YP Series (Pressure Type) Hydraulic Dynamometer

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一、Summary

YP series (pressure type) hydraulic dynamometers have been widely used abroad in the 1960s and 1970s. In 1985, through license trade, China introduced the technology of Zoller Company, West Germany, to develop and produce this type of advanced dynamometer. At present, the process technology has been used in the production of a whole series of products in China. Internationally, there are Fraud in England and Cairn Company in the United States. In addition, two domestic companies have produced this series of products in small batches through imitation. Our company digests and absorbs foreign technology, carries out new optimization design and production, and can provide a full range of products.

YP series hydraulic dynamometer has 12 specifications, all of which are controlled by electric drainage butterfly valve. That is, by changing the opening of butterfly valve to change the size of absorption power. The braking power range is from 20KW to 5900KW, and the variety is complete. Domestic and foreign users choose the right type according to their engine power range.

This product is mainly used to test the effective power of various diesel engines, gasoline engines, motors and other power engines. It is an indispensable test equipment in the performance test of power engine and the efficiency test of transmission machinery.
The basic model of this product is one-way test. If users need to order with two-way test at the same time, please make a request and our company will give special customization.

二、Technical specifications

1．Main features
◆Small size, easy installation；
◆Simple structure, easy operation and maintenance；
◆High braking moment；
◆High accuracy of measurement；
◆Work stably and reliably；
◆Achieving High Precision Instantaneous Speed Measurement with Magnetoelectric Velocity Sensor；
◆Fast Load Control of Electronically Controlled Butterfly Valve；
◆Fast response, suitable for dynamic test

2．Measuring performance indicators

Project	sensor type	Measuring range	Accuracy	Remarks
Rotating speed	ZSB magnetoelectric speed sensor	300-7500r/min	±1r/min	Greater than 7500r/min When the speed wheel and control components are treated separately.
Torque	Strain gauge tension sensor	Match the dynamometer range	±0.2% FS
Water valve position	Precision potentiometer (DPF, YZ60 Watergate Actuator)	0-100%	0.2% FS
Throttle position	Precision potentiometer (YZ60, YZ60A throttle actuator)	0-100%	0.2% FS

3.Technical parameter

Hydraulic dynamometer model	YP60	YP120	YP250	YP380	YP520	YP660	YP880	YP1200	YP1900	YP2500	YP3300
Maximum absorption rate (KW)	60	120	250	380	520	660	880	1200	1900	2500	3300
Torque measurement accuracy (FS)	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%	±0.2%
Speed measurement accuracy (FS)	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰	±0.5‰
Spindle rotation direction	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional	unidirectional
Brake force measurement range (N)	0~180	0~550	0~1000	0~1300	0~2500	0~3300	0~6000	0~12000	0~18000	0~27000	0~35000
Maximum braking torque (Nm)	172	525	980	1240	2450	3150	5700	11760	17200	26460	33400
Maximum water consumption (Kg/h)	1200	2400	5000	8000	10400	13900	18500	24000	36300	50000	66000
Drainage maximum temperature (°C)	70	70	70	70	70	70	70	70	70	70	70
Total length of the spindle	448	510	500	500	600	600	802	1296	1296	1440	1440
Spindle cone length and taper	63, 1:30	70, 1:30	70, 1:30	70, 1:30	70, 1:30	80, 1:30	100, 1:30	192, 1:30	192, 1:30	170, 1:30	170, 1:30
The center of the spindle is high to the bottom of the base	255	300	300	300	350	350	650	760	760	840	840
Dynamometer dimensions (length × width × height)	450×400×370	655×530×430	640×536×460	640×536×460	760×620×543	760×620×543	1078×845×905	1598×.51310×1135	1598×.51310×1135	1452×1558×1310	145×21558×1330
Base size (length × width × height)	640×400×90	640×394×110	640×400×100	640×400×100	760×490×120	760×490×120	1060×820×310	1476×1200×260	1476×1200×260	1256×1559×260	1256×1559×260
Foot screw hole position	590×340	600×335	580×330	580×330	700×420	700×420	990×650	1350×1074	1350×1074	1421×1116	1420×1116 (×690)
Dynamometer net weight (Kg)	170	180	200	200	410	435	950	2800	2900	3200	3300
Maximum spindle speed (r/min)	9000	7500	7500	5000	5000	3500	3000	3000	3000	3000	3000
Moment of inertia (Kg.M2)	0.012	0.041	0.065	0.074	0.480	0.511	0.721	3.6	4	6.8	7.1

Table units：mm

4． characteristic curve

The application scope of hydraulic dynamometer can b e seen from its characteristic curve as shown in Fig. 1 (a), (b), (c), (d), (e), (f), (g), (h). Characteristic curve shows the power range that dynamometer can absorb at different rotational speeds.
The OA curve represents the maximum power line that the dynamometer can absorb with the change of rotational speed under a certain inlet pressure.
When AB line keeps the dynamometer's maximum torque, the maximum power line that dynamometer can absorb will change with the speed.
When the AC line (YP20) and BC line are not more than the maximum permissible discharge temperature of dynamometer, the maximum power limit line that dynamometer can absorb.
CD line is the maximum speed limit line of dynamometer.
OD curve is the braking power line (air friction resistance) of Dynamometer when it is not filled with water.
The area surrounded by the curve graph OABCDO indicates the power range that the hydraulic dynamometer can absorb. This is also the basis for choosing dynamometer in power machine performance test. In general, all the characteristics of the power machine can be tested on this type of hydraulic dynamometer within the range of curve and figure.
﹡When choosing dynamometer, users must pay attention to whether the test point of the dynamometer is within the range of the characteristic curve of the dynamometer and avoid the edge of the curve as far as possible.
﹡The minimum absorptive power line (full open position of butterfly valve) is slightly higher than OD line under the optimal control of water filling, and should not be too close to OD line when selecting type.

三、Structure of dynamometer

YP type hydraulic dynamometer is mainly composed of body parts, force measuring mechanism parts, intake and drainage parts, correction parts, electric drainage valve parts, automatic regulating device parts and lubricating parts. See Figures II (a), (b).
1．Body parts
The body parts are the main parts of dynamometer to absorb the effective torque of power machine by using water. See Figures III (a), (b).
The mechanical energy output from the power machine is converted into heat energy here, which is absorbed by the water entering the shell and discharged. A very small part of the mechanical energy is dissipated to the air by the wall of the dynamometer shell.
The simple structure consists of a swinging housing mounted on a rolling bearing and a rotor mounted on a spindle. The dynamometer rotor is installed in the middle of the main shaft, and the left and right side shell and the left and right bearing shell are symmetrically installed on both sides of the rotor. The working cavity is formed by the rotor pit and the left and right side shell pit. The bimetallic bushing connected with the shell of the left and right bearing not only acts as the bushing, but also acts as the sealing water. YP880, Y1200, YP1900, YP2500, YP3300 and YP5900 dynamometers are sealed by clearance to prevent water from entering the bearing, thus ensuring the service life of the bearing.
There are drainage holes on the shell and water intake holes on the left and right bearing shell to ensure the entry of low-temperature water and the discharge of high-temperature water. There is an overflow pipe in both the left and right bearing housing, and the water thrown out by the water throwing ring is discharged after the overflow pipe enters the base.
The spindle is equipped with coupling at both ends of the cone, and the speed measuring gear is installed on one side. Through the speed measuring sensor, the spindle speed can be displayed in the digital display table.

Figure two（b）Y880-S、Y1900-S、Y3300-SOutline schematic diagram of hydraulic dynamometer

1、Body parts2、Dynamometer unit 3、Lubrication parts 4、Intake and drainage components5、correcting member6、Automatic adjusting device components

Figure three（a）YP1900Structural sketch of airframe components

1、base 2、Left and Right Bearing Seats 3、Spindle components 4、Coupling 5、Bearing plate 6. Skeleton oil seal 7, axle sleeve 8.9, bimetal axle sleeve & nbsp; 10, left and right bearing shell & nbsp; 11, left and right side shell & nbsp; 12, screw & nbsp; 13, rotor 14, shell & nbsp; 15, water seal ring & nbsp; 16, speed measuring gear & nbsp; 17, speed sensor & nbsp; 18, overflow pipe & nbsp; 19, cock

Figure three（b）YP1900Structural sketch of airframe components

1、base 2. Bearing seat 3, coupling 4, spindle component 5, bearing shell 6, shell 7, side shell 8, rotor 9, speed sensor 10, speed measuring gear

2．Force measuring mechanism components

The components of force measuring mechanism are used to measure braking force, as shown in Fig. 4 (a), (b).

It is mainly composed of brake arm, tension pressure sensor and movable bolt. The braking moment produced by the body parts is balanced with the reaction moment of the brake arm pull-up pressure sensor, and the braking force is displayed by an electronic digital display instrument. In order to protect the sensor, nylon ring or rubber ring is installed at one end of the movable plate bolt to play a buffer role. At the same time, in order to prevent the sensor from being damaged by vibration in transportation, a supporting and fixing protection device is provided. The bolt of the fixed sensor must be loosened in use, and the movable plate should be pulled to one side. If there is no movable plate, the bolt can be screwed off.

Figure four（a）YP20、YP60、YP120、YP250、YP380、YP520、YP660

Drawing of Force Measuring Mechanism Components

1. Brake arm 2, tension and pressure sensor 3, movable bolt 4, support 5, protective cover 6, movable plate 7, bolt 4

Figure four（b）YP1900Schematic diagram of dynamometer mechanism

1. Brake arm 2, fixed bolt 3, movable bolt 4, tension pressure sensor

3、Intake and drainage components

The intake and drainage components are composed of intake components and drainage components. It is mainly used for entering low temperature water and discharging high temperature water when dynamometer works. See Fig. 5 (a), (b).

YP60, YP120, YP250, YP380, YP520 and YP660 hydraulic dynamometers are composed of brackets, pipes and elbows. The elbows are connected with the left and right bearing housing of the body parts to form the intake pipeline of the dynamometer.

The drainage components are composed of brackets, pipes and elbows. The elbow is connected with the outer shell to form a drainage pipeline of dynamometer. The water thrown out by the water throwing ring in the body parts is discharged after the overflow pipe enters the base.

The intake parts of YP880, YP1200, YP1900, YP2500, YP3300 and YP5900 dynamometers are composed of intake valve parts and intake pipes. The drainage components are composed of a drainage butterfly valve, a drainage elbow and a drainage actuator.

Figure five（a）Drawing of Intake and Drainage Components

1. Overflow pipe 2, permeable pipe 3, intake parts (5, elbow 6, pipeline 7, bracket) 4, drainage parts (8, bracket 9, pipeline 10, elbow)

Figure five（b）Y880-S、Y1900-S、Y3300-SDrawing of Intake and Drainage Components

1. Spillway 2, Intake Component 3, Drainage Actuator 4, Drainage Butterfly Valve 5, Drainage Bend

4、 Calibration Component (Static Calibration Component)

Calibration components are used for static calibration of dynamometers, as shown in Fig. 6.

It is mainly composed of calibration arm, lifting parts, suspenders, trays and weights.

The distance L from the center of dynamometer spindle to the triangular knife edge of static calibration arm and the total weight W are shown in the table below.

L and W values

Model	Arm lengthL(mm)±0.125	Weight total weightW(kg)
YP60	973.8	18
YP120	973.8	55
YP250	468.9	200
YP380	486.9	260
YP520	973.8	250
YP660	973.8	330
YP880	973.8	600
YP1200	1947.5±0.30	600
YP1900	1947.5±0.30	900
YP2500	1947.5±0.30	1350
YP3300	1947.5±0.30	1750

Fig. 6. Schematic diagram of correction components
1. Correction arm 2, lifting parts 3, lifting rod 4, tray 5, weights

5. & nbsp; Electric Drainage Valve Components

DPF electric drain valve components are used to automatically control the opening position of the drain valve, adjust the pressure of the dynamometer chamber, so that the thickness of the water ring changes with the change of working conditions, that is, to change the absorption load, as shown in figure 7.

It is mainly composed of shell, moment motor, planetary gear pair, butterfly valve, potentiometer and so on. Matching with the electronic control cabinet, the opening of the valve can be controlled by the compartment.

YP60、YP120、YP250、YP380、YP520、YP660 Hydraulic dynamometers use this form to control the drainage butterfly valve

Figure sevenDiagram of DPF Electric Drainage Valve Components

1. Potentiometer 2, Torque Motor 3, Planetary Pair 4, Shell 5, Butterfly Valve

6、 Automatic adjusting device components

The components of the automatic regulating device control the opening position of the valve slice of the drainage butterfly valve through the drainage actuator, and adjust the pressure of the inner chamber of the dynamometer to change the load, as shown in figure 8.

Fig. 8. Component sketch of automatic regulating device
1. Drainage Actuator 2.3, Gear Pair (Synchronized Tooth Belt) 4, Angle Iron 5, Drainage Butterfly Valve 6, Support Plate

It is mainly composed of drainage actuator, drainage butterfly valve, supporting plate, gear pair, etc.

YP880, YP1200, YP1900, YP2500, YP3300, YP5900 hydraulic dynamometers all use this form to control the drainage butterfly valve.

YP880, YP1200, YP1900 dynamometers are equipped with YZ60A drainage actuator produced by our factory, YP2500, YP3300, YP5900 dynamometers are equipped with YZ20 drainage actuator.

7、Lubrication parts

Lubrication parts are mainly used for rolling bearing lubrication of dynamometer.

YP60, YP120, YP250, YP380, YP520 and YP660 hydraulic dynamometers are all lubricated with grease, and their locations are shown in Fig. 2 (a). ZL45-2 lithium-based grease can be directly injected into the pressure oiler (tanker). The specific requirements are shown in Schedule 4.

The lubrication components of YP880, YP1200, YP1900, YP2500, YP3300 and YP5900 hydraulic dynamometers are shown in Figure 2 (b). Oil mist lubrication, drip oil lubrication and pump oil lubrication can be used respectively according to user's requirements and different working conditions.

（1）Oil mist lubrication

Oil mist lubrication can be used when dynamometer works at medium and high speed. Oil mist lubrication is mainly composed of gas source, pressure reducing valve, oil mist, gas pipe and so on. V-01/10 compressor can be used as gas source for a single dynamometer. Before starting the dynamometer, it is necessary to ensure the normal operation of the oil mist system. Oil mist lubrication is detailed in the instructions for the use of oil mist lubrication devices.

（2）Drip lubrication When the dynamometer works at a low speed, it can adopt drip oil lubrication instead of oil mist lubrication or pump oil lubrication.

If the working speed of YP1900 hydraulic dynamometer is below 2200 r/min, and YP3300 hydraulic dynamometer is below 1800 r/min, oil drop lubrication can be used.

（3）Pump oil lubrication

When the dynamometer works at a high speed, in order not to make the bearing temperature rise too high, the pump oil lubrication can be used.

Pump oil lubrication is mainly composed of pumping station and inlet and outlet oil system. Pump oil lubrication must start the pump station to lubricate the bearing of dynamometer before starting the dynamometer main engine and adding water for testing. Pump

oil inlet pressure can be adjusted by LI-10 throttle valve, and the pressure can be controlled in the range of 0.01-0.05 Mpa. It is suggested that as long as the working conditions are satisfied, the pressure should be as low as possible to reduce leakage.

四、Working Principle and Power Calculation of Dynamometer

1、 Working principle

The power machine drives the rotor components on the dynamometer spindle to rotate synchronously through the coupling, which stirs the water in the working chamber. Because of the centrifugal force produced by rotor rotation and the effect of rotor pits, water produces strong water eddy current between the side shell and the rotor pit. It gives the shell a rotating moment, so that the torque of the power machine is transmitted from the rotor to the shell. The brake arm mounted on the shell will rotate at an angle, so that the brake force is transmitted to the tension pressure sensor connected with the brake arm through the electronic digital display device. Display the braking force.

The dynamometer controls the opening of butterfly valve by electric drainage valve or drainage actuator by automatic regulating device. The opening of butterfly valve is controlled by drainage actuator to change the pressure of water in the working chamber of dynamometer to change the absorption power. At the same time, the speed of dynamometer can be measured by the speed sensor and displayed on the electronic display instrument.

Because it is a pressure-controlled hydraulic dynamometer and adjusts the pressure of working chamber by changing the opening of butterfly valve, the whole process must be an automatic closed-loop control system, so the pressure YP dynamometer must be equipped with an electronic control cabinet with automatic control function to operate.

2、 Calculation

（1）Power calculation

The effective power of dynamometer can be calculated by the following simple formulas when the length of statically calibrated arm is 973.8mm, guaranteed by the structure design.：

P= F n/ 10000 (Kilowatt)

Type: F--- loading (Newton)

N - Speed (Rotation/Point)

（2）Torque calculation

M=F．L (N．M)

Type：F---load（Newton）

L---Calculated arm length is 0.9549(m)

五、Water supply system of dynamometer

The water supply of dynamometer can be used in circulating water supply system. The water supply is provided by high pressure stabilizing water tank or low pressure stabilizing water tank plus pipeline pump. Generally, the indoor water tank in the north is composed of a low-level stabilized water tank and a pipeline pump (see figure 8).

The intake pressure of dynamometer can be greater than or equal to 0.05 MPa, usually 0.05-0.15 MPa. When the dynamometer works on the full water line, it requires higher water supply pressure; when it works below the full water line, the water pressure can be lower. The water supply pressure should be kept stable, and the range of pressure fluctuation should be (+5KPa). When the dynamometer works, the water supply pressure directly affects the cavitation degree of the side shell of the dynamometer and the concave working chamber of the rotor.

In the process of dynamometer operation, water intake can not be interrupted. The water intake is about 20 liters per kilowatt hour, the drainage temperature can not exceed 70 ~C, and the general economic drainage temperature is between 55 ~60 ~C.

The circulating water supply system is mainly composed of heat sink, water pump, stabilized water tank, intake and drainage connection pipeline, water pressure meter, valve and so on. The volume of the pool should consider heat dissipation and measure the maximum power consumption, and there is a certain amount of surplus to compensate for water dissipation in the process of circulation. It is suggested that the volume of the pool should be increased as much as possible when conditions permit. The volume of water tank should be considered when the maximum water consumption is constant water supply (see the table of technical parameters for water consumption). When the water supply of the pump is larger than the maximum power consumption of the dynamometer, the volume of the stabilized tank can be recommended to be about 2-5 M3. The smaller the water consumption is, the larger the water consumption is. The volume of the tank is generally about five times that of the tank. If conditions permit, try to be as large as possible.

The diameters of intake and drainage pipes should meet the requirements of the diameters of intake and drainage of dynamometers.

A gate valve and a water pressure gauge shall be connected in series in the intake pipeline. The gate valve is used to regulate the intake pressure. For a fixed engine type, it usually stops moving after one adjustment. Therefore, the gate valve can be installed in any convenient position, while the ball valve on the dynamometer intake pipe is used for opening and closing water supply.

Drainage pipes are generally larger than intake pipes. Drainage pipes can be circulated through clay pipes to the pool. If the user's water source is rich, it can also be discharged into the sewer. Two problems should be paid attention to in drainage pipeline: one is that the drainage can not be connected with the overflow pipe to prevent the overflow pipe from backfilling with excessive drainage pressure; the other is that if the drainage pipeline is not smooth, it will cause excessive backpressure, which will affect the normal test of dynamometer. Therefore, the pipeline arrangement should be as short as possible and with fewer elbows.

The circulating water will be used as dynamometer water after descaling, which will reduce the formation of scale in dynamometer. If there is no water treatment equipment, tap water or clean river water is allowed, but no sediment and other impurities are allowed to mix in. It is not suitable to use sea water. Depending on whether the PH value of water in different areas is high or not, it is necessary to install scale remover.

Figure nine Schematic diagram of water supply system

六、 Installation of dynamometers

1、 Bench Foundation

The test bench foundation is used to install dynamometers and engines. The quality of foundation design will have a great impact on the quality of test. In the design of bench foundation, the following aspects should be considered.

(1) The test-bed should be close to the side of the water source, and the distance between the foundation and the wall should be no less than 1.5 meters. Attention should be paid to the position of the calibration arm when the dynamometer is away from the wall. The whole laboratory requires good ventilation, sufficient light and lighting equipment to meet the requirements.

(2) The base of the bench should have enough mass to minimize the vibration of the bench. The foundation shall be poured with concrete of No. 90 and the proportioning shall be 1 portion of cement: 2.5 portions of yellow sand and 4 portions of stone by volume. Foundation pouring should take into account the measured object, so that the installed dynamometer can test various types of power engines. The position of foundation bolt can be constructed according to figure 10. (Fig. 10 is the foundation map of the installation of hydraulic dynamometer)

（3）Effective vibration isolation measures should be taken to reduce the transmission of vibration energy from the test bed to the outside world. The simple way is to lay a layer of yellow sand under the concrete foundation, and open a 200 mm wide and 800 mm deep anti-seismic groove around the foundation, fill it with sawdust or slag, and cover it with asphalt.

（4）Underground buried pipeline should be carried out before concrete pouring. If the exhaust pipe of power machine is installed underground, it should be more than 0.5 meters away from the pipeline.

2、Installation of dynamometer

Before tightening the anchor bolts, the dynamometer should be calibrated in two vertical directions with the installation accuracy of 1/1000 to ensure the sensitivity and correctness of dynamometer test.

3、Installation of Power Machine

Power machine should be installed according to the requirements of power machine. For some benches with changeable power model, it is better to install the power machine on the accessory bracket with three degrees of freedom (which is supplied by our factory), so as to make the installation and adjustment more convenient. When installing the throttle actuator in the engine, it is necessary to ensure that the stroke of the engine speed control handle is within the stroke of the throttle actuator.

4、Join

Universal coupling or elastic coupling should be used to connect dynamometer with power motor. When using rigid coupling, special attention should be paid to the coaxiality of two-axis installation. Generally, the coaxiality should be within 0.05 mm.

No matter which connection mode, the additional moment and axial force acting on dynamometer should be reduced as far as possible, so as not to cause fever, equipment and life accidents, so that normal testing can not be carried out. It is suggested that an auxiliary support should be installed near the end of dynamometer, which is a better method.

Fig. 10 Foundation Map for Installation of Hydraulic Dynamometer

The dimensions, intake and drainage diameters and locations of the installation foundation are shown in the table.

List of Foundation Dimensions for Installation of YP Hydraulic Dynamometer and Location of Overflow and Drainage Port of Dynamometer Base

Model	A	B	C	D	E	F	G	H	J	K	N	S	Z×L	M	W	g
YP60	1500	1400	500	25	750	900	640	390	340	590	25	90	4-M16×520	335	無	無
YP120	1600	1500	500	30	750	900	640	394	335	600	22.5	110	4-M16×540	350
YP250、YP380	1600	1500	500	30	750	900	640	400	330	580	28	100	4-M16×540	340
YP520 YP660	1750	1600	600	30	850	1050	760	490	420	700	35	120	4-M20×570	400
YP880	2000	1800	1200	35	1160	1400	1060	820	650	990	85	310	4-M22×800	/	384	351
YP1200 YP1900	2450	2180	1300	63	1600	1876	1476	1200	1074	1350	63	260	4-M30*1000	/	0	無
YP2500 YP3300	2560	2250	1500	69	1656	1959	1559	1256	690 1116	1421	70	260	4-M30*1200	/	0	nothing

List of Intake and Drainage Diameters and Locations of YP Hydraulic Dynamometer

Model	Inlet caliber	Drainage caliber	X	Y	Q
YP60	G1″	G1 1/4″	143	143
YP120	G1 1/4″	G1 1/4″	165	165
YP250、YP380	G1 1/4″	G1 1/4″	162	162
YP520、YP660	Φ50	ZG2″	221	221
YP880	ZG2″	Φ54	0	354
YP1200、YP1900	ZG3″	Φ85	151	581
YP2500、YP3300	ZG5″	Φ130	203		669

The table is not marked in millimetres.

七、Calibration of Dynamometer

Static arm is generally designed as 973.8mm. Put 1 kilogram of weights on the weighting tray and display 10 Newtons correspondingly; 2 kilograms show 20 Newtons....

For structural reasons, if the arm length is enlarged or reduced to a certain magnification, the display value should also be enlarged or reduced to the same magnification.

The specific operation is as follows:

1. Install static calibration tools: calibration arm and hanging basket; 2、For digital calibration of instrument, please read EMC900 instruction for calibration operation. 3、Remove the calibration tool at the end of calibration. 4、EMC900 controller must be restarted until the end of 100 seconds countdown.

八、Use of dynamometer

1、Before boot

（1） Loosen the bolt of the sensor protection device to make the stator free.

(2) Check the connection between coupling and spindle.

(3) Check the coaxiality of the power machine and dynamometer.

(4) Check the connection and circulation of the inlet and outlet pipe systems.

(5) Clean the appearance, add lubricating oil to each lubrication point, and rotate the spindle to check whether the rotor and other components have collision and rotation inflexibility.

(6) The calibration meets the requirements.

(7) Fully open drainage butterfly valve (minimum load position).

2. Start-up test

(1) Start the power machine to drive the dynamometer spindle to rotate at the same speed. After the power machine is running normally, the test can be carried out.

(2) Fully open the intake valve and adjust the opening of the drainage butterfly valve until it is consistent with the working condition of the power engine.

(3) Four control modes, namely, constant position, constant torque, square torque and constant speed, can be selected to control the electronic control cabinet matched with dynamometer in the test of engine external characteristics, speed regulation characteristics, load characteristics and other characteristics.

(4) For some engines, sometimes the water supply pressure of a fixed dynamometer can not meet the test requirements of all working conditions, which can adjust the water supply pressure properly under different test conditions.

3. End of the experiment

(1) Close the intake valve.

(2) Fully open drainage valve.

(3) The engine runs at low speed for several minutes and then stops.

(4) Rotary sensor protection device, so that the stator is locked, the sensor is not forced.

(5) Cut off the power supply connected with the electronic control cabinet.

(6) Stop lubricating system oil supply.

(7) If the test is not done for a long time, the bottom drain valve of dynamometer should be opened to remove the accumulated water. If conditions permit, the upper end of the shell screw (except YP1900) can be unscrewed and the accumulated water can be purged with compressed air. The position of the screw is shown in Fig. 3 (a), (b).

In order to prevent bearing from entering water, please remember!!! The principle of "first start, then drain; first shut down, then shut down". To ensure that the dynamometer in the rotating state of water, but also should prevent the dynamometer in the anhydrous state of continuous operation for too long and burnt the sealing parts. (Require anhydrous working time is not more than 2 minutes.)

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