Product Description
Product Description
Manufacturer of LQ180 series wheel type hydraulic rotary drilling rigs for Sale
Brief Details of Rotary Drilling Rig:
1. Model No.: LQ180-11, LQ180-13, LQ180-15,LQ-18,LQ-20
2. Max. Drilling Depth: 11m-20m
3. Borehole Diameter: 500~1500mm
4. Warranty: One year guarentee excluding wearing parts
5. Applications: municipal construction, roads and bridges construction, high-rise buildings and other foundation construction project, etc.
Product Specifications of LQ180 series wheel type rotary drilling rig:
1. High efficiency: Advanced craft,Circulation drilling, don’t increase the load when drilling deeper.
Hydraulic power head drives to work with stable operation, large torque, high efficiency.
2. Adapt to various terrain and different geological conditions,apply to a variety of construction requirements.
3. Compact body design, flexible operation, quickly transitions is convenient for your works. Two kinds of wheel-mounted and crawler-mounted models for your choice.
4. Can match with different drilling tools, such as engineering special short spiral, rotary bucket, core drilling tools etc.,so that it can meet a variety of construction requirements, different engineering geological conditions for piling projects.
5. Safety and reliability, the models are on the basis of excavator technology, facilitate accessories maintenance is easy.
6. Low investment with high return. Our rotary pile rig has the exquisite design, economical price, performance excellence,no need people to clean the soil, save lots of labor force,it is the best choice to replace the manual hole CHINAMFG pile and big pile drivers in certain ranges.
Product Parameters
Wheel Type 180° Hydraulic Rotary Drilling Rig:
Type | LQ180-13 Wheel Type Rotary Rig | LQ180-15 Wheel Type Rotary Rig | LQ180-18 Wheel Type Rotary Rig | |||||
Working mode | Pressure drilling | Wire rope gravity pressure | Pressure drilling | Wire rope gravity pressure | Pressure drilling | Wire rope gravity pressure | ||
Drilling diameter | mm | 500-1500 | ||||||
Drilling depth | m | 13 | 15 | 18 | ||||
Dimension | m | 7.00×2.0x2.95 | 7.50×2.20×2.95 | 8.20×2.20×2.95 | ||||
Total weight | t | 11.5 | 11.8 | 12.5 | ||||
Diesel engine | type | / | HangZhou 6105, Yuchai, CHINAMFG Engine is selectable for the customers | |||||
power | kw | 110 | ||||||
Rotate speed | r/min | 2200 | ||||||
Power head torque | Kn.m | 22000-26000 | ||||||
Power head rotate speed | r/min | 30-50 | ||||||
Max. lifting power | kn | 150 | ||||||
Max. stroke | m | 11-22 | ||||||
Wire rope diameter | mm | 18 | ||||||
Rotation angle | ° | 180 | ||||||
Travel speed | Km/h | 30 | ||||||
Max. grade ability | ° | 20 |
Related Photos
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
After-sales Service: | Yes |
---|---|
Warranty: | 1 Year |
Certification: | ISO 9001:2000, ISO 9001:2008 |
Condition: | New |
Drill Hole Diameter: | 500-1200mm |
Drill Hole Depth: | 10-20m |
Customization: |
Available
| Customized Request |
---|
What factors should be considered when selecting the right post hole digger for a job?
When choosing the appropriate post hole digger for a job, several factors should be taken into consideration. These factors help ensure that the selected digger is well-suited for the specific requirements of the project. Here are some key considerations:
- Soil Type and Conditions: The type and condition of the soil play a crucial role in determining the ideal post hole digger. Consider whether the soil is soft, sandy, clayey, compacted, or rocky. Different diggers have varying capabilities in handling these soil types. For example, harder soils may require more powerful motorized diggers or specialized blades, while softer soils may be manageable with manual or smaller-sized diggers.
- Project Scale and Scope: The scale and scope of the project influence the selection of a post hole digger. Determine the number of holes that need to be dug and the depth and diameter requirements of the holes. Larger projects with numerous holes may benefit from motorized diggers that offer faster and more efficient digging. Smaller projects or occasional use may warrant manual diggers for cost-effectiveness.
- Available Power Source: Consider the availability of power sources at the job site. Motorized post hole diggers typically require access to electricity or fuel, such as gas or propane. If the job site lacks these power sources, manual diggers may be a more suitable choice. Additionally, consider the portability and maneuverability of the digger if the job site is in a remote or hard-to-reach location.
- Operator Experience and Strength: Assess the experience and physical strength of the operator(s) who will be using the post hole digger. Motorized diggers are generally more powerful and require less physical effort compared to manual diggers. If the operator is inexperienced or lacks sufficient strength, it may be advisable to opt for a motorized digger to ensure efficient and safe operation.
- Budget and Cost Considerations: Set a budget for the post hole digging project and consider the cost of different digger options. Motorized diggers tend to be more expensive upfront but can save time and effort in the long run, especially for larger projects. Manual diggers are typically more budget-friendly but may require more physical exertion and time investment.
- Additional Features and Accessories: Evaluate any additional features or accessories that may be beneficial for the project. Some post hole diggers offer adjustable depth settings, ergonomic handles, or anti-vibration systems for operator comfort. Assess whether any specific accessories, such as auger extensions or sharpening tools, are available or needed for the task at hand.
By considering these factors, project managers or individuals can make an informed decision when selecting the right post hole digger. It is essential to choose a digger that matches the soil conditions, project requirements, available power sources, operator capabilities, budget, and any desired additional features or accessories.
How do post hole diggers ensure controlled and precise digging in tight spaces?
Post hole diggers are equipped with various features and techniques to ensure controlled and precise digging in tight spaces. These elements allow users to navigate limited areas and maintain accuracy during the digging process. Here’s how post hole diggers achieve controlled and precise digging in tight spaces:
- Compact Design: Post hole diggers are designed to be compact and maneuverable. They typically have a narrow frame and a slim profile, allowing them to fit into tight spaces where larger machinery or tools may not have access. The compact design enables operators to position the digger accurately and maintain control while digging in confined areas.
- Shorter Shaft Length: Some post hole diggers feature shorter shaft lengths compared to standard models. The shorter shaft allows for better control and maneuverability in tight spaces. By reducing the overall length of the digger, operators can more easily navigate around obstacles and maintain precise digging movements without compromising stability.
- Adjustable Handle Positions: Many post hole diggers have adjustable handle positions. The handles can be repositioned or rotated to suit the operator’s preference and the specific requirements of the tight space. By adjusting the handle position, operators can maintain a comfortable grip and optimize control while working in confined areas.
- Operator Technique: The technique employed by the operator is crucial in achieving controlled and precise digging in tight spaces. Skilled operators can utilize specific techniques such as careful hand placement, controlled force application, and precise movements to navigate around obstacles and maintain accuracy. With practice and experience, operators can adapt their technique to the limitations of tight spaces, ensuring controlled and precise digging.
- Graduated Markings or Measurements: Some post hole diggers feature graduated markings or measurements on the shaft or handle. These markings serve as visual references for the operator, allowing them to monitor the depth and progress of the hole while working in tight spaces. By referring to the measurements, operators can ensure consistent and precise digging depths, even in limited areas.
- Manual Control: Manual post hole diggers offer a high level of manual control, which can be advantageous in tight spaces. By physically operating the digger and exerting force directly, operators have fine control over the speed, direction, and depth of the digging process. The ability to make subtle adjustments on the spot enables controlled and precise digging, particularly in areas where precision is critical.
Through their compact design, shorter shaft lengths, adjustable handle positions, emphasis on operator technique, graduated markings or measurements, and manual control, post hole diggers ensure controlled and precise digging in tight spaces. These features and techniques allow operators to navigate around obstacles, maintain accuracy, and achieve the desired hole dimensions even when working in confined areas.
What are the key components of a manual post hole digger?
A manual post hole digger consists of several key components that work together to facilitate the digging process. Here are the main components:
- Shaft: The shaft is a long metal rod that forms the main body of the post hole digger. It provides the structural support and stability while digging. The shaft is typically made of steel or another durable material to withstand the forces exerted during digging.
- Handles: At the top of the shaft, there are two handles positioned opposite each other. The handles are designed for the operator to grip and apply downward force while digging. They provide leverage and control, allowing the operator to maneuver the post hole digger effectively.
- Auger Blades: The auger blades are the cutting or digging elements of the post hole digger. They are attached to the bottom end of the shaft and are responsible for penetrating the ground and removing soil. Auger blades are typically made of hardened steel to withstand the abrasive nature of soil and provide durability.
- Blade Spacing: The spacing between the two auger blades is an important aspect of a manual post hole digger. It determines the width of the hole being dug. The blade spacing can vary depending on the specific model or intended use of the digger.
- Twist or Spiral Design: The auger blades are shaped in a twist or spiral pattern. This design allows them to efficiently move through the soil as they rotate. The twisting motion helps break up the soil and facilitates the removal process.
- Blade Point: The bottom end of each auger blade usually comes to a sharp point. This point helps initiate the penetration into the ground, allowing the blades to start digging and create a hole.
When using a manual post hole digger, the operator grips the handles, positions the auger blades at the desired location, and applies downward force while simultaneously twisting the digger. This action drives the blades into the ground, loosening the soil. The operator then lifts the digger out of the hole, bringing the loosened soil to the surface.
By understanding the key components and their functions, operators can effectively utilize a manual post hole digger to dig holes for various purposes.
editor by CX 2024-05-07
China OEM 2 Ton to 3t Small Excavator Construction Excavator Engineering 3000kg Mini Hydraulic Excavator agricultural spare parts suppliers
Product Description
2ton to 3t Small Excavator Construction Excavator Engineering 3000kg Mini Hydraulic Excavator
Q1.What is the delivery period?
After receiving the initial payment, the goods will be ready for delivery within 5 days.The rest time depends on the distance and transport method which need to be negotiated.
Q2.What is the payment terms can you accept?
30% initial payment, 70% balance payment when the goods are ready for delivery by T/T.
Q3.How long is the product guarantee?
We provide 1 year quality guarantee.
Q4.What kind of service could you provide?
1) Pre-sale service:We could assist you finding the suitable equipment according to your requirement.
2) On-sale service:We strictly follow the commercial rules, contract signing, following the production process, controlling the goods quality, tracking the goods delivery, guaranteeing you receive the qualified goods safely.
3) After-sale service:We provide some consumables with the equipment;
We have operation manual for instructing the basic installation and operation;Video guidance for trouble shooting;Engineers ready for field maintenance and repairing when necessary.
Q5.Can we have the special order like specification change, logo making?
Yes, we accept the customization.We can make it clear in the contract and then our technical start design and production as per your requirement.
For more questions, please free to contact us. We sincerely welcome all friends paying visits to us and reach a mutural success.
Shipping Cost:
Estimated freight per unit. |
To be negotiated |
---|
After-sales Service: | Free Accessories |
---|---|
Warranty: | 1 Year |
Type: | Crawler Excavator |
Samples: |
US$ 12500/Piece
1 Piece(Min.Order) | Order Sample |
---|
Customization: |
Available
| Customized Request |
---|
Types of agricultural parts
Agricultural parts can be divided into different categories. These components include tractors, moldboard plows, whips and sickles. Some of the different types of agricultural ingredients are listed below. Each of these parts is important for different types of farming. It is important to know the purpose of each and what it does. If you are a farmer or plan to become a farmer, these parts are critical to your operation.
Tractor
The first tractor appeared in the 1920s. Ford and International Harvester were among the first companies to produce farm tractors, but the industry has grown rapidly. By the 1920s, hundreds of companies were producing farm tractors. The agricultural depression of the 1930s forced many of these companies out of business. By the 1930s, only seven companies were major players in the tractor business. Ford produced the largest number of wheeled tractors in the United States between 1930 and 1955.
Some tractors are equipped with various accessories to enhance their performance. These specialized agricultural components are used for a variety of tasks. These include tillage, harvesting, planting and material handling. Tractors vary in horsepower, lift capacity, control and capabilities. Some models also have device mounting options. The downside of this is that if you need to use the tractor for other purposes, you will have to use additional attachments that can damage the tractor.
Modern tractors have a clutch pedal on the gear lever. This allows you to shift quickly without pedaling. Other tractors have a throttle speed button that improves hydraulic flow to the implement. However, the most important component of a tractor is the engine. Tractors must be driven safely because even minor accidents can cause serious damage to farm equipment. While there are many tractors that can operate without these parts, you can find the right tractor for your job.
Shared plows
One of the many uses of shared plows as part of agriculture is to increase the amount of soil in a field. This plow effectively removes compacted soil and lifts weed roots. According to the University of Nebraska-Lincoln Institute for Agriculture and Natural Resources, plowshares are best used in the fall, when weeds are less active and the soil is more fertile.
The basic plowshare can be adjusted by raising or lowering the plowshare to suit runners in the furrow. However, this design is not suitable for breaking up the heavier soils of northern Europe. In the 6th century, however, the advent of the wheel made it possible to use larger moldboards, which increased food production and population growth. Today, farmers in North America have access to a wide variety of moldboard plows.
Agricultural moldboard plows come in two basic styles, horse-drawn or tractor-style. Horse-drawn models have one bottom, while tractor-pulled moldboard plows have 1 to 14 hydraulically raised bottoms. Other variants include intermediate breakers and twin moldboard plows. Agricultural moldboard plows are often used in the Midwest and elsewhere.
Grass
Grass is used for mowing. The blade is double edged and bolted to the wooden handle. Steel blades are tempered and braced for strength and durability. The blade can be sharpened if necessary. The straw whip is 30 inches long, which can be a good or a bad thing depending on the user’s height. Blades can be sharpened with sandpaper or a file.
The traditional straw whip 32 includes a rear panel and horizontal shelves. It also features a hollow handle with an adapter at the proximal end and a carrying handle at the distal end. The first cable goes to the power supply and goes through the case and handle. After pulling the cable taut, the straw will be firmly attached to the small holder 8.
The suction tube 32 is connected to an electrical connection 47 that powers the device. A battery pack is provided for use away from the tractor. It is a plastic or metal box and consists of two parts: a rechargeable battery 67 and a female electrical plug 68. The switch locks in the open position to prevent accidental use. The switch is also equipped with a safety lock button. These two components work together to operate the straw.
Scythe
Although it is generally believed that the scythe was first developed in Roman times, its actual development may be earlier. Pliny mentioned two different types of sickles, Gallic and Roman. The Gallic sickle was the longer of the two and was made of mild steel, while the Roman sickle was made of harder, higher carbon steel.
In the past, people cut wheat by hand with a sickle. They replaced scythes and bagging hooks, which required users to bend over to harvest crops. Although they have largely been replaced by tractor machinery, scythes are still used today in parts of Asia and Europe. The sickle can also reach awkward corners, making it more useful in certain types of cuts.
The sickle belt stretches from Europe to the Middle East and the Midwest of the United States and Canada. It also spans most of Russia, the Middle East and North Africa. In the 19th century, Austrian sickle makers dominated the sickle industry. They produced millions of sickles, some dating back to the 1500s. Some of them were exported to India and the former Soviet Union.
Brushcutter
Brushcutters are powerful agricultural tools used primarily for felling and trimming vegetation. These parts are often multifunctional, and some models are even capable of maintaining road edges and ditches. Some models can even trim branches from certain types of trees. Before you buy your own brush cutter, be sure to read the manual carefully and follow the safety rules. For your own safety and the safety of others, please wear a hard hat, eye and hearing protection, padded gloves, long pants, and boots, and keep young children away from work areas.
Brushcutters are usually attached to the tractor via a 3-point linkage system, with the exception of high reach models that are attached to the tractor via fixed stirrups. Additionally, brush cutters often have a balancing mass located opposite the tractor. These agricultural components are complicated to install, but once installed, they remain coupled to the tractor. A brush cutter is a critical piece of equipment on any tractor.
Most brushcutters use hydraulic engines. The power is transmitted mechanically through a PTO (power take-over) mechanism or a cardan shaft, which turns a hydraulic pump. This pump draws hydraulic oil from a special tank and then sends it through a series of distributors to move the arm and the working organ. As a result, the power of the brush cutter is transferred from the tractor to the working organ by a hydraulic engine.
Transplanters
Transplanters for agricultural parts are equipment used to plant seedlings into soil. These machines are used in greenhouses and open fields to increase productivity, yield, and the success of harvesting transplanted crops. Transplanters are typically made of steel and are designed to fit seedlings of all shapes and sizes. Buying a used transplanter is a good idea as long as the working parts are in good condition. When considering a used model, you should inspect it for cracks or corrosion and broken parts.
A mechanical transplanter works faster than hand transplanting, but it becomes slower as your quads and back start hurting. Water-wheel transplanters have become popular in recent years. By automatically delivering water into the holes where the transplants are set, water is delivered to the root system without the need for manual intervention. Moreover, water-wheel transplanters save time on watering. John Good, a farmer who uses a water-wheel transplanter, says that speed is no different between a mechanical transplanter and a water-wheel one.
Cultivatorsw
The basic purpose of cultivators is to turn soil and plant matter into a workable form for the crops. Cultivators are used by both large and small farmers. Cultivators for small farming operations are usually self-propelled, but may be drawn behind a tractor. Two-wheel cultivators are typically fixed and powered by couplings, while four-wheel cultivators are attached via a three-point hitch and operated by power take-off. Some cultivators are still drawn behind a draft animal, and the methods are still used in many developing countries.
Cultivators are used in farming to break up soil around a crop. There are three different kinds of cultivators: row crop cultivators, disc cultivators, and power cultivators. Row crop cultivators are used to break up soil before planting, while harrows are used to prepare the soil for planting. In both cases, cultivators are used to disturb the soil consistently throughout the working width. In general, cultivating soil improves aeration and disrupts photosynthesis. Moreover, it can decrease water ponding time after heavy rainfall.
Cultivators are important parts of agricultural machinery. They aerate soil, prepare the seedbed, and kill weeds. By disrupting the soil, cultivators are used to evenly distribute chemical applications. Among them, glyphosate is the most common and widely used weed killer. It is safe for farmers to use, and it effectively eliminates most weeds in a single application.
editor by CX 2023-04-21