目  录
CONTENTS
◎ 概述香港浅水湾
GENERAL                                                        1 ◎ CYL型泵结构简图
CONSTRUCTION DIAGRAM                                      6
◎ CYL型泵性能曲线图
PERFORMANCE CURVE DIAGRAM                                9
◎ CYL型泵性能参数表
PERFORMANCE IN CLEAN WATER                              14
◎ CYL型泵外形图及安装尺寸
CONTOUR DIAGRAM AND DIMENSIONS                        18
◎ CYL型控制箱的使用
APPLICATION OF THE CYL TYPE CONTROL BOX                21
◎ 安装、使用和维护
INSTALLATION,APPLICATION AND MAINTENACE              23
◎用户订货注意事项
INSTRUCTION FOR ORDER                                      25 ◎成套设备清单
SPARE PARTS AND TECHNICAL DOCUMENT                    26
概述 GENERAL
用途
CYL型耐磨式液下泵是单级单吸液下式离心泵,主要适用于各行业输送含有渣浆、污泥、粉煤灰、包括结晶体等固体颗粒介质的各种废水及污水。
GENERALlol武器大师
The CYL type wear-resistant wet pit pump,single stage and single suction,is mainly applied to transfer the slurry and sewage containing solid particles(including crystal medium)in many trades.
赵雅芝整容失败适用范围
● 流量为4-640m³/h,扬程为6-96mH₂O。
● 伸入长度L≤18m。
● 介质PH值:3-11。
● 介质浓度(重量浓度):≤70%。
● 固体颗粒直径:≤38mm。
● 杂质硬度:HRC≤55。
APPLICATION RANGE
● Capacity:4~640m³/h,head:6~96mH₂0
● Temperature of the transferred medium:T≤80℃
● Length of the underground parts:L≤18 m
● The PH range:3~11
● Weight density range:≤70%
● Diameter of the particles: ≤38mm
● Hardness of the particles:HRC≤55
特点
◆高效节能:与其它同类产品相比,效率提高5-10%。
◆振动小:由于采用国内首创的组合式中间管轴结构,解决了长轴液下泵长期不能克服的振动难题。在
正常操作使用的情况下,平均寿命高于原同类产品一倍以上。
◆叶轮采用宽流道设计,杂质通过能力强,能输送浓度较高、固体颗粒较大的污泥、渣浆、粉煤灰水、
污水或废水等介质。
◆与我公司的CYL控制箱配合使用,可实现全自动控制,有关控制的说明请参见“CYL型控制箱的使用”。
◆泵从进口方向看为逆时针旋转。
CHARACTER
◆ High efficiency with the function of energy saving.The efficiency is 5~10% higher than the others of this model.
◆ Slight vibration.We have solved the problem of vibration of long shaft wet pit pump by adopting
the initiative domestic portable intermediate pipe shaft construction.With the premise of correct operation,and the average life is double as long as the others of this model. ◆ Impeller is designed with wide flow and the pump has excellent ability of transferring the mixture it can transfer slurry and sewage
whose character is as followed:weight density up to 70%,diameter of the particles up to 38mm,hardness(HRC)up to 55.
◆ Used with our CYL type control box can realize automatic control.Introductions about contro1,
please refer to “APPLICATlON OF THE CYL TYPE CONTROL BOX”(P22)
◆ Observed from the suction the impeller rotates counterclockwise.
结构特点
◆中间轴承采用金属滚动轴承,具有使用寿命长、运行稳定、振动小、噪音低等优点,并彻底消除了由
于导轴承长时间使用,磨损以后使机组产生振动的弊病。
◆采用结构化设计的思想,变传统的零件式安装为新型的部件式安装,即先将零件组装成中间部件,一
个中间部件为一节,安装时,一节一节的安装,提高了安装维修的工作效率,降低了检修时的工作强度。
◆中间联轴器采用弹性联轴器,从而节与节安装时,只需简单地将螺栓坚固即可,减小了安装维修时的
工作强度,且弹性联轴器能自动消除不同轴度,使轴与轴间不传递轴向力,只传递扭矩,提高了泵机组的运行稳定性。
◆轴封采用防沙盘加双端面机械密封的密封型式,与联接管形成严密的密封系统,使介质与金属有效隔
离,确保金属轴承的正常运行,彻底消除了传统结构型式的泵由于泥沙等颗粒杂质侵入转子部件而导致机组运行不稳定、磨损加剧、振动或使机组部件损坏等弊病。
◆该结构型式与传统的导轴承结构的长轴液下泵相比,具有以下优点:
☆  便于运输:当泵长度超过3m时可拆卸运输,现场组装,以减少在运输过程中造成的弯曲现象。
☆  便于安装维修:在使用过程中如某一节损坏,只需更换此节,不需全部拆卸维修,大大缩短了维修抢修时间,且维修方便。
☆  无需外供冷却水:传统导轴承的泵运行时需外供或内供冷却水来冷却润滑中间滑动轴承,而该结构泵无需冷却水,节约了运行成本,而且还解决了长轴液下泵因阶段性缺冷却水造成中间滑
动轴承烧坏导致设备振动的难题。
☆  机动性大:泵的长度可根据液下深度的不同,由不同数量的节插装组成,且节与节之间可互换。
☆  运行成本低廉:因分节组合式安装,对安装起吊高度无特殊要求,可大大降低厂房高度,从而节约土建成本。
◆对于普通液下泵,输送带沉淀的污水(如粉煤灰水)时,由于沉淀的积累,容易造成泵进口堵塞(特
别是小口径泵),针对这一问题,我公司对该系列液下泵作了改进,使泵的下主轴向进口方向延伸,并伸出泵的进口,在靠近泵进口处加设一搅拌轮,与水泵叶轮同步工作。加设搅拌轮后具有如下优点: ☆  该搅拌轮相当于在泵的进口处加了一个搅拌器,使泵进口处一定范围内含沉淀物的液体产生流动,阻止了沉淀物的沉积,有利于泵将杂质污水充分地排出。
☆  有效的防止了由于泵长时间不用,造成沉淀物积累堵塞泵进口的问题,同时也防止了由于严重堵塞对叶轮、泵或电机的损坏。
☆  由于杂质排出充分,延长了清理水池的周期,节约了用户运行及维护的成本。
☆  结构合理,与普通液下泵相比成本增加较小。
CONSTRUCTION
◆ Intermediate bearing is metal roll bearing.It has the character of long life used stably
running,little vibration and low noise etc.And we have completely solved the question due to the sliding bearing frayed that causes the set to vibrating during long-time used. ◆ Adopting the idea of structural design and we change the conventional part assembled into
new component assembled。that is first as assembling to an intermediate component.An intermediate component is a section when assembling just section by section it in creases The efficie
ncy of assembling and re pairing,meanwhile it reduces The works of examining and repairing greatly.
◆ The intermediate coupling is adopted elasticity coupling When we assemble section by section,
we just only tie the bolts tightly,so it can reduce the works of assembling and repairing very much and the elasticity coupling can adapt the angle of the shaft automatically It does not deliver the force of the shaft direction except torsion,so the stability of the pump set’s running is increased greatly.
◆ That the shaft is sealed with the dust cover and two wear-resistant mechanical seals forms
a hard seal system with the link pipes which can make medium and metal well divided,insure
the normal running of the metal bearings and solve the conventional construction pump’s question such as the set’s instable running,terribly fraying vibration or leading the components of the set damaged,caused by the bed-load etc which invades into the rotor. ◆ Compared with the conventional long shaft wet pit pump with sliding bearing,it has such virtues
as:
☆ Easy Io be transported lf the length of the pump is over 3m,we can disassemble the pump to transport.When we arrive the destination,we will assemble them it is in order to avoid it being bent during transporting.
☆ Easy to be assembled and repaired lf any section is damaged in use we will only ex. change it Unnecessary to disassemble the whole.This can shorten the lime of repair it is also convenient to be maintained.
☆ Needs no cooling water The pump of the conventional sliding bearing construction needs cooling water to cool and lubricate the intermediate sliding bearing inside or out. side,when it runs Yet the pump of this con,struction needs no cooling water.so the cost is reduced And it also solved the problem that the equipment shook caused by the intermediate sliding bearing being damaged, when the long shaft wet pit pump lacked of cooling water for    a moment..
☆ Good flexibility The length of the pump can change with the depth under the liquid We just adapt the number of the sections and it is exchangeable among the sections. ☆ Low cost of transporting The pump is assembled section by section.so it has no special request to the height of suspending,therefore this can reduce the height of suspending,therefore this can reduce the height of the workroom greatly and economize the cost of building.
◆ When common wet pit pump transfers the sewage containing solid particles,it will be jammed
at the end of suction by depositive solid particles (especially the small suction pump) To solve this question,our company ameliorated this series pumps The lower shaft extends lo the direction of the suction and*puts out of the pump suction end Near the suction end we add a mixing-wheel which can retate with the impeller in—phase it has such virtues as: ☆ it can make the liquid including deposit flowing in the area of the pump suction end avoid
deposit settling,and be propitious to discharge sewage and impurity fully.张东健 高小英
☆ it can prevent the deposit from jamming the pump suction when the pump has not been used
for a long lime and also prevent terribly jamming from damaging the impeller, pump and motor.
☆ The impurity is fully discharged,so the cycle to clean up the pool becomes long.Also
the cost of run and maintenance is economized.
☆ The construction is rational Compared with the common wet pit pump,cost increasing is
relatively small.
材质
根据所输送介质对泵腐蚀情况,用户可选用相适应的材质。泵与介质接触的主要过流部件材质如下: MATERIAL
梅州旅游景点大全
According to the corrosion to the pump,the client may select relative material as followed list in the table: 材质 Material
ZG1Cr18Ni9
ZG1Cr18Ni9Ti ZG0Cr18Ni12Mo2Ti HT200代号 Code
303 305 306 1C01特殊要求合同注明 Special demand should be noted on
the contract
型号说明 CODE
机配套功率计算
己亥杂诗赏析
◆ 请按下列公式计算配套电机的功率:
N 配=K ·N 轴=K·γ·H·Q 102·η
式中:
N 轴:轴功率,单位:㎾
N 配:配套电机功率,单位:㎾
Q :流量,单位:m³/s
H :扬程,单位:m
γ:介质的比重,单位:kg/m³
η:效率
K:安全系数,一般取1.1~1.3
POWER OF THE MOTOR
◆Calculate the power according to the followed quotation:
N motor=K·N shaft=K·γ·H·Q 102·η
Which:
N shaft:Power of the shaft, unit:㎾
N motor:Power of the equipped motor, unit:㎾Q:Capacity, unit:m³/s
H:Head, unit:m
γ:Density of the medium, unit:kg/m³ η:Efficiency
K:Safety factor, usually ranging1.1~1.3