ôAir-Basicö (system covered by worldwide patent ITMI20010049) is the latest model to be patented to produce Air-Bubble Film. It is outcome of twenty years of experience and the result of accurate research about all the production process aspects and the most advanced technology. It assures the maximum flexibility ( it is possible to stop the production with the films that remain inserted into the machine ) and minimum energy consumption at an economical retail price but with the utmost reliability. All the Torninova models have the same qualities of solving the many problems of marketing air bubble film such as the high cost of transportation, storage and energy consumption. Furthermore since Air Basic in completely versatile and automatic, only one operator is required to produce any type of multilayered air bubble film thought different materials and bubble size, changing production within few minutes and without scratches. ItÆs just this unique possibility to allow, with a limited investment, both producers and major consumers, to place the system in the specific consumer area, producing the more required air bubble films without transportation charge costs. The Air Basic system is completely automatic, controlled by Plc with touch screen display to program the meters for each roll, the distance between precuttings, the temperatures, the different speed of the nip rolls.
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pumps are air driven at a drive air pressure of 1bar to 8bar (14.5 psi to116 psi) by the normal air compressor. Basically the principle of operation is similar to a reciprocating amplifier where control of the piston at the end position is regulated by a pilot operated 4/2 way valve.
Product Description Reciprocating bale plucker is one of the first process of Blow room & carding Department. It is suitable for each kind of cotton, chemical & viscose fibre length less than 76mm. The pluck arm, mounted with two beaters, can lift and revolve 180 . The pluck arm is moved to and back to pluck fibre above bale. The fibre plucked are sucked into the front feeder by air current through transport duct for further process. Technical Specifications Beater Width: 1720 mm (Special) & 2300 mm (Normal) Production Kg/h: 1000 Kg/h & 1500 Kg/h Basic Pile Weight: 6000 Kg & 7500 kg Length of Floor Space: Basic Type 22.03 m (8 Sections of Air ducts) can be Increased or Decreased by 2.5 m x n Bales Arrangement Length: Basic Type 15.9 m (8 Sections of Air ducts) can be Increased or Decreased by 2.5 m x n Intermittent Dropping of Beater: 0.5 ~ 10 mm/time Frequency Control Usually 1 ~ 3 mm/time Calender Roller Dia.130 mm Both Sides; Middle 116 mm Carriage Reciprocating Speed: 16.4 m/min (max); Generally 10 m/min Installed Power: 8.6 Kw & 10.6 Kw Overall size: 22030*5212*3082 & 22030*6648*3082 Net weight: 6000 Kg & 6500 Kg
Liquid Gas Pumps Liquid Gas Pumps are typically centrifugal pumps used to pump liquefied hydrocarbons such as propane, butane, propylene and ethylene. These liquefied hydrocarbons are pumped at -104�°C, and liquefied natural gas (LNG) (usually methane) is pumped at -161�°C, where they remain liquid because above this temperature the gas begins to boil and evaporate. SUNCENTER Liquid Gas Pumps are air driven at a drive air pressure of 2 to 10bar (29 to145 psi) by the normal air compressor. Basically the principle of operation is similar to a reciprocating amplifier where control of the piston at the end position is regulated by a pilot operated 4/2 way valve.
pumps are air driven at a drive air pressure of 2 to 10bar (29 to145 psi) by the normal air compressor. Basically the principle of operation is similar to a reciprocating amplifier where control of the piston at the end position is regulated by a pilot operated 4/2 way valve. pumps feature a large air piston joint to a smaller diameter plunger. The pressure ratio is the difference of these two areas and is the method of determining maximum outlet pressure. Higher pressures obtained by using higher pressure ratios. model numbers reflect the pumps nominal pressure ratios while the technical data indicates exact ratios. The outlet pressure is easily to set through a simple air regulator. By multiplying the pressure ratio by the available shop air pressure, the nominal outlet pressure can be calculated.
Basic parameters: Device size: 6.6 meters long x 3.5 meters wide x 2 meters high See picture: Voltage: AC 220V 12 A Compressed air: 0.6 ~ 0.8 MPa Suitable mask specifications: 2/3/4 layer non-woven flat mask Mask size: 95x175 mm Production efficiency: 90 ~ 120 pcs / min 24 hours continuous work.
The basic principle of the HJFQX series is compressing the air as power, shooting the high polymer materials whose size is bigger than the tube diameter into the inner tube. The polymer materials move fast through the inner tube wall and rub the wall so as to achieve a physical cleaning method. The normal operating air pressure is: 4kg-8kg. this machine adopts the size2mm2000 mmmm tube wall and can be used among in any size between these specifications. The polymer materials can clean the dirt, dust, and all the impurities adhered to the pipe with harmless to environment as well as the human body, which can provide the convenient and quick cleaning way. The polymers speed can be accelerated up to about 1km/min in the tube.
As the basic model, the SYLS PE coating production line can make one side PE coated paper, which is used at paper cup and other paper container production. For double side PE coated paper, you can put the single side PE coated paper roll on the feeding shaft of machine to get PE coated of another side. China CE Aluminum Foil PE Coating Machine Price Sale Our machine are using Siemens PLC for easy setting and operation, all parameter can be set by the touch screen. All the element electric and pneumatic parts of machine are qualified famous brand with CE certificated. Model SYLS - 1100 Length of mould lip 1200mm Width of finished product 500~1150mm Speed 150m/min Thickness of PE film 0.01mm~0.08mm L/D ratio for screw 33: 1 Max. diameter of roll rewinding & unwinding 1200mm Max extrusion quantity 120kg/h Air consumption 0.8m 3 /min Water consumption 0.3m 3 /min Power 380V 50Hz, 97kw Overall size(mm) LÃ? WÃ? H 7, 500Ã? 7, 800Ã? 3, 200 Weight (kg) 14, 000
Introduction: A graphite rotor is immersed in the molten aluminum in a crucible (or ladle) to rotate while a high-purity inert gas such as nitrogen (or argon) is injected into the molten aluminum. As the graphite rotor rotates, the inert gas and refining agent can remove gases and slags from the molten aluminum. Divided into several basic models, including mobile, stationary and suspended. Divided into types such as rotary and rotary + dust adding Equipment Features Able to remove gases (mainly hydrogen) and oxides from the molten aluminum more effectively. The equipment has the advantages of both gas refining and flux-refining. After rotary injection, the hydrogen content in molten aluminum alloys will reach up to 0.1ml/100g, the pinhole degree will reach up to level 1, the density will be less than 1, and a stable effect will be achieved. Low metal loss. After proper flux-refining, there is less dross on the melt surface and the dross is loose; the metal is rarely encased and little metal is taken out during slag removal. Low refining agent consumption and uniform feeding. Equipped with an anti-falling mechanism, a refining agent material level measurer and an air channel leakage detector. Multiple technological processes can be executed. When used with different functions of fluxes, it can be used for high-efficiency modification, degassing and slag removal. â?¢� The rotor bearing is a high-temperature bearing, not needing to be air-cooled. The spindle can work without stop at a high temperature of 200�°C. Site working conditions are significantly improved. Technical Parameters Refining time: 0~99min â?¢� Gas flow for refinement: 12~40NL/min Inert gas for degassing: N2 or Ar with a purity greater than 99.996% Gas working pressure: 0.1-0.4MPa Molten aluminum temperature: 640 850 Amount of molten aluminum treated: 200 3000kg  Rotor speed: 0-600r/min (max1000)
Ball mill for lead oxide is a basic device in the modern world of metallurgy and is extensively used in a variety of applications. Among others, it's applications in the processing of non-ferrous metals is one of the most important. In the field of lead processing, dry type ball mills are used for conversion of lead pellets into fine lead oxide powder (lead oxide free lead), also commonly called grey oxide due to its appearance. The ball mill with its preparatory and collecting equipments is therefore also called a grey oxide plant. Description of process: Lead is melt in a melting pot and cast into pellets (hemispherical or cylindrical shape) at a ball making machine and fed into the ball mill. The ball mill is rotated on its own axis at low speeds. The rotation of the mill imparts tumbling & cascading action to the balls fed (in this case the lead pellets). The rotation is adjusted so that the raw material inside does not reach critical speed. Below the critical speed (at around 65 - 75%), the balls which are carried along the walls of the mill fall back to the center. This continuous action leads to friction and generation of heat which induces the reaction of lead (pb) with oxygen (o2) present in air and generation of lead oxide (2pbo). This reaction is an exothermic reaction which leads to generation of heat and this sets of a chain reaction of heat generation and accelerated oxidation process. Draft of air through the mill carries small sized or light particles outside the mill to the collection system. Temperature within the mill is controlled with the help of water spray outside the barrel of the mill. Several crucial characteristics of this produce such as free lead percentage, retention percentage, apparent density are set as per requirements of the client.
