Product Description
Commercial Automatic Fruit Orange Juicer Machine Industrial Profession CZPT Juice Extractor
Use and scope of application:
1.Used to squeeze pineapple, apple, pear and other fruits;
2.For pressing tomatoes, ginger, garlic, celery and other vegetables.
3.Spiral propulsion;
4.Fully automatic berry, pome fruit and vegetable fruit and vegetable juice extraction and slagging process;
5.The part in contact with the material is made of GB 304 stainless steel.
6.The frame material can be selected from the national standard 304 stainless steel, depending on customer requirements.
Specification of Juice Extractor:
Specification | Output | Spiral diameter | Crushing motor power | Main motor power | Filter | Dimensions |
AG-0.5TG | 0.5T/H | 88mm | 1.5kw | 1.5kw | 0.6mm | 990*380*1100mm |
AG-0.5T | 0.5T/H | 88mm | / | 1.5kw | 0.6mm | 780*380*800mm |
AG-1.0TG | 1T/H | 125mm | 1.5kw | 3kw | 0.6mm | 950*350*1200mm |
AG-1.0T | 1T/H | 125mm | / | 3kw | 0.6mm | 909*320*833mm |
AG-1.5TG | 1.5T/H | 175mm | 2.2kw | 7.5kw | 0.6mm | 1400*550*1700mm |
AG-1.5T | 1.5T/H | 175mm | / | 7.5kw | 0.6mm | 1400*500*1380mm |
Detailed of Juice Extractor:
1. Motor 2. Bearing housing 3. Feed hopper 4. Front support 5. Spindle 6. Spiral
7. Filter 8. Skeleton 9. Juice extractor 10. Pressure regulator 11. Rear support
12. Press seat 13. Brake pin 14. Hand wheel bearing 15. Slag bucket
Equipment structure:
1.Structure: It consists of front support, feed hopper, crushing, spiral, filter net, juice extractor, rear support, slag sump, etc.
2.The left end of the spiral main shaft is supported in the rolling bearing housing, and the right end is supported by the hand wheel bearing.
3.In the seat, the motor is driven by a pair of V-belt drive screws.
Features:
1.The motor drives the spindle to rotate through a pair of pulleys.
2.The tripod is mounted on the spindle. The beater plate is on the tripod.
3.The screen, funnel and slag are mounted on the lower bracket.
4.The upper inner cylinder and the feeding hopper are loaded on the bracket, and the entire upper bracket is hingedly connected, and can be opened to check the quality of the pulp.
Preparation before use:
1. Stabilize the machine on the foundation and tighten the screws on the chassis feet;
2. Open the cylinder, clean up the debris, and clean it. When cleaning, do not leak the water to the motor;
3. Adjust the gap between the scraper and the inner wall of the screen to be 1.5~2mm;
4. Adjust the spiral angle of the scraper;
5, whether the spindle is flexible by hand, cover the upper cylinder tightening screw;
6. Before feeding, the skin of the thick skin should be peeled. Such as: orange, large nuclear fruit to go nuclear, such as: peaches, long vegetables to cut, garlic dishes to cut, big peppers to cut open, and all must be fresh.
7. The fruits and vegetables to be processed must be cleaned.
8. Turn on the power. Start the motor, test the juice extractor, check whether the spiral direction of the spindle is correct, whether the sound is normal, and so on.
Performance characteristics:
1. Advanced design, compact structure and beautiful appearance.
2. The machine is composed of 2 parts: crusher and spiral juice extractor, which fully completes the process of crushing, juicing and slagging.
3. The use of conical screw, large capacity, high juice yield.
4. high efficiency, low noise, no pollution.
5. The parts in contact with the materials are all made of stainless steel;
Working principle:
1.The main component of the equipment is the broken pulp, juice and skin entering the spiral juice extractor through the feeding hopper.
2.The spiral diameter gradually increases along the direction of the slag outlet and the pitch gradually decreases.
3.When the material is spirally advanced, the spiral is caused by the spiral.
4.The volume of the cavity is reduced to form a press of the material.
5.The direction of rotation of the helical main shaft is viewed from the feed hopper toward the slag groove in a clockwise direction.
6.The raw material is added to the feed hopper, pressed under the advancement of the spiral, and the pressed juice flows through the filter into the bottom of the juice extractor, and the waste is discharged through the annular gap formed between the spiral and the tapered portion of the pressure regulation.
7.The movement of the pressure regulating head in the axial direction can adjust the size of the gap.
8.For clockwise (when the seat is turned from the tapping groove of the device to the end of the feed hopper, the head is turned to the left, the gap is reduced, and the gap is enlarged.)
9.The size of the gap is changed, that is, the row is adjusted.
The resistance of the slag.
10.The slag removal rate can be changed, but if the void is too small, under strong extrusion, some of the slag particles will be extruded through the filter together with the juice.
Package of Juice Extractor:
Pulley Type
There are several types of pulleys. These include fixed pulleys, load multipliers and movable pulleys. Below is a description of each pulley type. A load multiplier is a special type of pulley with multiple wheels for increased lifting capacity. It is used in a wide range of applications including power transmission and construction. Some common uses of pulleys are listed below.
moving pulley
Movable pulleys work by transferring the weight of a load to another object of the same mass. Since a live pulley is inherently frictionless and weightless, the force required to lift a load with it is the same as the weight of the load. This principle applies to tall buildings and residences. It is an excellent choice for lifting heavy objects such as furniture and washing machines.
A pulley is a mechanical device with a wheel that rotates on a shaft. The axle is attached to the wheel and is usually fixed. The movable pulley can be fixed or movable, both of which can change the direction of the force on the rope. Some pulleys can also change the magnitude and direction of the force. They are ideal for a variety of applications, from lifting heavy objects to transporting objects.
Another type of movable pulley works by transmitting force to another object. It has a free axis and the total force provided by the rope tension is balanced. Since the tension on the rope is constant in each segment, pulling 1 end of the rope will double the force on the shaft, resulting in 2 mechanical advantages. This mechanical advantage is the main reason why movable pulleys are so versatile.
Another form of moving pulley is called a KWL diagram. The KWL diagram summarizes the basic concepts of the drive wheel. KWL diagrams are an excellent way to assess a student’s understanding of the concepts discussed in the course. Word questions are a great way to check whether students understand concepts. When students answer the word questions correctly, the answer is yes!
Fixed wheel pulley
If you need to move heavy objects, a single fixed wheel pulley is not a good choice. Using a single fixed pulley might be similar to using a handbag, but it’s not very convenient. This type of pulley system relies on friction to transmit motion. As a result, it can slip and isn’t always reliable. Fortunately, you can find other options that work just as well.
Fixed pulleys are the most basic type of pulley. They consist of grooved wheels and ropes attached to objects. These pulleys make lifting easier. Because the rope or cable only moves in 1 direction, the movement of the object feels lighter. And they are also easy to install. However, before you buy a fixed wheel pulley, make sure it is strong enough to support the weight of the load.
The disadvantages of fixed pulleys are obvious. One of them is the lack of mechanical advantage. A fixed pulley pulls up with the same force as a single moving pulley, and a single fixed pulley is not particularly effective as a force multiplier. However, the effect is more pronounced when you combine multiple fixed-wheel pulleys. You will get double the power! So what do fixed wheel pulleys have to offer?
Fixed wheel pulleys can be as small as a ring. A single ring pulley requires twice as much force as the weight being pulled. Adding more loops to the rope will reduce the effort required to pull the weight. The mechanical advantage of a fixed pulley is proportional to the number of strands running to the free pulley. A 100-pound pull on the free end will lift a 300-pound load.
composite pulley
Compound pulleys are pulleys that can be used to change the direction of a control wire. It can also be used to modify the mechanical force of the wire by moving the item it is connected to. In galleons, compound pulleys are more common. They are often combined with other ropes for mechanical advantage. Here are some common uses for composite pulleys.
The ideal mechanical advantage of a pulley is equal to the number of rope segments that pull up the load. This means that the more rope segments, the less force is required. A compound pulley will have the ideal mechanical advantage of 2, which means it will generate more force than a simple pulley. Composite pulleys are also more efficient at transmitting force because their number of rope segments is usually equal to the unit weight.
Composite pulley systems use more than 2 pulleys and ropes. More pulleys will reduce the force required to move heavier objects. They are usually used in large sailboats. The system is also used on construction sites. It can be used for a variety of applications, including lifting large objects or transmitting electricity. You can imagine how it would change your life if you had to move a large sailboat, but the result would be the same: a composite pulley system would make it easier to lift a large sailboat.
Composite pulleys are also known as fixed pulleys. The fixed pulley is stationary, and the movable pulley moves back and forth. The latter is more effective when used with a detachable cord or strap. On the other hand, a moving pulley is a moving pulley and it gives you a mechanical advantage. You can imagine this pulley on a flagpole.
load multiplier
The multiplication system has 3 basic parts: the rope grab, the connector, and the pulley. While some basic multipliers may combine the 3 parts, the concept remains the same. The multiplication system can make pulling the rope easier by reducing the amount of friction that occurs. Below are some examples of multiplication systems. A compact rope grab is a great option for resetting the multiplier.
The load reduction that a pulley system can achieve is proportional to the number of ropes used to support it. Although most utility pulley systems use only 4 ropes, the theoretical maximum load reduction is a quarter of the actual load. In other words, the four-wheel system only reduces the weight of a 1,000-pound load by a quarter. That would require 167 pounds of force, a far cry from the 500-pound load a single pulley system can achieve.
The mechanical advantage of a pulley system can be calculated by calculating the ratio between the forces exerted on each wire. For example, a 90-kilogram load is supported by 3 ropes, each weighing about 30-5 pounds. The ropes on pulleys A and B each carry a load of 60 kg. Using this formula, a single pulley system will yield a mechanical advantage over 2 tractors.
To calculate the force required to pull the rope over the pulley, measure the angle and deflection between the ropes. The deflection angle when added to the included angle should equal 180 degrees. A 75 degree angle requires 159% of the load force. This means a total load multiplier of four. This formula is an important tool for calculating the force multiple of the pulley.
Disadvantages of fixed pulleys
There are 2 basic types of pulleys: movable and fixed. Active pulleys are more advanced, allowing the pulley to move according to the load. They reduce the force required to lift the load. Active roller pulleys are more compact and therefore take up less space. Both types are good for lifting heavier objects, but they each have their pros and cons.
Fixed wheel pulleys can be used to lift heavy objects. This type of pulley consists of a wheel with a fixed shaft that has grooves on its edges for guiding ropes or cables. This is a simple machine as no motor or engine is required to lift objects. When 2 or more wheels are used together, the ropes around the wheels form a powerful hoist.
Single wheel pulleys are not suitable for lifting. They tend to push things down. Also, they are unreliable because they rely on friction and can slip. Also, a single wheel pulley would require a lot of space. Another disadvantage of fixed-wheel pulleys is that they make it difficult to move heavy objects easily. Single fixed-wheel pulleys also tend to slip easily, making them a poor choice for many applications.
Fixed wheel pulleys are also easier to install and maintain than manually operated ones. It requires less space and lubrication than manual pulleys. Manual pulleys can cause injury because the operator will be lifting the full weight of the heavy object. Additionally, rope slippage can lead to muscle strains and rope burns. And the system requires frequent maintenance.