FG、FC型螺旋分級(jí)機(jī) Spiral classifier

國家行業(yè)標(biāo)準(zhǔn)  JB/T 53601

一、用途

該系列分級(jí)機(jī)適用于礦石、非金屬物料進(jìn)行脫水、脫介、脫泥和干濕式分級(jí)。

This classfiers suitable for  dewatering,medium,drainaging amd spraying in ore clressing for medium and fine  naterial wet and dry classifying in mine.

本機(jī)主要用于金屬選礦的生產(chǎn)流程中，依礦物顆粒泥降速度的不同，將14-325網(wǎng)目的礦石進(jìn)行粒度分級(jí)，也可以以礦石中分出廢泥或用于礦砂的脫水。

Such machine is mainly used in  the production flow of metal processing. According to the difference in  sedimentation rate of mineral particles and mud, the particle sizes of ores  with 14-325 meshes are classified. Waste mud or water for ore sand can be  separated from the ores.

二、機(jī)器的技術(shù)規(guī)范

本機(jī)根據(jù)螺旋數(shù)量的不同，有單螺旋和雙螺旋之分，同時(shí)還有高堰式和沉沒式的區(qū)分，如溢流邊堰高于螺旋軸中心線，且低于溢流端部螺旋的外徑則為高堰式;如溢流邊堰高于螺旋軸中心線,同時(shí)還高于溢流端部的螺旋的外徑則為沉沒式:高堰式分級(jí)機(jī)一般用于100網(wǎng)目粒度以下的分級(jí),沉沒式分級(jí)機(jī)一般用于200網(wǎng)目粒度以下的分級(jí).

Such machines are divided into  single spiral classifiers and double spiral classifiers. Beside, they are also  divided into high weir spiral classifiers and submerged spiral classifiers. If  the overflow edge is higher than the center line of spiral shaft and lower than  the external diameter of spiral at the overflow end, the spiral classifiers are  high weir ones. If the overflow edge is higher than the center line of spiral  shaft and also higher than the external diameter of spiral at the overflow end,  the spiral classifiers are submerged ones. High weir classifiers are usually  used for the classification with particle size of below 100 meshes. Submerged  classifiers are usually used for the classification with particle size of below  200 meshes.

三、技術(shù)參數(shù)

注：(1)表中C—代表沉沒式,G代表高堰式;2F—代表雙螺旋,F—代表單螺旋;(2)表載計(jì)算生產(chǎn)量是根據(jù)礦石比里,溢流粒度、螺旋轉(zhuǎn)數(shù)、螺旋直徑等因素按經(jīng)驗(yàn)公式計(jì)算得出。

Note:  (1) In the table, C represents submerged type, G represents high weir type, 2F represents double spiral type, and F  represents single spiral type. (2) The production capacity in the table is  figured out based on empirical formula according to factors such as overflow  particle size, revolution speed of screw and screw diameter in ore ratio.

四、機(jī)器的結(jié)構(gòu)說明

3、總體說明

本機(jī)系由傳動(dòng)裝置、螺旋（左、右）水槽、升降裝置、下部支座、潤滑裝置、排礦閥和進(jìn)料口等部組成。（詳見附后總圖）

本機(jī)水槽成傾斜安置，其傾斜角大小根據(jù)工藝流程中設(shè)備配置情況確定，由傳動(dòng)裝置帶動(dòng)的螺旋（左、右）在槽內(nèi)回轉(zhuǎn)，經(jīng)磨細(xì)的礦漿從側(cè)面進(jìn)料口進(jìn)入槽內(nèi)，則在槽的下端形成一個(gè)礦漿沉淀區(qū)，其表面積和容積決定于水槽傾斜角大小和溢流邊堰高度，低速回轉(zhuǎn)的螺旋能起一定的攪拌作用，礦漿經(jīng)攪拌后，輕、細(xì)顆粒浮于上面成為溢流，由溢流邊堰溢出，流入下一道選礦工序；粗重的顆粒沉于槽底，成為返砂，由螺旋運(yùn)輸?shù)脚诺V口排出，其工作原理見圖1。

如果磨礦與分級(jí)是閉路循環(huán)作業(yè)，則由排礦口排出的返砂，仍進(jìn)入磨機(jī)再磨細(xì)，分級(jí)機(jī)通常是與磨機(jī)配置在一起成閉路循環(huán)工作的。

IV. Structure Description

1. General Description

This kind of machine is  composed of transmission mechanism, (left, right) spiral water tank, lifting  device, lower support, lubricating device, ore discharge valve, feed inlet, etc  (See the attached general drawing for details).

The water tank of this machine  is installed obliquely. The angle of inclination is determined according to  equipment configuration of equipment in the process flow. The (left, right)  spirals driven by the transmission mechanism rotates in the water tank. The  finely grained slurry enters the water bank from the feed inlet at one side and  forms one slurry precipitation zone, whose surface area and volume depends on  the value of the water tank’s inclination angle and the height of overflow  edge. The spirals rotating at a low speed play a certain stirring role. After  the slurry is stirred, the light and fine particles float above the surface and  overflow from the overflow edge. Then they flow into the next working procedure  of ore dressing. The heavy and thick particles sink into the bottom of the  water tank and become return sand which is transported by the spirals to the  ore discharge mouth for discharge.

If ore grinding and  classification are closed loop operation, the return sand discharged from the  ore discharge mouth still goes into the mill for further grinding. Classifiers  normally form closed loop operation together with mill.

Function Diagram

1、傳動(dòng)裝置  2、左螺旋  3、右螺旋  4、下部支座  5、升降裝置  6、水槽

1. Transmission mechanism  2. Left spiral  3. Right spiral  4. Lower support 

5. Lifting Device  6. Water tank

4、主要部件結(jié)構(gòu)說明：

(1)傳動(dòng)裝置：Ф3000,Ф2400,Ф2000分級(jí)機(jī)是由電動(dòng)機(jī)、聯(lián)軸節(jié)、減速器聯(lián)軸節(jié)圓柱和傘齒輪副構(gòu)成；Ф1500,Ф1200分級(jí)機(jī)則由電動(dòng)機(jī)、三角皮帶、減速器圓柱齒輪副構(gòu)成；它帶動(dòng)螺旋回轉(zhuǎn)。

(2)螺旋（左、右）：由空心軸、支架、螺旋葉片、襯鐵等組成、上端支承在十字軸套內(nèi)、下端支承在下部支座內(nèi)、空心軸走直徑Ф500㎜以上的用二個(gè)半圓形通長鋼板焊接成，免除了由于橫向焊縫的焊接質(zhì)量，使軸產(chǎn)生折斷事故。小直徑的空心軸（Ф325）采用無縫鋼管。當(dāng)螺回轉(zhuǎn)時(shí)，螺旋葉面對(duì)礦漿起微小的攪拌作用，輕、細(xì)的顆粒由溢流堰口排出，況底的粗，重顆粒由螺旋輸送到排礦口排出。襯鐵采用耐磨壽命是重大關(guān)鍵問題，尚須進(jìn)行研究解決。

(3)下部支座：因其長期浸沒在礦漿內(nèi)工作，因此密封是關(guān)鍵問題，密封的好環(huán)直接影響軸承使用壽命，在設(shè)計(jì)上采用多層棉紗發(fā)瓣式盤根和高壓油脂雙重密封結(jié)構(gòu)，并在潤滑裝置上配置手動(dòng)干油泵，可以定期往軸承內(nèi)壓注油脂，以保持其密封性能。

(4)水槽：由鋼極、各種型鋼焊接成。由于運(yùn)輸?shù)葐栴}Ф3000，Ф2400，Ф2000分級(jí)機(jī)的水槽，在工地進(jìn)行總裝焊接。水槽內(nèi)盛有全部，并承受機(jī)器本身重量和全部負(fù)荷，為此支承水槽的地基設(shè)計(jì)分重要（結(jié)構(gòu)要合適、基礎(chǔ)要牢固。）為避免因支承不當(dāng)造成水槽變形影響機(jī)器的運(yùn)轉(zhuǎn)起見，本機(jī)附有地基結(jié)構(gòu)示意圖，可作為地基設(shè)計(jì)的參考依據(jù)。

(5)潤滑裝置：為善機(jī)器的潤滑條件，加強(qiáng)下部支座軸承的潤滑和密封性能Ф3000、Ф2400、Ф2000分級(jí)機(jī)故采用手動(dòng)集中潤滑，配置了手動(dòng)于油泵和操縱閥門，可以定期向各軸承內(nèi)壓注油脂，潤滑操縱部分用戶可根據(jù)具體操作條件確定安裝在水槽的右側(cè)壁上或右側(cè)壁上，也可另外設(shè)置操縱臺(tái)Ф1200、Ф1500分級(jí)采用手動(dòng)潤滑方式。

(6)放水閥：為了必要時(shí)能從水槽內(nèi)排出礦漿，在水槽下部設(shè)有放水閥，可隨時(shí)將礦漿排出，正常生產(chǎn)時(shí)可關(guān)閥。

(7)升降裝置：它由電機(jī)、輪減速器、傘齒輪副、絲母、比等零部件組成，當(dāng)分級(jí)機(jī)停止工作時(shí)，為避免礦漿內(nèi)固體沉淀壓住螺旋，產(chǎn)生負(fù)荷損傷機(jī)件起見，以及檢修工作上的需要，故設(shè)有升降裝置。當(dāng)分級(jí)機(jī)停車時(shí)必須把螺旋由水槽中提起，使大部分螺旋離開礦漿，為保證升降作業(yè)的安全，專備有行程終點(diǎn)開關(guān)，使升降行程能自行控制，其電氣原理圖參見圖2

另外還特設(shè)計(jì)有螺旋分級(jí)機(jī)轉(zhuǎn)動(dòng)和升降聯(lián)動(dòng)控制電氣原理理圖（圖6）當(dāng)分級(jí)機(jī)停車時(shí)升降裝置啟動(dòng)能自動(dòng)將螺旋提升至一定高度，分級(jí)機(jī)工作時(shí)升降裝置把轉(zhuǎn)動(dòng)能自動(dòng)將螺旋下降至工作位置這樣可保持傳動(dòng)零部件的壽命，防止空心軸因過負(fù)荷而折斷，。是否需要裝設(shè)聯(lián)動(dòng)控制電氣裝置，用戶可根據(jù)具體條件確定、制造廠不供應(yīng)本電氣裝置所需的零部件。

4. Structure Description of Main Parts

 (1) Transmission mechanism: Ф3000, Ф2400  andФ2000 classifiers consist of motor, coupling, speed reducer coupling  cylinder and bevel gear pair whileФ1500 andФ1200 classifiers consist of motor,  V-belt, and speed reducer cylinder gear pair. The transmission mechanism drives  the rotation of spiral.

(2) (Left, right) spirals:  Spirals consist of hollow shaft, bracket, spiral vane, iron liner, etc. The  upper ends are supported in the cross-shaft sleeves while the lower ends are  supported in the lower support. Hollow shafts whose diameter is over 500mm are welded with two semicircular  long steel plates so that shaft fracture due to poor welding quality caused by  transverse weld can be avoided. For hollow shafts with small diameters (such as  325mm), seamless steel  pipes are used. When the spirals are rotating, the spiral vanes stir the slurry  slightly. The light and fine particles are discharged from the overflow weir  while the heavy and thick particles are conveyed to the ore discharge mount for  discharge. Anti-wear life of iron liner is very important. It needs further  study.

(3) Lower support: As lower  support long operates submerged in the slurry, its sealing is very important.  The sealing of lower support directly affect the service life of bearings. In  design, it is of the multilayer cotton yarn valve-clack type packing and  high-pressure grease double seal structure, and is equipped with manual dry  pumps on the lubricating device. It can fill grease to the inside of bearings  on a regular basis to maintain its sealing property.

(4) Water tank: Water tank is  welded through steel poles and all kinds of profile steel. Due to difficulty in  transportation, the water tanks ofФ3000, Ф2400 andФ2000 classifiers are  generally assembled and welded at the workplace. The water tank shall bear the  weight of the machine itself and all load. Therefore, the design of foundation  supporting the water tank is very important (the structure should be reasonable  and the foundation shall be firm). To avoid the water tank becomes deformed due  to improper supporting and thus affect the operation of machine, the diagram of  foundation structure is attached for this machine which can serve as the  reference basis for foundation design.

(5) Lubricating device: To  improve the lubricating conditions of machines and better the lubricating and  sealing property of lower support bearings, the lubrication method of manual  centralization lubrication is adopted forФ3000, Ф2400 andФ2000 classifiers. It  is equipped with manual dry pumps and operating valve and can infuse grease to  the insides of all bearings on a regular basis. Some users can decide if the  lubricating control console is installed along the left wall or right wall  according to specific operating conditions. Or it can be installed otherwise.  The lubrication method of manual lubrication is adopted forФ1200 andФ1500  classifiers.

(6) Drain valve: Drain valve is  installed at the lower of the water tank so that slurry can be discharged from  the water tank when necessary. During normal operation, the valve can be shut  off.

(7)  Lifting device: The lifting device consist of motor, wheel reducer, bevel gear  pair, nut with thread, and other parts. When the classifier stops working,  lifting device is installed with an aim to preventing the solid in the slurry  from precipitating and pressing the spirals so as to damage machine parts as  well as facilitating repair work. When the classifier stops working, the  spirals must be lifted from the water tank to get most of the spirals away from  the slurry. For the safety of lifting operation, stroke end switch is installed  so that the lifting journey can be controlled automatically. See Figure 2 for  Electrical Schematic Diagram.

Besides, electrical schematic  diagrams for spiral classifier rotation and lifting linkage control are  designed (Figure 6). When the classifier stops working, with the startup of  lifting device the spirals can automatically be lifted to a certain height.  When the classifier is working, the spirals can be automatically lowered to the  working position during the rotation of lifting device to keep the hollow from  being fractured due to overload. Whether to install linkage control electric  device shall be determined by the user according to actual conditions. The  manufacturer does not provide parts and components required by this electric  installation.

Figure 2: Electrical Schematic  Diagram of Lifting Journey Control of Lifting Device

RD-熔斷器   TA-停止按燈   SC-提升用接觸器 

SXK-提升行程開關(guān)  JC-下降用接觸器  JXL-下降行程開關(guān) 

JA-下降起動(dòng)

RD – Fuse   TA – Stop light

SC – Contactor for lifting  SXK  – Lifting journey switch

JC – Contactor for  lowering   JXL – Lowering journey switch

JA – Lowering startup