, plantning og gødskning, korntærskning, rengøring og tørring |
| Materiale: | Kulstofstål |
| Strømkilde: | Electricity |
| Vægt: | 5lbs |
| Eftersalgsservice: | 5 Years |
Hvordan sikrer producenterne kompatibiliteten af PTO-aksler med forskelligt udstyr?
Producenter af PTO-kardanaksler (Power Take-Off) anvender forskellige strategier og overvejelser for at sikre kompatibiliteten af deres produkter med forskellige typer udstyr. Disse foranstaltninger implementeres under design-, fremstillings- og testfaserne, og de omfatter:
1. Standardisering:
Producenter overholder branchestandarder og specifikationer, når de designer og producerer PTO-kardanaksler. Standarder som ISO 5676 og ASAE S205.6 giver retningslinjer for dimensioner, sikkerhedskrav og ydeevneegenskaber. Ved at følge disse standarder kan producenter sikre, at deres kardanaksler er kompatible med en bred vifte af udstyr, der overholder de samme branchestandarder.
2. Ingeniørdesign:
Producenter ansætter erfarne ingeniører, der designer PTO-drivaksler med kompatibilitet i tankerne. De tager højde for faktorer som momentkrav, hastighedsklassificeringer, driftsforhold og kraftoverførselseffektivitet. Den tekniske designproces involverer valg af passende materialer, beregning af komponentdimensioner, bestemmelse af tilslutningsmetoder og overvejelse af faktorer som kompensation for skævheder. Opmærksomhed på disse designaspekter sikrer, at drivakslerne kan håndtere kravene fra forskellige udstyr, samtidig med at kompatibiliteten opretholdes.
3. Tilpasningsmuligheder:
Producenter tilbyder ofte tilpasningsmuligheder for at opfylde specifikke udstyrskrav. Kunder kan anmode om PTO-kardanaksler med tilpassede længder, tilslutningstyper og beskyttelsesfunktioner. Ved at tilbyde tilpasning kan producenterne skræddersy kardanakslerne til specifikke udstyrsopsætninger og dermed sikre kompatibilitet med forskellige maskiner og applikationer.
4. Retningslinjer for kompatibilitet:
Producenter leverer kompatibilitetsretningslinjer og specifikationer for deres PTO-drivaksler. Disse retningslinjer beskriver den anbefalede anvendelse, effektgrænser, tilslutningsmetoder og andre relevante oplysninger. Udstyrsproducenter og slutbrugere kan henvise til disse retningslinjer for at sikre, at de PTO-drivaksler, de vælger, er kompatible med deres specifikke udstyr og driftsforhold.
5. Test og validering:
Producenter underkaster PTO-kardanaksler strenge test- og valideringsprocedurer. Testprocessen omfatter evaluering af forskellige ydelsesparametre såsom momentoverførsel, hastighedsklassificeringer, holdbarhed og vibrationsmodstand. Ved at udføre omfattende test verificerer producenterne kompatibiliteten af deres kardanaksler med forskelligt udstyr og sikrer, at de opfylder eller overgår de nødvendige standarder og specifikationer.
6. Samarbejde med udstyrsproducenter:
Producenter samarbejder ofte med udstyrsproducenter for at sikre kompatibilitet mellem deres PTO-drivaksler og det relaterede maskineri. Ved at arbejde tæt sammen med udstyrsproducenter kan drivakselproducenter indhente detaljerede specifikationer og krav til udstyret. Dette samarbejde muliggør udvikling af PTO-drivaksler, der er specifikt designet til problemfri integration med udstyret, hvilket sikrer optimal kompatibilitet og ydeevne.
7. Løbende forskning og udvikling:
Producenter investerer i forsknings- og udviklingsinitiativer for løbende at forbedre kompatibiliteten af PTO-kardanaksler. De holder sig ajour med branchens tendenser, teknologiske fremskridt og udviklende udstyrskrav. Ved at forblive proaktive og innovative kan producenter udvikle kardanakseldesign, der forudser kompatibilitetsbehovene i nye og fremadstormende udstyrsteknologier.
8. Teknisk support og dokumentation:
Producenter yder teknisk support og dokumentation for at hjælpe udstyrsproducenter og slutbrugere med at vælge og installere PTO-kardanaksler. Denne support kan omfatte detaljerede installationsvejledninger, fejlfindingsvejledninger og kompatibilitetsdiagrammer. Ved at tilbyde omfattende tekniske ressourcer sikrer producenterne, at kardanakslerne er korrekt integreret i forskellige udstyrskonfigurationer.
Afslutningsvis sikrer producenter kompatibiliteten af PTO-drivaksler med forskelligt udstyr gennem standardisering, teknisk design, tilpasningsmuligheder, kompatibilitetsretningslinjer, test og validering, samarbejde med udstyrsproducenter, løbende forskning og udvikling samt levering af teknisk support og dokumentation. Disse bestræbelser sikrer, at PTO-drivaksler problemfrit kan integreres i en bred vifte af udstyr, hvilket muliggør effektiv kraftoverførsel og pålidelig drift.
Can you provide real-world examples of machinery that use PTO drive shaft technology?
PTO (Power Take-Off) drive shaft technology is widely utilized in various machinery across different industries. It enables the transfer of power from a power source, such as an engine or motor, to driven equipment or implements. Here are some real-world examples of machinery that commonly use PTO drive shaft technology:
1. Agricultural Machinery:
PTO drive shafts are extensively used in agricultural machinery. Tractors, for instance, often feature a PTO that allows power to be transferred to a range of implements, including plows, cultivators, mowers, balers, and grain augers. These implements are connected to the PTO drive shaft, which provides the necessary power for their operation. PTO drive shafts play a key role in enhancing the efficiency and versatility of agricultural equipment.
2. Forestry Equipment:
In the forestry industry, PTO drive shafts are employed in various machinery used for wood processing and harvesting. Equipment such as wood chippers, stump grinders, log splitters, and portable sawmills often utilize PTO drive shafts to transmit power from tractors or other power sources. PTO drive shafts enable efficient and reliable operation of these forestry machines, contributing to productivity and effectiveness in the field.
3. Construction Machinery:
PTO drive shafts are also found in construction machinery, particularly in equipment that requires power for auxiliary functions. Examples include concrete mixers, concrete pumps, asphalt spreaders, and hydraulic attachments like augers and rotary brooms. PTO drive shafts enable the transfer of power from the main engine or hydraulic system to these auxiliary components, allowing for efficient operation and increased functionality on construction sites.
4. Industrial Equipment:
In the industrial sector, PTO drive shafts are utilized in various types of equipment. For example, industrial mixers, centrifugal pumps, air compressors, and generators often incorporate PTO drive shafts to obtain power from a prime mover or power source. This power transfer mechanism allows these machines to operate effectively and perform their intended functions in industries such as manufacturing, processing, and energy production.
5. Landscaping and Groundskeeping Equipment:
PTO drive shafts are commonly used in landscaping and groundskeeping equipment. Implements like rotary mowers, flail mowers, leaf blowers, and spreaders often rely on PTO drive shafts to receive power from tractors or other utility vehicles. PTO drive shafts enable efficient and precise cutting, mowing, and debris removal, contributing to the maintenance of parks, golf courses, sports fields, and other outdoor spaces.
6. Material Handling Machinery:
Machinery involved in material handling operations, such as forklifts, pallet jacks, and conveyor systems, may incorporate PTO drive shaft technology. PTO drive shafts provide power for auxiliary functions, such as lifting and moving loads, operating conveyor belts, or powering attachments like clamps or forks. This allows for efficient and controlled material handling in warehouses, distribution centers, and other industrial settings.
7. Marine and Boating Equipment:
PTO drive shafts are utilized in certain marine and boating applications. In larger vessels like commercial fishing boats or workboats, PTO drive shafts can transmit power from the main engine to auxiliary equipment such as winches, pumps, or generators. This helps facilitate various operations at sea, such as fishing, lifting heavy loads, or generating electricity for onboard systems.
These examples demonstrate the diverse range of machinery that incorporates PTO drive shaft technology. From agricultural and forestry equipment to construction, industrial, landscaping, material handling, and marine machinery, PTO drive shafts provide a reliable and efficient power transmission solution. Their widespread use across industries highlights the importance of PTO drive shafts in enhancing the functionality and performance of various types of equipment.
What factors should be considered when selecting the right PTO drive shaft for an application?
When selecting the right PTO (Power Take-Off) drive shaft for an application, several important factors should be considered to ensure optimal performance, safety, and compatibility. Here’s a detailed explanation of the key factors to consider:
1. Power and Torque Requirements:
The power and torque requirements of the application are crucial considerations. It’s essential to determine the maximum power and torque output of the primary power source (e.g., engine, transmission) and match it with the drive shaft’s capacity. Selecting a drive shaft that can handle the required power and torque levels ensures efficient power transmission and prevents overloading or damage to the drive shaft and connected equipment.
2. Speed and RPM Range:
The speed and RPM (Rotations Per Minute) range of the equipment and the primary power source should be taken into account. The drive shaft’s design should be capable of accommodating the desired speed range while maintaining smooth power transmission. It is important to select a drive shaft that can handle the intended operating speeds without excessive vibration, binding, or loss of power.
3. Equipment Size and Configuration:
The size and configuration of the equipment or implement being powered by the PTO drive shaft are crucial factors. The drive shaft’s length should be adjustable or chosen appropriately to ensure proper alignment between the primary power source and the implement input shaft. Additionally, consider any space limitations or clearance requirements within the equipment that may affect the choice of drive shaft configuration.
4. PTO Shaft Connection Type:
The type of connection required between the PTO drive shaft and the primary power source and implement is a significant consideration. Common connection types include splined connections, keyway connections, and quick-detach mechanisms. It is essential to ensure compatibility between the drive shaft’s connection type and the corresponding connections on the power source and implement to achieve a secure and reliable attachment.
5. Safety Features:
Safety features are crucial when selecting a PTO drive shaft. Shear pins, clutches, or other overload protection mechanisms should be considered to prevent damage to the drive shaft and associated equipment in the event of a sudden increase in torque or speed. These safety features help protect against accidents and reduce the risk of injury to operators and bystanders.
6. Environmental Conditions:
The environmental conditions in which the drive shaft will be operating should be taken into account. Consider factors such as temperature extremes, moisture, dust, or corrosive environments. It may be necessary to select a drive shaft with appropriate sealing, coating, or material options to ensure reliable performance and durability in the given conditions.
7. Maintenance and Serviceability:
Consider the accessibility and ease of maintenance for the chosen drive shaft. Ensure that routine maintenance tasks such as lubrication, inspection, and potential repairs can be performed conveniently. Easy serviceability helps minimize downtime and ensures the longevity of the drive shaft.
8. Compliance with Standards and Regulations:
Ensure that the selected PTO drive shaft complies with relevant industry standards and safety regulations. This includes standards for power transmission components, such as ISO 500-1 for PTO drive shafts. Compliance with these standards ensures that the drive shaft meets necessary quality, safety, and performance requirements.
By considering factors such as power and torque requirements, speed range, equipment size and configuration, PTO shaft connection type, safety features, environmental conditions, maintenance and serviceability, and compliance with standards and regulations, one can select the right PTO drive shaft that best suits the specific application’s needs. Proper selection ensures efficient power transmission, safety, and long-term reliability of the equipment.
editor by CX 2024-04-17
