四柱液壓機(jī)中英文翻譯、外文文獻(xiàn)翻譯
四柱液壓機(jī)中英文翻譯、外文文獻(xiàn)翻譯,液壓機(jī),中英文,翻譯,外文,文獻(xiàn)
Four-column hydraulic press one. Four-column hydraulic press for the use of four-column hydraulic press suitable for plastic materials pressing process. Such as powder products molding, plastic products molding, cold (hot) extrusion metal molding, sheet stretching and cross-pressure, bending, turnover, correction and other processes. II. Four-column hydraulic press features four-column hydraulic press has an independent power mechanism and electrical system, the use of button centralized control, can achieve adjustment, manual and semi-automatic three working methods: four-column hydraulic press working pressure, pressing speed, the stroke and range of fast descending and decelerating without load can be adjusted according to the needs of the process, and the ejection process can be completed. The ejection process and the drawing process can be carried out in three ways, each of which is a constant pressure and a fixed stroke, the constant pressure forming process has ejection delay and automatic return after pressing. Characteristics of four-column hydraulic press. Four-column hydraulic press is the use of pressure to shape objects under pressure. The medium of pressure is hydraulic oil. The structure of four-column hydraulic press is simple, economical and practical. OCTAGONAL SHAPE for appearance. Four-column hydraulic machine control electrical box with glass door, PLC computer control or general electrical two, with reliable work, reliable, intuitive action, easy maintenance. Single Button centralized control. It has two operation modes of adjustment and single circulation of both hands. Four-column hydraulic press hydraulic control can be integrated with cartridge valve system, reliable action, long service life, hydraulic impact is small, reducing the connection pipeline and leakage point, or ordinary hydraulic control two kinds. III. Four-column hydraulic press common faults and maintenance methods four-column hydraulic press common faults and maintenance methods: In winter and worse working conditions, four-column hydraulic press system to check, maintenance, often change the working oil. Great attention should be paid to the storage and transportation of the working oil of four-column hydraulic press. The oil drums shall be marked and covered. In winter, do not pay attention to the air condensed into water and oil, do not rust the barrel into the rust pieces. In winter, the four-column hydraulic engine and other mechanical systems to take a number of preventive measures, such as covering anti-freezing, heating and heat preservation, the use of low viscosity oil, etc. , are applicable to the hydraulic system. In the four-column hydraulic press Hydraulic drive system, are some of the more sophisticated parts. Although people feel labor-saving and convenient to the hydraulic transmission of four-column hydraulic press, they also feel that it is easy to be damaged. The main reason is that the working principle and structure characteristics of four-column hydraulic press are not clear. Hydraulic systems have three basic disease-causing factors: pollution, overheating, and entering the air. These three disadvantages are closely interrelated, and the occurrence of any one of them will be associated with the emergence of another problem or problems. By practice, 75% of the hydraulic system pathogenic reasons, are caused by these three. 1. The working oil of the four-column hydraulic press is spoiled because of entering the dirt 2. Overheating 3. Entering the air solution: the Cleaning and assembly of some major precision parts in the four-column hydraulic press system should be carried out in a very clean room, indoor should have clean floor and airtight door window, the temperature had better keep in 200C or so. IV. Four-column hydraulic press common general maintenance method four-column hydraulic press common general maintenance method (1) four-column hydraulic press action failure electrical wiring is not firm or wrong connection check electrical (2) four-column hydraulic press slipper crawl 1 system accumulated air or pump suction 2 precision adjustment or column Oil 1 check whether the pump suction pipe is in air or not, then move up and down several times and add oil on the 2 columns, readjust the accuracy (3) when the sliders of the four-column hydraulic press descend slowly, the pressure supporting force is too large to adjust the back pressure valve so that the upper chamber of the upper cylinder does not have pressure, the maximum is not more than 1 MPA, four-column hydraulic press after stopping the slide block under serious 1 CYLINDER MOUTH SEAL RING leakage pressure valve adjustment pressure is too small or pressure mouth is not strict 1 watch cylinder mouth, SEND OIL AND GAS 2 adjust pressure check valve mouth 5. Pressure gauge needle of four-column hydraulic press swings badly 1 pressure gauge oil circuit has air 2 pipeline mechanical vibration pressure gauge damage 1 slightly loosen the pipe joint when the pressure is up, 2 deflates the pipe 2 fastens the pipe 3 replace the pressure Gauge 6. Four-column hydraulic press high pressure travel speed is not enough, up pressure slow 1 high pressure pump flow regulation too small 2 pump wear or burn 3 system leakage serious 1 according to the pump manual adjustment, pUMP ECCENTRICITY can be adjusted to 5 bar 2 at 25 MPA. The pressure drop of four-column hydraulic press is too fast when keeping pressure 1. The valves involved in keeping pressure are not strict or the pipeline is leaking 2. The sealing ring in the cylinder is damaged 1. Check the filling valve, the sealing research of the pressure-keeping Relief Valve 2. Replace the sealing ring 8. The utility model relates to a screw four-column hydraulic press, which belongs to the field of hydraulic press, in particular to a hydraulic press with screw drive, the task of which is to provide a transmission device, the main nut thread is forced only when the slide block presses the workpiece, and the main nut is not pushed by the hydraulic cylinder during the non-pressing workpiece stroke of the slide block, so that the lubricating oil is filled into the screw bearing surface. The screw Rod is located at the center axis of the machine body and is mounted on the machine body through the bearing. The upper end of the screw rod is connected with the inertia wheel, the main nut is matched with the lower part of the screw Rod, and is connected with the main slide block through the main flange The auxiliary nut is matched with the middle part of the screw Rod, and is connected with the auxiliary slide block through the auxiliary flange. The guide rail is mounted symmetrically in a central axis in the screw four-column hydraulic press, and the main slide block and the auxiliary slide block are slidily connected along the Guide Rail, the end of the Piston Rod of the hydraulic cylinder is hinged with the auxiliary sliding block, which can improve the lubrication condition of the nut and screw and prolong the service life of the screw four-column hydraulic press. About the hydraulic station of four-column Hydraulic Press: The working principle of the hydraulic station of four-column hydraulic press is as follows: the motor drives the oil pump to rotate, the pump draws oil from the oil tank, converts the Mechanical Energy into the hydraulic oil pressure energy, the hydraulic oil is transmitted to the hydraulic machinerys cylinder or motor through the external pipeline after the direction, pressure and flow are adjusted by the hydraulic valve through the Integrated Block (or valve combination) , it controls the change of direction, force and speed of hydraulic motor, and drives all kinds of hydraulic machinery.Four-column hydraulic press hydraulic station also known as hydraulic pump station, is an independent hydraulic device. It provides oil according to the requirements of the main engine, and controls the direction, pressure and flow of oil flow. It is suitable for the main engine and hydraulic equipment can be separated on a variety of four-column hydraulic press. As long as the user purchase the press station and the host on the executive body (cylinder or motor) connected with the tubing, hydraulic machinery can achieve a variety of specified action, working cycle. The hydraulic station of the four-column hydraulic press is composed of a pump device, a manifold or a valve combination, a fuel tank and an electrical box. The functions of each component are as follows: The pump device is equipped with a motor and an oil pump, which is the power source of the hydraulic station of the four-column Hydraulic Press and converts the Mechanical Energy into the pressure energy of the hydraulic oil. Manifold block-is composed of hydraulic valve and Channel Body. It can adjust the direction, pressure and flow of the hydraulic oil. Valve assembly-is a plate valve mounted on a vertical plate, connected to the pipe behind the plate, with the same function as the manifold block. TANK-A semi-closed, plate-welded vessel with a filter air filter, etc. . It is used for storage, cooling and filtration of oil. Electrical box-in two forms. One is a Terminal Board with external leads; the other is equipped with a complete set of control appliances. Four column Hydraulic Press Pressure is small what reason: 1. Is the oil in the cylinder of the four-column hydraulic press dirty? 2. Are you holding it in? Pressure activated? 3. Four-column hydraulic time long, loose parts with, internal leakage? 1, four-column hydraulic pump wear serious, large internal leakage. 2. Relief Valve malfunctions and is normally open. 3. Directional valve internal leakage is large. 4, four-column hydraulic machine implementation of the original leakage inside the large, small pump pressure. The application of four-column hydraulic forming technology four-column hydraulic forming technology has a wide range of applications in automobile, aviation, aerospace and pipeline industries, the hydraulic forming technology of four-column hydraulic press is mainly applicable to the hollow structure with round, rectangular or special section which varies along the component axis, such as the special-shaped pipe fittings of automobile exhaust system, the hollow frame with non-circular section, such as engine bracket, instrument panel bracket, body frame (about 11% 15% of the vehicle mass) , hollow shaft parts and complex pipe fittings. The suitable materials for four-column hydraulic forming process include carbon steel, stainless steel, aluminum alloy, copper alloy and nickel alloy. In principle, the materials suitable for cold forming are all suitable for four-column hydraulic forming process. Four-column hydraulic system four-column hydraulic press is the use of hydraulic transmission technology for pressure processing equipment, can be used to complete a variety of forging and pressure forming process. For example, steel forging, metal structural parts of the molding, plastic products and rubber products, and so on. Four-column hydraulic press is one of the earliest machines to use hydraulic transmission. At present, hydraulic transmission has become the main transmission form of pressure processing machinery. Four-column hydraulic press in Heavy Machinery Manufacturing, aviation industry, plastic and Non-ferrous metal processing industries, four-column hydraulic press has become an important equipment. On the four-column hydraulic press non-pressure problem: Q: four-column hydraulic press does not rise, starting up switch has 10MM action, rise after non-pressure, sliding work, how is it? Answer: Check the four-column hydraulic pump outlet pressure, control system pressure, whether the support valve is stuck. The Piston slipping is related to the insufficient supporting force of the lower chamber, and the non-pressure keeping may be the leakage of the relief valve of the four-column hydraulic press. Four-column hydraulic press system is relatively simple, do not consider overhauling too much trouble. The difference between four-column hydraulic press and pneumatic press the difference between four-column hydraulic press and pneumatic press the pneumatic press has noise, small force, easy maintenance will not leak oil; four-column hydraulic press quiet, strong, slightly more complex maintenance. Its all about the APP. The steel workshop noise is already quite big, may not consider the noise factor. If the force requirements are relatively large, then choose four-column hydraulic press. If, the force requirement is not so big (50kg or less) the barometric pressure is good, is also cheap. The drawing cylinder of the four-column hydraulic press adopts fast cylinder, the speed can reach 280 mm / s, the drawing force can reach 1000 KN, the blank holding force can reach 800 Kn, and the speed and pressure can be adjusted in the prescribed range, users can choose the best drawing speed and blank holder force according to their needs, and can draw out all kinds of products such as high quality stainless steel, which is the ideal equipment for sheet metal drawing. The oil supply system of the Hydraulic Chamber of the four-column hydraulic press is required to meet the technical requirements of hydraulic forming, and the system is not too complicated. Its action as follows: Motor start, pump to oil by the reversing valve flow back to the oil tank, pump unloading. When 1DT power, oil through the valve, one-way valve into the oil plate will be pressed into the Matrix and forming. At the end of the forming, 1DT POWER CUT, 2DT power, oil into the oil injection through the supercharger cylinder, under the action of ultra-high pressure, the sheet metal further close to the concave die to form its small round corner. The key of the hydraulic system of the four-column hydraulic press is frequency converter 5 and supercharger cylinder 10. In the process of hydraulic forming, the working flow and pressure provided to the hydraulic chamber by the hydraulic system should be constantly changing according to the requirements of the process, therefore, the power consumed by the hydraulic system should also be changing with the change of the working flow and pressure. Describe the General Mechanical Theory of pressure transfer before proceeding to analyze the phenomenon of pressure shock and to rationalize the fluid equation. It is necessary to transport the liquid between two energy sources by taking part in this result about valve positioning at a longer point with little friction in the pipeline. The valve is connected to the same downstream pipe section as to the upstream pipe section. The pressure impingement flow will be passed between the two lines through the valve operation, assuming that the valve closing speed should not be applied to the solid circle theory. If the valve is closed and the flow of the liquid is in the opposite direction, it moves slowly, resulting in the compression of the liquid and the expansion of the cross section of the pipe. The increased pressure in the valve causes the high-pressure liquid to flow in reverse, extending the time it takes for the liquid to flow through the pipe to the valve. The flow of this high-pressure liquid similar to the propagation of sound, is dependent on the liquid and pipe materials as a medium. Similarly, a delay in the downstream flow of the valve will result in a reduction in pressure at the valve. This result denies that the flow of a high pressure liquid is along a downstream pipe, preventing the flow of the liquid, assuming that the fluid pressure in the downstream pipe does not reduce the fluid pressure or the vapor pressure or the pressure released by the dissolved gas, the considerations of willingness are different. Thus, the closed valve causes the flow of high-pressure fluid to flow along the pipe, although those flows have various symptoms. The flow of pressure relative to the stability of the valve through the open pipe. This effect is related to the liquid flow delay between the two cross-sections of the pipe, the pipe itself is affected due to the reverse high pressure liquid, pipe wall expansion. At the same time, the downstream pipe is shortened and the large cross-section deformation of the pipe due to the reduced pressure flowing through the liquid is due to the pipe material and can be demonstrated. For example, use thin-walled rubber tubing. The high-pressure liquid moves along the flow. It has been proved that the velocity of the liquid is close to that of sound due to the tension flow of the liquid along the pipe wall. In this piping material, however, this is a secondary role, and when it is recognized that its presence can explain part of the pressure transfer time as the valve closes, it has little effect on the application of pressure standards in pressure impact phenomena. After the valve is closed, the time of compression will depend primarily on the system boundary conditions, which will be easily illustrated in a number of charts to depict the results of the valve closure on the same system, what happens to the pipeline at each time period. Since the valve closure is instantaneous, a valve with liquid close to each pipe section will bring the valve to a stop, and high-pressure fluid flow may have already passed through each pipe section. At the appropriate velocity C and at time t, the liquid has passed a distance of 1 ct, and in each segment, the Cross section of the pipe is deformed at a distance of 1. The time for the high pressure liquid to reach the storage station is t 1 / C, and an unstable position appears in this distance, which is at the junction of the pipeline and the storage station. Since it is not possible to have laminar flow at the junction of the stations, the maintaining pressure and other values flow through each station before the valve is closed.四柱液壓機(jī)一.四柱液壓機(jī)用途四柱液壓機(jī)適用于可塑性材料的壓制工藝。如粉末制品成型、塑料制品成型、冷(熱)擠壓金屬成型、薄板拉伸以及橫壓、彎壓、翻透、校正等工藝。二.四柱液壓機(jī)特點四柱液壓機(jī)具有獨立的動力機(jī)構(gòu)和電氣系統(tǒng),采用按鈕集中控制,可實現(xiàn)調(diào)整、手動及半自動三種工作方式:四柱液壓機(jī)的工作壓力、壓制速度,空載快下行和減速的行程和范圍,均可根據(jù)工藝需要進(jìn)行調(diào)整,并能完成頂出工藝,可帶頂出工藝、拉伸工藝三種工藝方式,每種工藝又為定壓,定程兩種工藝動作供選擇,定壓成型工藝在壓制后具有頂出延時及自動回程。四柱液壓機(jī)的特點。四柱液壓機(jī)就是利用壓力使物體受壓成形。提供壓力的介質(zhì)是利用液壓油。四柱液壓機(jī)結(jié)構(gòu)簡單、經(jīng)濟(jì)、實用。外觀采用八角形狀。四柱液壓機(jī)控制電器箱采用玻璃門、PLC電腦控制或普通電器兩種,具有工作可靠,工作可靠,動作直觀,維修方便。獨立按扭集中控制。具有調(diào)整、雙手單次循環(huán)二種操作方式。四柱液壓機(jī)液壓控制可采用插裝閥集成系統(tǒng),動作可靠,使用壽命長,液壓沖擊小,減少了連接管路與泄露點,或普通液壓控制兩種。三.四柱液壓機(jī)的常見故障和維護(hù)方法四柱液壓機(jī)的常見故障和維護(hù)方法:在冬季和較壞的工況下,要對四柱液壓機(jī)系統(tǒng)勤檢查、勤保養(yǎng),常換工作油液。對四柱液壓機(jī)工作油的儲存和轉(zhuǎn)運工作應(yīng)十分注意。盛油桶應(yīng)加專門的標(biāo)志并掩蓋好。在冬季,要注意桶內(nèi)勿因空氣冷凝成水分而混入油中,勿將桶皮生銹的銹片落入桶內(nèi)。冬季對四柱液壓機(jī)發(fā)動機(jī)與其他機(jī)械系統(tǒng)所采取的多項預(yù)防措施,如掩蓋防凍、加熱保溫、換用低黏度工作油等,均適用于液壓系統(tǒng)。在四柱液壓機(jī)液壓傳動系統(tǒng)中,都是一些比較精密的零件。人們對四柱液壓機(jī)的液壓傳動雖然覺得省力方便,但同時又感到它易于損壞。究其原因,主要是不太清楚四柱液壓機(jī)工作原理和構(gòu)造特性,從而也不大了解其預(yù)防保養(yǎng)的方法.液壓系統(tǒng)有3個基本的“致病”因素:污染、過熱和進(jìn)入空氣。這3個不利因素有著密切的內(nèi)在聯(lián)系,出現(xiàn)其中任何一個問題,就會連帶產(chǎn)生另外一個或多個問題。由實踐證明,液壓系統(tǒng)75%“致病”的原因,均是這三者造成的。1、 四柱液壓機(jī)工作油液因進(jìn)入污物而變質(zhì)2、 過熱3、 進(jìn)入空氣解決方法:對四柱液壓機(jī)系統(tǒng)中一些主要精密件的清洗和裝配,均應(yīng)在十分清潔的室內(nèi)進(jìn)行,室內(nèi)應(yīng)有干凈的地板和密閉的門窗,溫度最好保持在200C左右。四.四柱液壓機(jī)常見的一般維修方法四柱液壓機(jī)常見的一般維修方法(1)四柱液壓機(jī)動作失靈電氣接線不牢或接錯檢查電氣(2)四柱液壓機(jī)滑塊爬行1系統(tǒng)內(nèi)積存空氣或泵吸空2精度調(diào)整不當(dāng)或立柱缺油1檢查泵吸油管是否進(jìn)氣,然后多次上下運動并加壓2立柱上加機(jī)油,重新調(diào)整精度(3)四柱液壓機(jī)滑塊慢速下行時帶壓支撐力過大調(diào)整背壓閥使上缸上腔不帶壓,最大不大于1MPa,四柱液壓機(jī)停車后滑塊下溜嚴(yán)重1缸口密封環(huán)滲漏壓力閥調(diào)整壓力太小或壓口不嚴(yán)1觀察缸口,發(fā)油放氣2調(diào)整壓力檢查閥口五.四柱液壓機(jī)壓力表指針擺動厲害1壓力表油路內(nèi)存有空氣2管路機(jī)械振動壓力表損壞1上壓時略擰松管接頭,放氣2將管路卡牢3更換壓力表六.四柱液壓機(jī)高壓行程速度不夠,上壓慢1高壓泵流量調(diào)得過小2泵磨損或燒傷3系統(tǒng)內(nèi)漏嚴(yán)重1按泵的說明書進(jìn)行調(diào)整,在25MPa時泵偏心可調(diào)調(diào)至5格2若泵回油口漏損大時,應(yīng)拆下檢查.七.四柱液壓機(jī)保壓時壓降太快1參與保壓之各閥門不嚴(yán)或管路漏油2缸內(nèi)密封環(huán)損壞1檢查充液閥,保壓泄壓閥之密封研合情況2更換密封環(huán)八.關(guān)于螺旋四柱液壓機(jī)關(guān)于螺旋四柱液壓機(jī):本實用型的螺旋四柱液壓機(jī),屬于液壓機(jī)領(lǐng)域,特別涉及螺旋傳動的液壓機(jī),其任務(wù)是提供一種傳動裝置,使主螺母螺紋只在滑塊壓制工件時受力,而在滑塊的非壓制工件行程中,主螺母不受液壓缸推力作用,以便讓潤滑油被充到螺旋承壓面內(nèi)。本螺旋四柱液壓機(jī),螺桿位于機(jī)身中心軸位置并通過軸承安裝在機(jī)身上,螺桿上端與慣性輪聯(lián)接為一體,主螺母配合于螺桿下段,通過主法蘭與主滑塊聯(lián)接為一體;副螺母配合于螺桿中段,通過副法蘭與副滑塊聯(lián)接為一體,螺旋四柱液壓機(jī)內(nèi)以中心軸對稱安裝導(dǎo)軌,主滑塊、副滑塊沿導(dǎo)軌滑動連接,液壓缸以機(jī)身中心軸對稱安裝在機(jī)身上,液壓缸之活塞桿端部與副滑塊鉸支聯(lián)接,可以改善螺母、螺桿的潤滑工況,延長螺旋四柱液壓機(jī)使用壽命。關(guān)于四柱液壓機(jī)的液壓站:四柱液壓機(jī)液壓站的工作原理如下:電機(jī)帶動油泵旋轉(zhuǎn),泵從油箱中吸油后打油,將機(jī)械能轉(zhuǎn)化為液壓油的壓力能,液壓油通過集成塊(或閥組合)被液壓閥實現(xiàn)了方向、壓力、流量調(diào)節(jié)后經(jīng)外接管路傳輸?shù)揭簤簷C(jī)械的油缸或油馬達(dá)中,從而控制了液動機(jī)方向的變換、力量的大小及速度的快慢,推動各種液壓機(jī)械做功.四柱液壓機(jī)液壓站又稱液壓泵站,是獨立的液壓裝置。它按主機(jī)要求供油,并控制油流的方向、壓力和流量,它適用于主機(jī)與液壓裝可分離的各種四柱液壓機(jī)上。用戶購后只要將壓站與主機(jī)上的執(zhí)行機(jī)構(gòu)(油缸或油馬達(dá))用油管相連,液壓機(jī)械即
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