Tuotekuvaus
Product Specifications:
| Malli | BX92RS |
| Chipper Capacity | 250mm/10” |
| Chipper Housing Opening | 10”x15” |
| No.of Knives | 4 |
| Rotor Size | 36” |
| Feeding System Feed | Hydraulic Feed |
| Hopper Folded | 66”Lx68”Wx90”H |
| Hopper Opening | 25”x25” |
| Mounting System | 3 Point Hitch |
| Discharge Hood Rotation | 360˚ |
| Discharge Hood Height | 90” |
| Structure Weight | 625kg |
| Tractor HP | 70-120hp |
Product Description:
The BX92RS Hydraulic PTO Wood Chipper has a 9″ chipper capacity and a 10.5″ x 14″ chipper housing opening and is fitted with a 125kg heavyweight Rotor. This model Wood Chipper has a direct hydraulic feed from the tractor hydraulic rear connection plugs.
Direct PTO drive that operates as a fix drive system and without the use of gears and belt drives and this model is fitted standard with easily replaceable blades by removing 3 removable bolt for simple and easy access to the top half of housing and the hopper can also be fully opened with 2 removable bolts.
This model Wood Chipper has a full hydraulic feed system that allows for fast, medium or slow flow rate settings and with its 3 feed setting options from feed direction of forward, reverse and neutral settings.
The Hydraulic model allows for consistent chipping as the Hydraulic System has double support arms from both sides of the internal hopper with drive force from its hydraulic motor and with a Dual Barrel System that enables dragging motion for consistent cutting.
The Hydraulic Feed Chipper model is a simple and low maintenance chipper and able to handle the hardest and knotted wood.
Our advantages:
A whole complete set of production equipment lead to short lead time and better prices of machine.
Guarantee 1 year warranty of all our products.
Produce machines according to any requirements from our customers.
New machines will be developed every year.
Every model of our machine will be tested before the delivery to the port.
If you want to visit our factory, our boss will give you a best reception.
Beautiful gifts will be provided for all of our customers before every year’s Christmas.
Work shop and office:
Welding:
Blade shaft:
Laser equipment:
Office:
Rest place:
Assembly:
Finished machines:
CNC:
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| Myynnin jälkeinen palvelu: | Within One Hour |
|---|---|
| Takuu: | Yksi vuosi |
| Color: | Customsized |
| Logo: | OEM-valmistaja |
| Feeding System: | Hydraulic Feed |
| Rotor Size: | 36′′ |
| Mukauttaminen: |
Saatavilla
| Mukautettu pyyntö |
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How do manufacturers ensure the compatibility of PTO drive shafts with different equipment?
Manufacturers of PTO (Power Take-Off) drive shafts employ various strategies and considerations to ensure the compatibility of their products with different types of equipment. These measures are implemented during the design, manufacturing, and testing phases, and they include:
1. Standardointi:
Manufacturers adhere to industry standards and specifications when designing and producing PTO drive shafts. Standards such as ISO 5676 and ASAE S205.6 provide guidelines for dimensions, safety requirements, and performance characteristics. By following these standards, manufacturers can ensure that their drive shafts are compatible with a wide range of equipment that conforms to the same industry standards.
2. Engineering Design:
Manufacturers employ experienced engineers who design PTO drive shafts with compatibility in mind. They consider factors such as torque requirements, speed ratings, operating conditions, and power transfer efficiency. The engineering design process involves selecting appropriate materials, calculating component dimensions, determining connection methods, and considering factors like misalignment compensation. Attention to these design aspects ensures that the drive shafts can handle the demands of different equipment while maintaining compatibility.
3. Mukautusvaihtoehdot:
Manufacturers often provide customization options to meet specific equipment requirements. Customers can request PTO drive shafts with customized lengths, connection types, and protective features. By offering customization, manufacturers can tailor the drive shafts to fit specific equipment setups, ensuring compatibility with different machines and applications.
4. Compatibility Guidelines:
Manufacturers provide compatibility guidelines and specifications for their PTO drive shafts. These guidelines outline the recommended application, power limits, connection methods, and other relevant information. Equipment manufacturers and end-users can refer to these guidelines to ensure that the PTO drive shafts they select are compatible with their specific equipment and operating conditions.
5. Testing and Validation:
Manufacturers subject PTO drive shafts to rigorous testing and validation procedures. The testing process includes evaluating various performance parameters such as torque transmission, speed ratings, durability, and vibration resistance. By conducting extensive testing, manufacturers verify the compatibility of their drive shafts with different equipment and ensure that they meet or exceed the necessary standards and specifications.
6. Collaboration with Equipment Manufacturers:
Manufacturers often collaborate with equipment manufacturers to ensure compatibility between their PTO drive shafts and the related machinery. By working closely with equipment manufacturers, drive shaft manufacturers can obtain detailed specifications and requirements for the equipment. This collaboration allows for the development of PTO drive shafts that are specifically designed to integrate seamlessly with the equipment, ensuring optimal compatibility and performance.
7. Jatkuva tutkimus ja kehitys:
Manufacturers invest in research and development initiatives to continuously improve the compatibility of PTO drive shafts. They stay abreast of industry trends, technological advancements, and evolving equipment requirements. By staying proactive and innovative, manufacturers can develop drive shaft designs that anticipate the compatibility needs of new and emerging equipment technologies.
8. Technical Support and Documentation:
Manufacturers provide technical support and documentation to assist equipment manufacturers and end-users in selecting and installing PTO drive shafts. This support may include detailed installation instructions, troubleshooting guides, and compatibility charts. By offering comprehensive technical resources, manufacturers ensure that the drive shafts are correctly integrated into different equipment configurations.
In conclusion, manufacturers ensure the compatibility of PTO drive shafts with different equipment through standardization, engineering design, customization options, compatibility guidelines, testing and validation, collaboration with equipment manufacturers, ongoing research and development, and providing technical support and documentation. These efforts ensure that PTO drive shafts can be seamlessly integrated into a wide range of equipment, enabling efficient power transfer and reliable operation.
How do PTO drive shafts contribute to the efficiency of agricultural tasks like plowing?
PTO (Power Take-Off) drive shafts play a crucial role in enhancing the efficiency of agricultural tasks, including plowing. They provide a reliable and efficient power transmission mechanism between a tractor or power source and various implements, such as plows. Here’s how PTO drive shafts contribute to the efficiency of agricultural tasks like plowing:
1. Voimansiirto:
PTO drive shafts enable the transfer of power from the tractor’s engine to the plow or other implements used for plowing. They transmit rotational power at a consistent speed from the power source to the implement, allowing it to perform the intended task efficiently. This direct power transfer eliminates the need for separate engines or motors on each implement, saving both time and resources.
2. Monipuolisuus:
PTO drive shafts are designed to be versatile and compatible with a wide range of agricultural implements. They come in standardized sizes and configurations, allowing different implements to be easily connected and disconnected. This versatility enables farmers to switch between various tasks, including plowing, without requiring significant equipment changes or modifications.
3. Time Efficiency:
By directly transmitting power from the tractor to the plow, PTO drive shafts help save time during agricultural tasks like plowing. They eliminate the need for manual or animal-driven labor, allowing for faster and more efficient plowing operations. This time efficiency increases overall productivity and enables farmers to cover larger areas in less time.
4. Consistent Power Output:
PTO drive shafts provide a consistent power output to the implement, ensuring uniform performance during plowing. They maintain a steady rotational speed, minimizing variations in power delivery and preventing uneven plowing or crop damage. This consistent power output helps achieve reliable and precise results, leading to improved efficiency in the plowing process.
5. Adjustable Speed and Depth:
Many PTO drive shafts offer adjustable rotational speeds, allowing farmers to control the plowing speed according to the specific soil conditions and requirements. This adjustability enables farmers to optimize the plowing process, ensuring efficient soil turnover and seedbed preparation. Additionally, some plows incorporate mechanisms for adjusting the plowing depth, further enhancing flexibility and efficiency.
6. Vähentynyt käyttäjän väsymys:
The use of PTO drive shafts in plowing reduces the physical strain on operators. Instead of manually exerting force to plow the field, operators can rely on the power transmitted through the drive shaft. This reduces fatigue, allowing operators to work for longer durations without experiencing excessive exhaustion. Reduced operator fatigue contributes to increased productivity and overall efficiency in agricultural tasks.
7. Integration with Tractor Controls:
Modern PTO drive shafts often integrate with the tractor’s control system. This integration enables convenient and precise control of the PTO engagement and disengagement, rotational speed, and other parameters. Such integration enhances the ease of operation, minimizes errors, and improves overall efficiency during plowing and other agricultural tasks.
8. Maintenance and Serviceability:
PTO drive shafts are typically designed for ease of maintenance and serviceability. They often feature accessible lubrication points, inspection ports, and replaceable components, making it easier to keep them in good working condition. Regular maintenance ensures optimal performance, reduces the risk of unexpected breakdowns, and maximizes the efficiency of plowing operations.
In summary, PTO drive shafts significantly contribute to the efficiency of agricultural tasks like plowing. They enable direct and consistent power transfer, offer versatility in implement compatibility, save time, provide adjustable speed and depth control, reduce operator fatigue, integrate with tractor controls, and facilitate maintenance. By leveraging the capabilities of PTO drive shafts, farmers can enhance productivity, streamline operations, and achieve efficient plowing results.
Mitä tekijöitä tulisi ottaa huomioon valittaessa oikeaa nivelakselia tiettyyn käyttötarkoitukseen?
Oikean voimanottoakselin valinnassa tiettyyn käyttötarkoitukseen on otettava huomioon useita tärkeitä tekijöitä optimaalisen suorituskyvyn, turvallisuuden ja yhteensopivuuden varmistamiseksi. Tässä on yksityiskohtainen selitys tärkeimmistä huomioon otettavista tekijöistä:
1. Teho- ja vääntömomenttivaatimukset:
Sovelluksen teho- ja vääntömomenttivaatimukset ovat ratkaisevan tärkeitä. On tärkeää määrittää ensisijaisen voimanlähteen (esim. moottorin tai vaihteiston) suurin teho ja vääntömomentti ja sovittaa se vetoakselin kapasiteettiin. Vaaditun tehon ja vääntömomentin käsittelyyn kykenevän vetoakselin valitseminen varmistaa tehokkaan voimansiirron ja estää vetoakselin ja siihen kytkettyjen laitteiden ylikuormituksen tai vaurioitumisen.
2. Nopeus- ja kierroslukualue:
Laitteen ja ensisijaisen virtalähteen nopeus- ja RPM-alue (kierrosta minuutissa) on otettava huomioon. Vetoakselin rakenteen tulee mahdollistaa haluttu nopeusalue ja samalla ylläpitää sujuvaa voimansiirtoa. On tärkeää valita vetoakseli, joka kestää aiotut käyttönopeudet ilman liiallista tärinää, jumittumista tai tehohäviötä.
3. Laitteen koko ja kokoonpano:
Voimanottoakselin voimanlähteenä käytettävän laitteen tai työkoneen koko ja kokoonpano ovat ratkaisevia tekijöitä. Vetoakselin pituuden tulee olla säädettävissä tai se tulee valita asianmukaisesti, jotta ensisijaisen voimanlähteen ja työkoneen tuloakselin välinen oikea kohdistus varmistetaan. Lisäksi on otettava huomioon laitteen mahdolliset tilarajoitukset tai vapaata tilaa koskevat vaatimukset, jotka voivat vaikuttaa vetoakselin kokoonpanon valintaan.
4. Voimanottoakselin liitäntätyyppi:
Voimanottoakselin ja ensisijaisen voimanlähteen sekä työkoneen välille tarvittavan liitännän tyyppi on merkittävä seikka. Yleisiä liitäntätyyppejä ovat uraliitännät, kiilaliitännät ja pikairrotusmekanismit. On tärkeää varmistaa voimanottoakselin liitäntätyypin ja virtalähteen ja työkoneen vastaavien liitäntöjen yhteensopivuus turvallisen ja luotettavan kiinnityksen saavuttamiseksi.
5. Turvaominaisuudet:
Turvaominaisuudet ovat ratkaisevan tärkeitä voimanottoakselia valittaessa. Murtotapit, kytkimet tai muut ylikuormitussuojamekanismit on otettava huomioon, jotta estetään voimansiirtoakselin ja siihen liittyvien laitteiden vaurioituminen vääntömomentin tai nopeuden äkillisen kasvun sattuessa. Nämä turvaominaisuudet auttavat suojaamaan onnettomuuksilta ja vähentävät käyttäjien ja sivullisten loukkaantumisriskiä.
6. Ympäristöolosuhteet:
Käyttöympäristön olosuhteet on otettava huomioon. Huomioi tekijät, kuten äärimmäiset lämpötilat, kosteus, pöly tai syövyttävät ympäristöt. Voi olla tarpeen valita käyttöakseli, jossa on asianmukaiset tiivisteet, pinnoitteet tai materiaalit, jotta varmistetaan luotettava suorituskyky ja kestävyys tietyissä olosuhteissa.
7. Huolto ja huollettavuus:
Huomioi valitun vetoakselin saavutettavuus ja huollon helppous. Varmista, että rutiinihuoltotehtävät, kuten voitelu, tarkastus ja mahdolliset korjaukset, voidaan suorittaa kätevästi. Helppo huollettavuus auttaa minimoimaan seisokkiajat ja varmistaa vetoakselin pitkän käyttöiän.
8. Standardien ja määräysten noudattaminen:
Varmista, että valittu voimansiirtoakseli täyttää asiaankuuluvat alan standardit ja turvallisuusmääräykset. Tämä sisältää voimansiirtokomponentteja koskevat standardit, kuten voimansiirtoakseleita koskevan ISO 500-1 -standardin. Näiden standardien noudattaminen varmistaa, että voimansiirtoakseli täyttää tarvittavat laatu-, turvallisuus- ja suorituskykyvaatimukset.
Ottamalla huomioon tekijät, kuten teho- ja vääntömomenttivaatimukset, nopeusalue, laitteen koko ja kokoonpano, nivelakselin liitäntätyyppi, turvaominaisuudet, ympäristöolosuhteet, huoltokelpoisuus ja standardien ja määräysten noudattaminen, voidaan valita oikea nivelakseli, joka parhaiten sopii tiettyyn sovellukseen. Oikea valinta varmistaa tehokkaan voimansiirron, turvallisuuden ja laitteen pitkäaikaisen luotettavuuden.
editor by CX 2024-05-14
