SU1606750A1 - Rig for testing positive-displacement hydraulic machines with power recuperation - Google Patents

Abstract

The invention can be used to test bulk hydraulic machines with power recovery. The aim of the invention is to expand the functionality of the stand and improve the accuracy of measurement of parameters of hydraulic machines. The stand contains an adjustable hydraulic pump 1, the pressure line 5 of which is communicated through an adjustable choke 4 with a load hydraulic motor 3, paired test hydraulic machines, one of which serves as hydraulic pump 6 and the other hydraulic motor 7, and their shafts are connected through a gear 10 to the shaft of the load hydraulic motor 3. The pressure line 8 is communicated through the load valve 11 and the flow meter 12 to the tank 13. The pressure line 5 is connected to the tank 13 via the load valve 14, which is differential, while the control cavity of the valve 14 is connected to A piping 8. By changing the setting of the load valve 11, the pressure line of the tested hydraulic machines is changed, the gearbox 10 provides different rotation speeds of their shafts, and the pressure in the pressure line of the hydraulic pump 1 is controlled by the valve 14. 1 Il.

Description

Thereby, the control cavity of the valve 14 (Connected to the pressure line 8. By changing the setting of the response of the load valve 11, the pressure in the pressure

the lines of the tested hydraulic machines, the gearbox 10 provides for different rotational speeds of their shafts, and the pressure in the pressure line of the hydraulic pump 1 is controlled by a valve 14. 1 Il.

The invention relates to engineering hydraulics and dp tests of volumetric hydraulic machines with power recovery can be used.

The aim of the invention is to enhance the functionality of the bench and improve the accuracy of measurement of the hydraulic oil parameters.

The drawing shows the hydraulic scheme of the proposed stand.

The stand contains an adjustable hydraulic pump 1 driven by an engine shaft 2, a load hydraulic motor 3 communicating via an adjustable throttle 4 with a pressure line 5 of the hydraulic pump. 1, paired test hydraulic machines 6 and 7, one of which serves as hydraulic pump 6, and the other - hydraulic motor 7 with pressure 8 and drain 9 highway.

The shafts of the used hydraulic machines 6 and 7 are connected through the gearbox 10 to the shaft of the load motor 3. The pressure line B is communicated through the load valve 11 and the flow meter 12 to the tank 13. The pressure line 5 is connected to the tank 13 through the load valve 14, which is made differential, the control cavity of the valve 14 is in communication with the pressure line 7. The flow meter 12 and the hydraulic pump under test 6. are equipped with 15 angular velocity sensors. An adjustable, hydraulic pump 1 is associated with a control system (not shown) for changing the frequency of rotation of the shafts of the tested hydraulic machines 6 and 7 through the gearbox 10.

The stand operates as follows. When the engine 2 is turned on, hydraulic pump 1 supplies working fluid to pressure line 5 and through throttle 4 to load motor 3 which drives gear 10 to rotate. Rotation is transmitted to shaft of test hydraulic pump 6j which pumps working fluid to test hydraulic motor 7, which again transmits rotation to the gear 10.

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In this case, the gearbox 10 provides different speeds of rotation of the shafts of test machines 6 and 7, and the performance of the hydraulic pump 6 must be higher than the consumed flow of the hydraulic motor 7, and the difference j in the performance of the hydraulic pump 6 and the hydraulic motor 7 is fed to the drain through the load valve 11 and the flow meter 12 in the tank 13.

By changing the trigger setting. load valve 11 provides a pressure change in the pressure line of the tested hydraulic machines 6 and 7, as well as pressure in the pressure line of the hydraulic pump 1 by means of the valve 14. When the control system influences the change in performance of the adjustable hydraulic pump 1 or the throttle section 4, the rotation frequency of the hydraulic motor 3 and also the rotational speeds of the shafts of the tested hydraulic machines 6 and 7.

Improving the measurement accuracy of the parameters of the stabilization of the angular velocity of rotation of the shafts of the tested hydraulic machines 6 and 7 is ensured by matching the position of the output regulator of the hydraulic pump 1 with the signals of the angular velocity sensors 15 through the control system.

Claims (1)

Claims for testing volumetric hydraulic machines with power recovery, containing a hydraulic motor, paired test hydraulic machines with pressure and drain lines, whose shafts are connected through a gearbox with a load hydraulic motor, adjustable hydraulic pump with a pressure line and control system for frequency change shaft rotation, load valves and flowmeters in pressure lines of the tested hydraulic machines and five . 1606750 hydraulic pump, the angular velocity sensor of the hydraulic pump is connected to and adjustable choke, about t l and -. The input of the hydraulic motor is flowed by the fact that, for the purpose of an adjustable throttle and a parallel expansion of the functional, it is possible, with a control cavity, to load and improve the measurement accuracy of the closed valve, with 1 full differential parameters, the pressure line is linear.