鉆鏜兩用組合機床液壓系統(tǒng)的設計【含CAD圖紙和說明書】
鉆鏜兩用組合機床液壓系統(tǒng)的設計【含CAD圖紙和說明書】,含CAD圖紙和說明書,兩用,組合,機床,液壓,系統(tǒng),設計,cad,圖紙,以及,說明書,仿單
鎮(zhèn) 江 高 專
ZHENJIANG COLLEGE
畢 業(yè) 設 計 (論 文)
鉆、鏜兩用組合機床液壓系統(tǒng)的設計
Drilling and boring amphibious combination machine tools hydraulic system design
系 名:
專業(yè)班級:
學生姓名:
學 號:
指導教師姓名:
指導教師職稱:
二〇**年 六月
任務書
課題名稱
鉆、鏜兩用組合機床液壓系統(tǒng)設計
同組學生姓名
需要全套資料請直接聯(lián)系扣扣(QQ):1969043202
設計(研究)內容:
設計一套液壓系統(tǒng),能完成快進-工進-死擋鐵停留-快退-原位停止的工作循環(huán),并完成工件的定位與夾緊。機床的快進速度為5m/min,快退速度與快進速度相等。工進要求是:能在20~100mm/min范圍內無級調速。最大行程為500mm,工進行程為300mm。最大切削力為12000N。運動部件自重為20000N。導軌水平放置。工件所需夾緊力不得超過6500N,最小不低于4000N。夾緊缸的行程為50mm,由松開到夾緊的時間△t1=1s,啟動換向時間△t2=0. 2s。
符合以下要求,方可參加答辯:
(1)液壓系統(tǒng)原理圖及速度循環(huán)圖、負載循環(huán)圖、電磁閥動作循序表 一張A1
(2) 液壓缸裝配圖 一張A1
(3)液壓缸主要零件的零件圖 五張A3
(4) 設計計算說明書,字數(shù)不少于5000字 一份
(5)以上資料打印稿和電子版(圖紙用AutoCAD2004版本存盤、說明書及任務書用Word2003存盤)各一份
參考文獻:
1. 《液壓傳動》 丁樹模主編 機械工業(yè)出版社
2. 《液壓與氣壓傳動》 左健民主編 機械工業(yè)出版社
3. 《液壓與氣動技術》 張宏友主編 大連理工大學出版社
4. 《液壓系統(tǒng)設計簡明手冊》 楊培元、朱福元主編 機械工業(yè)出版社
5. 《液壓傳動設計指南》 張利平主編 化學工業(yè)出版社
6. 《液壓與氣壓傳動》 游有鵬主編 科學出版社
目錄
引言 4
第一章 設計任務 6
1.1要求 6
1.2功能分析、需求設計 6
第二章 工況分析 7
2.1運動參數(shù)分析 7
2.2動力參數(shù)分析 7
第三章 計算液壓缸尺寸和所需流量 9
3.1工作壓力的確定 9
3.2計算液壓缸的尺寸 9
3.3確定液壓缸所需的流量 11
3.4夾緊缸的有效工作面積、工作壓力和流量的確定 11
第四章 液壓系統(tǒng)圖的擬定 13
4.1確定執(zhí)行元件的類型 13
4.2換向方式確定 13
4.3調速方式的選擇 13
4.4快進轉工進的控制方式的選擇 13
4.5終點轉換控制方式的選擇 13
4.6實現(xiàn)快速運動的供油部分設計 14
4.7夾緊回路的確定 14
第五章 選擇液壓元件 16
5.1選擇液壓泵 16
5.2選擇閥類元件 17
5.3 確定油管尺寸 17
5.4確定郵箱容量 18
第六章 計算壓力損失和壓力閥的調整值 20
6.1沿程壓力損失 20
6.2局部壓力損失 20
6.3總的壓力損失 21
結論 22
致謝 23
參考文獻 24
鉆、鏜兩用組合機床液壓系統(tǒng)的設計
摘要 液壓傳動是以液壓油為工作介質,通過動力元件將原動機的機械能變?yōu)橐簤河偷膲毫δ?,再通過控制元件,然后借助執(zhí)行元件將壓力能轉換成機械能,驅動負載實現(xiàn)直線或回轉運動。液壓系統(tǒng)是液壓設備的重要組成部分,它與設備主體的關系密切,兩者的設計通常需要同時進行。本次設計介紹了液壓系統(tǒng)的設計過程,具體講解了設計的步驟,分析了液壓系統(tǒng)的功能設計、需求分析所達到的目的,介紹總體設計方案的擬定方法、液壓系統(tǒng)原理圖的擬定過程、液壓元件的選擇方法及液壓系統(tǒng)性能驗算方法。液壓系統(tǒng)設計原則是:深入調研,充分認識設備應具有的功能,從而分解出液壓系統(tǒng)的詳細設計需求;同時應注意設備的特殊性,吸取國內外先進技術,力求設計出的系統(tǒng)有質量輕、體積小、效率高、結構簡單等優(yōu)點。
關鍵詞 液壓傳動 功能設計 液壓系統(tǒng)原理圖 性能驗算
Drilling and boring amphibious combination machine tools hydraulic system design
Abstract Hydraulic system is an important part of hydraulic equipment, It with equipment subject closely, both the design usually need to simultaneously. Introduced the design of hydraulic systems design process, explain in detail the design steps, analyzes the functional design of hydraulic system, which achieved the goal of needs analysis, introduces the overall design scheme, the proposed method, the hydraulic system diagram formulating process, hydraulic components selection method, and hydraulic system performance calculating method. Hydraulic system design principle is: the in-depth research, fully realize the equipment should have the function of the hydraulic system, thereby decomposition of detailed design demand; And should also pay attention to the particularity of equipment, draw domestic and international advanced technology, and strive to design a system has light quality, small volume, high efficiency, simple structure, etc.
Key words Functional design hydraulic system diagram performance checked
鎮(zhèn) 江 高 專
ZHENJIANG COLLEGE
畢 業(yè) 設 計 任 務 書
題 目∶ 鉆、鏜兩用組合機床液壓系統(tǒng)設計
系 名: 機械工程系
專業(yè)班級: 機電W071
學生姓名: 甘迪
學 號: 070108134
指導教師姓名: 戴月紅
指導教師職稱: 講師
二○一二年 二 月 十五 日
課題名稱
鉆、鏜兩用組合機床液壓系統(tǒng)設計
同組學生姓名
無
設計(研究)內容:
設計一套液壓系統(tǒng),能完成快進-工進-死擋鐵停留-快退-原位停止的工作循環(huán),并完成工件的定位與夾緊。機床的快進速度為5m/min,快退速度與快進速度相等。工進要求是:能在20~100mm/min范圍內無級調速。最大行程為500mm,工進行程為300mm。最大切削力為12000N。運動部件自重為20000N。導軌水平放置。工件所需夾緊力不得超過6500N,最小不低于4000N。夾緊缸的行程為50mm,由松開到夾緊的時間△t1=1s,啟動換向時間△t2=0. 2s。
符合以下要求,方可參加答辯:
(1)液壓系統(tǒng)原理圖及速度循環(huán)圖、負載循環(huán)圖、電磁閥動作循序表 一張A1
(2) 液壓缸裝配圖 一張A1
(3)液壓缸主要零件的零件圖 五張A3
(4) 設計計算說明書,字數(shù)不少于5000字 一份
(5)以上資料打印稿和電子版(圖紙用AutoCAD2004版本存盤、說明書及任務書用Word2003存盤)各一份
參考文獻:
1. 《液壓傳動》 丁樹模主編 機械工業(yè)出版社
2. 《液壓與氣壓傳動》 左健民主編 機械工業(yè)出版社
3. 《液壓與氣動技術》 張宏友主編 大連理工大學出版社
4. 《液壓系統(tǒng)設計簡明手冊》 楊培元、朱福元主編 機械工業(yè)出版社
5. 《液壓傳動設計指南》 張利平主編 化學工業(yè)出版社
6. 《液壓與氣壓傳動》 游有鵬主編 科學出版社
進 度 計 劃 表
序號
起止 日期
計劃完成內容
實際完成情況
檢 查 日 期
檢查人簽名
1
2.15-2.28
了解設計內容, 了解必要的設計步驟和方法,確定總體方案。
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
2
3.1-3.15
完成設計核心內容的計算,初定系統(tǒng)原理圖和油缸的形式。
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
3
3.16-3.31
完成畢業(yè)設計論文初稿。 (包括設計說明書的輸入及編輯等)
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
4
4.1-4.15
設計液壓缸的結構,在計算機上繪制所有圖紙。(包括系統(tǒng)原理圖,液壓缸裝配圖及主要零件圖)
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
5
4.16-4.30
設計說明書及圖紙第一次修改補充。
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
6
5.1-5.31
設計說明書及圖紙第二次修改補充。
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
7
6.1-6.19
完善并打印提交全部資料。(含電子版)
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
8
6.20-6.23
作好答辯前的準備工作。
1、提前完成 ( )
2、按時完成 ( )
3、基本完成 ( )
4、未完成 ( )
畢業(yè)設計(論文)評語及評分(指導教師專用)
學生姓名
甘迪
專業(yè)班級
機電W071
總 分
評 分 內 容
評 分 等 級
好
較好
一般
差
應用文獻資料和調研能力
分析與解決問題的能力(包括計算方法、數(shù)據(jù)處理等)
計算機能力(包括編程、數(shù)據(jù)、圖形及文字處理)
論文質量(論點、論據(jù)、實驗分析、推理、深度等)
設計質量(方案、技術路線、設計水平、圖面質量等)
工作量、工作態(tài)度
技術經(jīng)濟分析能力(包括技術可靠性、經(jīng)濟合理性的分析評價)
創(chuàng)新 (包括創(chuàng)新意識、獨特見解)
寫作的規(guī)范性
指導教師評語:
該同學在畢業(yè)設計期間,設計態(tài)度(端正、較好、尚可、較差),(能、基本能、不能)遵守畢業(yè)設計紀律和相關規(guī)定,(設計工作量(多、飽滿、較輕、不足),(完成、基本完成、沒用完成)相關的畢業(yè)實習和調研任務,(能較好地、尚能、不能)處理好畢業(yè)設計與工作實習的關系。
該同學(獨立、基本獨立、根據(jù)參考、不能獨立)完成畢業(yè)設計規(guī)定的任務。設計方案(正確、基本正確、尚正確、不夠正確),結構(合理、較合理、尚合理、不夠合理);圖面質量(好、較好、一般、較差);說明書的寫作(規(guī)范、較規(guī)范、尚規(guī)范、不夠規(guī)范),計算能力(好、較好、一般、尚可、較差)。
本設計已達到的標準為(優(yōu)秀、良好、中等、及格、不及格)。
指導教師簽字:
年 月 日
注:各評語在相應的檔次上畫上“√”。
畢業(yè)設計(論文)評語及評分(主審教師專用)
學生姓名
甘迪
專業(yè)班級
機電W071
總 分
評 分 內 容
評 分 等 級
好
較好
一般
差
總體設計方案
零部件設計方案
圖
紙
質
量
和
有
關
技
術
標
準
視 圖
圖紙幅面
標注
技術條件
標題欄
明細欄
圖號
說
明
書
質
量
格式的規(guī)范性
內容的完整性
分析的正確性
深 度
創(chuàng) 新
其它(資料袋、裝訂要求等)
備注:
主審教師簽字:
注:各評語在相應的檔次上畫上“√”。
年 月 日
畢業(yè)設計(論文)評語及評分(答辯小組專用)
學生姓名
甘迪
專業(yè)班級
機電W071
總 分
評 分 內 容
評 分 等 級
好
較好
一般
差
學生陳述清楚、精練、正確、邏輯性強
論文質量(論點、論據(jù)、實驗分析、推理、深度、創(chuàng)新等)
設計質量(方案、技術路線、設計水平、圖面質量、創(chuàng)新等)
問題:
1、
2、
3、
答辯小組意見:
該同學設計方案(正確、基本正確、尚正確、不夠正確),結構(合理、較合理、尚合理、不夠合理);圖面質量(好、較好、一般、較差);說明書寫作(規(guī)范、較規(guī)范、尚規(guī)范、不夠規(guī)范)。在答辯中的陳述(清楚、較清楚、尚清楚、不夠清楚) ,對所提問題的回答(正確、基本正確、尚正確、不夠正確), 對基礎知識和專業(yè)知識的基本掌握(好、較好、一般、尚好、較差),(已達到、未達到)畢業(yè)設計的要求。
答辯小組成員:
答辯小組組長 年 月 日
最 終 評 定 成 績
注:各評語在相應的檔次上畫上“√”。
5
翻譯部分
英文原文:
HYDRAULIC SYSTEM
Hydraulic systems are power-transmitting assemblies employing pressurized liquid to transmit energy from an energy-generating source to an energy-use area. All hydraulic systems depend on Pascal’s law, named after Blaise Pascal, who discovered the law. This law states that pressurized fluid within a closed container-such as cylinder or pipe-exerts equal force on all of the surfaces of the container.
In actual hydraulic systems, Pascal’s law defines the basis of the results which are obtained from the system. Thus, a pump moves the liquid in the system. The intake of the pumps connected to a liquid source, usually called the tank or reservoir. Atmospheric pressure, pressing on the liquid in the reservoir, forces the liquid into the pump. When the pump operates, it forces liquid from the tank into the discharge pipe at a suitable pressure.
The flow of the pressurized liquid discharged by the pump is controlled by valves. Three control functions are used in most hydraulic systems: (1) control of the liquid pressure, (2) control of the liquid flow rate, and (3) control of the direction of flow of the liquid.
The liquid discharged by the pump in a fluid-power system is directed by valves to a hydraulic motor. A hydraulic motor develops rotary force and motion, using the pressurized liquid as its energy source. Many hydraulic motors are similar to pumps, except that the motor operates in a reverse manner from a pump.
Where linear instead of rotary motion is desired, a cylindrical tube fitted with a movable piston, called a hydraulic cylinder, is often used. When the piston is moved by the pressurized fluid, the piston rod imparts a force or moves an object through a desired distance.
Restricting the movement of the piston in a hydraulic cylinder, as when the piston carries a load, creates a specific pressure relationship within the cylinder. The surface area of the piston face is said to contain a specific number of square inches. The pressure of the pressurized liquid, multiplied by the piton area, produces an output force, measured in pound, at the end of the piston rod.
The speed of movement of the piston rod depends on how fast the pressurized fluid enters the cylinder. Flow into the cylinder can be directed to either end, producing either a pushing or pulling force at the piston rod end. A seal around the rod where it passes through the cylinder end prevents leakage of the liquid.
Directional control of the piston depends on which end of cylinder the liquid enters. As pressurized liquid enters one end of the cylinder, liquid must be drained from the other end. The drained liquid is led back to the reservoir. In a pneumatic system using air, the air in the exhausting end of the cylinder is vented to the atmosphere.
Directional-control valves, also called two-way, three-way, four-way, etc. , are named in accordance with their basic function. Pressure-control and simple restrictor valves are usually two-way valves. They provide ON or OFF service. A three-way valves may perform several functions, all associated with the three-ports in the valve. For example, the power or pressurized liquid from a pump in a tractor may be sent to the hydraulic system serving the tractor’s front-end loader. Or the three-way valve may send the pressurized liquid to a hydraulic motor driving a feed conveyor while the front-end loader is not being used.
Three-way valves may also be used to direct pressurized fluid to a single-acting hydraulic cylinder. As the three-way valve is actuated (operated) it can stop the pressurized flow to the cylinder. Further, the same valve can divert liquid from the cylinder to the reservoir, so the cylinder can retract by gravity or return springs and assume its original position.
A four-way valve has four ports or openings. The pressure port directs fluid flow to an area where pressurized liquid is desired. One of the other ports can simultaneously drain liquid from a pressurized area. The dram liquid can be directed to the reservoir.
In a fluid-power system, the movement of pressurized fluid resembles the action of electric current in an electrical system. In such a system, electrical energy is continually moving when work is being done. The same is true of a fluid-power system.
In a direct-current electrical system, the speed of a device is varied by changing the flow of current to the device. Alternating-current system, use phase shifting to attain similar speed control. Hydraulic system can obtain infinite speed variations by several methods of control, Pneumatic systems, because of the springiness of the gas, have relatively crude speed control.
In fluid-power systems, the pump can be designed so the discharge flow of the pressurized liquid can be varied by manipulating the pump mechanism, giving varying speeds of the hydraulic motor or other output device. A restriction un the pump outlet can limit the fluid in a manner similar to that used in a direct-current electrical system. Where desired, hydraulic systems can be designed to use valves which divert flow to different flow channels to give the desired speed control.
The compressibility of hydraulic fluid is slight. But, if desired, this slight compressibility can be used to absorb small, erratic machine movements which cause pressure variations in a fluid-power system. Pneumatic systems have this capability inherently because of the springiness of the air or gas used in the system. Hydraulic systems may use one or more accumulators-devices which contain pressurized gas which can accommodate rapid pressure changes in the fluid portion of the system.
Gravity, springs and compressed gases provide potential energy I many hydraulic systems. Thus, gravity assist is often used to return a part to its original position without the use of power from the hydraulic system. This type of assistance also simplifies the parts in the hydraulic system.
Pumps Mechanical seal Measures.At present the mechanical seal in pumps in a kind of product the application extremely widespread, but and will save the energy along with the product technical level enhancement the request, the mechanical seal application prospect is more widespread. The mechanical seal seal effect directly will affect the entire machine movement, in particular in petroleum chemical industry domain, because will exist flammable, explosive, is easy to volatilize, to be violently poisonous and so on the medium.
? The mechanical seal appears will divulge, seriously will affect the production normally to carry on, is serious also appears the significant security accident. People when analysis quality breakdown reason, often is familiar with in the mechanical seal own aspect searches the reason, for example: Mechanical seal shaping whether appropriate, choice of material whether correct, the packing surface compared to presses whether correctly, rubs the vice- choice is whether reasonable and so on. But is short very much in the mechanical seal external condition aspect searches the reason, for example: Pumps for the mechanical seal creation condition whether appropriate, the servosystem disposition is whether appropriate, but these aspects reasons often are count for much.
This article author from pumped has analyzed the reasonable measure with the mechanical seal external condition angle which the influence seal effect several kind of factors and should adopt.1 Principle and request that machinery seals off:The mechanical seal is depends on a pair of relative motion link end surface A (fixed, another revolves together with axis) the mutual fitting forms the small axial play plays the seal role, this kind of equipment is called the mechanical seal. The mechanical seal usually by moves the link, the static link, contracts the part and the seal part is composed. Moves the link and the static link end surface composes a pair to rub, moves the link to depend on in the sealed chamber the liquid pressure to cause its shoulder up on the static link end surface, and produces on two links end surfaces suitable compared to presses and maintains an extremely thin liquid membrane to achieve the seal the goal. Contracts the part pressurize, may cause to pump under the operating condition, also maintains the end surface fitting, guaranteed the seal medium nothing more than leaks, and prevented the impurity enters seals the end surface. Seals the part to play the seal to move the link and axis gap B, the static link and the gland gap C role, simultaneously to the vibration which pumps, attacks the cushioning effect. The mechanical seal in the actual movement is not an isolated part, it is with other spare parts which pumps combines the movement together, simultaneously may see through its basic principle, the mechanical seal normal operation has the condition, for instance: Otherwise fleeing measures a pump spindle's being not able to very big, friction subsidiary end face can not form the ratio pressure demanding regularly; The pump spindle that machinery hermetic sealing gets along can not have boundary very big deflection , end face waits a minute otherwise than pressure will be uneven. Besides only when satisfying similar such external condition, fine machinery seals off oneself function, ability reaches ideal hermetic sealing effect.2 Analysis of causes that external condition affects:
Pump spindle axial to fleeing is measured big: The hermetic sealing that machinery seals off needs to have certain ratio pressure face to face, such ability plays arrive at hermetic sealing role, be requiring that spring that machinery seals off needs to have certain compression amounts right now, give a propulsive force sealing off end face, rotating makes hermetic sealing produce the pressure sealing off the what be demanded ratio face to face. For ensuring that this one is compared to pressure, the amounts machinery is sealed off requiring that the pump spindle can not have very big fleeing, need to ensure that within 0.5 mm in general. Design but middle in reality, unreasonable because of design, that sometimes, very big fleeing of pump spindle creation measure , seal off to machinery sigmatism is very disadvantageous. This phenomenon sometimes appears in multi-level centrifugal pump, Especially in the process of pump starting, flee amounts are comparatively big.
The automation changes the b balancing a set and balancing the axial gap between the ring when balance plate works , changes the difference balancing the pressure checking front and back two flanks thereby , produces one and comes to balance the axial force axial contrary force direction acting force. The inertia effect moving since the rotator flees and transient pump working condition fluctuation, the rotator moving round will not be motionless in some one axial balance location.Balance the state fleeing all the time in retinue to move. But the amounts balancing axial to fleeing in checking in regular job only have 0105 ~ 011 mm , satisfy permission axial to fleeing that machinery seals off measuring 015 mm requests, allowable machinery hermetic sealing axial to fleeing balancing axial to fleeing to measure possibility getting it in gear, when stopping machine , working condition great change in pump making rings round expects that.After pumps passes through the long time movement, the friction balancing a set and balancing a ring wears away , gap b enhances subsequently, the amounts sealing off axial to fleeing increase machinery unceasingly. Effect because of axial force, hermetic sealing compacting soft and floury sucking oblique tones in increases by strenuously , hermetic sealing wears the effect aggravating , sealing up completely until hermetic sealing damages , loses face to face away face to face.The machinery spitting out oblique tones is sealed off , is wear away with balancing plate's, rotator component axial to fleeing measures the amounts sealing off axial to fleeing demanding greater than , the force sealing off compacting soft and floury is diminished , cannot reach the effect sealing off a request , making the machinery hermetic sealing on both side of the pump all ultimately losing hermetic sealing.
The axial force is prejudiced big: Machinery hermetic sealing can bear the axial force's in the process of usage, if the effect that existence seals off axial the force , to machinery is grave. Since pump axial the aspect cause such as rational and making , assembling , being put into use that dynamic balance organization designs, brings about the axial force be not balanced away sometimes.Machinery hermetic sealing bears a axial force , the seal gland temperature will be partial to height when moving round, to the medium that polypropylene is similar to, before the high temperature be able to be molten down, the pump starts the queen therefore losing hermetic sealing effect very quickly right away , discontinuous gushing sealing off end face then appearing leaves out phenomenon when the pump is motionless.
pump spindles deflections are slanting big: That machinery hermetic sealing calls end face hermetic sealing, is that one kind of axis of rotation to contact-type moves hermetic sealing , it is under fluid medium and elasticity component effect , two perpendicularities reach hermetic sealing effect thereby in stick the small side door , relative rapid and intense axle centre line hermetic sealing end face revolution, demands to need to accept a force homogeneously between two hermetic sealing therefore.The machinery spitting out oblique tones is sealed off , is wear away with balancing plate's, rotator component axial to fleeing measures the amounts sealing off axial to fleeing demanding greater than , the force sealing off compacting soft and floury is diminished , cannot reach the effect sealing off a request , making the machinery hermetic sealing on both side of the pump all ultimately losing hermetic sealing.
not assisting irrigation system or assists irrigation system to interpose block of wood reasonableness: That assisting that machinery seals off washes system is very important , it can protect effects such as sealing off face , getting to the cooling , lubrication , washing away varia effectively. Design that allocation assists irrigation system, to be unable to reach hermetic sealing effect not rationally sometimes;Have foreign substance sometimes although designing that the personnel has designed auxiliary system, since in washing liquid, rate of flow , pressure washing liquid are insufficient , wash mouth location designing that wait for cause unreasonable , also same being unable to reach hermetic sealing effect.
vibration is slanting big: Machinery seals off vibration insisting to lead to big , ultimate losing hermetic sealing effect. That machinery seals off big slanting vibration cause sometimes is not that machinery seals off self cause but , other pump component and part is to produce the origin vibrating , waits for cause if the pump spindle designs that cause , axle bearing accuracy unreasonable , processing are insufficient , shaft coupling degree difference , radial force of equal rank are big.
Cause that the pump vapor erodes: The function is not good , the pump rotation rate is partial to height since device system operation is unreasonable and the pump entrance vapor erodes, that the vapor erodes , the vapor erodes the entry occurrence part in the pump the day afer tomorrow happened , is able to have air bubble in the water, that it may pound machinery on one hand seals off the outside surface soft and floury , makes it's surface damage appear on; That another aspect may make fitting that astiring sound is encircled by also contain air bubble in flow soft and floury film, can not form the stable flow film , brings about the trunk friction that fitting that astiring sound is encircled by face , makes machinery seal damage.
Machine work accuracy is insufficient: Machine work accuracy is insufficient , cause has many, the treating accuracy having plenty of machinery sealing self off is insufficient , this aspect cause finds also easy to pay attention to easy to arouse people. But the sometimes is a pump other component treating accuracy lack , this aspect cause, do not pay attention to easy to arouse people. For instance: Cause such as pump spindle , axle sleeve , the pump body , the accuracy lack sealing off enlarging of the cavity body. The hermetic sealing effect that these cause existence seals off to machinery is very disadvantageous.
responds to the measure adopting:Remove a pump spindle fleeing to measure big measure:Amounts designing that axial force balance is equipped with , removes axial to fleeing rationally. For satisfying this one request,have two to the multi-level centrifugal pump , the comparatively ideal design plan: One is that balance plate adds axial to stopping push axle bearing , balance the axial force from balance plate , carry out axial on the pump spindle from axial to stopping pushing axle bearing position-limit; Another is that the balance drum adds axial to stopping push axle bearing, axial force balancing away major part from the balance drum, axial surplus force bears from stopping pushing axle bearing , axial to stopping pushing axle bearing carries out axial on the pump spindle at the same time position-limit. Second kinds schemes key is to design the balance drum rationally, makes that be able to balance away the most axial force really. Wait for a product to opening a pump in other single stage pump,within amounts range sealing off range demanded by in machinery designing fleeing adopting a few measure guarantee pump spindles now and then.Remove big axial strenuously prejudiced measure:The organization designing axial dynamic balance rationally, makes that be able to balance away the axial force really sufficiently , being sealed up completely by machinery creates a favorable condition. Must achieve testing detecting and discovering problem and solve a problem before the product , unfinished products leave the factory to importance that fields such as a little electric power plant , petrochemical industry, applies. Some important pumps can design a axial to measuring the force ring on the rotator , monitor at any time to being on the march toward the force size scroll, discover a problem in time solve.Remove big prejudiced pump spindle deflection measure:Existence is in this phenomenon mostly in multi-level centrifugal pump of horizontal type, adopting the following measure time design:
(1) cuts down both ends distance between axle bearing. The pump impeller progression is not very more than , under the general pump lift request is comparatively good situation, try one's best to improve every level impeller lift, cuts down progression;
(2) increases the pump spindle diameter. During the period of the diameter designing a pump spindle, consider the size transferring power simplely only, do not but want the inertia factors such as load , radial force thinking that machinery seals off ,the axis deflection, starts method and being connected with. Much one point designing that not sufficient cognition arrives at this;
(3) improves pump spindle material grade;
(4) pump spindles are designed after being completed, the deflection to the pump spindle asks the checkout carrying out the core of school to secretly scheme against. Increases by assisting irrigation system:Under the situation that condition allows, system designing auxiliary irrigation to the full. Wash pressure general requirements overtoping 0107 ~ 011 MPa sealing off cavity pressure, if transportation medium belongs to easy vaporization, respond to 01175 ~ 012 MPa higher than vaporization pressure then. The pressure sealing off a cavity is going to secretly scheme against according to every kind of pump structure during the past factors such as pattern , system pressur
收藏