DE4040199C2 - - Google Patents

Description

The invention relates to a method for determining the Flow pressure of greases according to the type of the main claim as well as an arrangement for performing this Procedure.

To determine the flow pressure of greases is a Measurement method according to Kesternich DIN 51805 known, in which a grease in a test nozzle with increasing Pressure is applied until the grease suddenly emerges from the test nozzle. The sudden Leakage of the grease occurs when the pressure is so high that the grease begins to flow. The in this way, the maximum achievable pressure represents the Flow pressure represents. From DE-AS 17 98 034 is a device known who works according to this method.

Known measuring arrangements have a manually adjustable one Fine pressure regulator, whose output pressure by means of a pressure gauge is displayed. By manual Adjusting the fine pressure regulator will keep the pressure so long increased until a pressure drop can be seen on the manometer becomes. This drop in pressure occurs whenever that in grease located in the test nozzle begins to flow and suddenly emerges from the test nozzle. The immediate one previously reached maximum pressure is determined as the Flow pressure recorded. This manual measurement method has the  Disadvantage that it is time consuming on the one hand and on the other hand an exact, reproducible determination of the flow pressure requires a high concentration of the operator and is often buggy.

The invention has for its object a method and an arrangement for determining the flow pressure of To create greases, which is reproducible and as possible exact measurement results can be obtained.

This object is for a method by the in claim 1 specified features and for an arrangement by the in Claim 5 specified features solved. The controllable Flow pressure regulator can be done using a predetermined control program changed in, for example, the same measuring steps that the test pressure at the test nozzle is reproducibly increased step by step. Doing so the test pressure applied to the test nozzle constantly by means of of a pressure transmitter and measured in a measured value memory filed so that after a sudden occurrence Pressure drop is the measured value representing the maximum test pressure indicates when flow pressure is displayed can. By storing several measured values before they are reached the flow pressure limit there is the possibility of system-related Fluctuations in measured values and the resulting ones Measured value deviations arithmetically to determine a exact flow pressure.

A further development of the invention provides that the Pressure drop when grease escapes from one Measured value comparator is recognized, and that before the pressure drop measured test pressure is displayed as flow pressure. The measured value comparator can do the current test pressure with a test pressure previously stored in the memory compare, with the current test pressure for the next Pressure comparison is then also stored in the memory  becomes. In this way, the flow pressure from the measuring arrangement recognized and printed out or displayed to be brought.  

Test pressure fluctuations occur at the test nozzle during a measuring cycle on, which are due to the measurement setup. So that such test pressure fluctuations are not erroneously used as a pressure drop to determine the flow pressure it is particularly advantageous if a Minimum pressure drop can be specified so that smaller Pressure fluctuations for the determination of the flow pressure are not be taken into account. Only when there is a pressure drop which is greater than the specified minimum pressure drop, the previously measured maximum test pressure becomes the flow pressure displayed or used for further evaluation.

A further development of the invention provides that the test pressure is increased in adjustable pressure increase rates. In this way, different, reproducible Perform flow pressure measurements.

An arrangement for performing the method according to the invention is characterized in claim 5 and has one Measured value comparator, each of a current measured value with a last measured value determined immediately before compares. By means of this measured value comparison, the measured value comparator provides reaching the flow pressure when it occurs a strong pressure drop and may be the last Measured value as the determined flow pressure on a digital display or issue for further processing.

The invention is described below with reference to a drawing illustrated embodiment explained in more detail.

Show it:

Fig. 1, the panel with a measuring instruments to the invention OF INVENTION arrangement,

Fig. 2 is a block diagram of an arrangement according to the invention,

Fig. 3 is a side view of a fine pressure regulator and

Fig. 4 shows the end face of the fine pressure regulator shown in Fig. 3.

The control panel shown in Fig. 1 shows the following functional elements in wesentli Chen:
A pre-pressure regulator 1 for setting the pre-pressure to 2.5 bar.

A manometer 2 for measuring and displaying the set pressure.

A second manometer 3 for measuring and displaying the moment tan by a pressure regulator set pressure.

A digital display 4 for the currently set test pressure or the determined flow pressure.

A push button field 5 for switching the digital display 4 between displaying the set test pressure in computer operation and displaying the maximum value in manual operation.

A push button field 6 for switching between computer operation and manual operation.

A control knob 7 for setting the pressure increase speed in manual operation.

Pushbuttons 8 for controlling the fine pressure regulator in manual operation.

A connection 9 for a test nozzle in manual operation.

Several connections A 1 to A 6 for test nozzles in computer operation. There is an optical display 10 above the connections, which shows which nozzle is currently active.

A position indicator 11 for the respective position of the fine pressure regulator.

In Fig. 2 the entire arrangement is shown in the form of a block diagram. At the bottom in Fig. 3 ersichtli Chen pressure input is a supply pressure of 6 bar, which is set via a pre-pressure regulator and a first solenoid valve 12 to a pre-pressure of 2.5 bar. This form is applied to a controllable fine pressure regulator 13 , the control input of which is fed by a control unit 14 . Within the control unit 14 there is a motor controller 15 , which controls the servomotor 16 of the pressure regulator 13 for setting a specific flow pressure or a time-varying flow pressure. The pressure set by the fine pressure regulator 13 occurs at its outlet 17 and reaches a test nozzle 20 via a second solenoid valve 18 and a throttle 19 . At the exit 17 , the pressure gauge present there is measured by means of a manometer 3 . The test pressure at the test nozzle 20 is converted into an electrical signal by means of a pressure transducer 21 and supplied to an electronic signal evaluation 22 .

The electronic signal evaluation 22 converts the received measurement signal into digital measured values, which can be stored in a digital measured value memory 23 . A measured value comparator 26 is located between the input 24 and the output 25 of the digital measured value memory 23 .

Furthermore, a control logic 27 is provided, which controls 28 light indicators 29 depending on the position or the actuation of external operating elements to identify the current operating state. In addition, the control logic 27 controls the control unit 14 , the solenoid valves 12 , 18 and the devices 22 to 26 . The control logic 27 sets the entire arrangement to the desired measuring method or operating states.

In manual operation, the engine control 15 can be influenced directly by means of a pressure stage selector switch 30 .

To determine the flow pressure of a grease or a corresponding medium, a predetermined amount of the grease 31 is introduced into the funnel-shaped free space of the test nozzle 20 . The grease 31 is now subjected to increasing test pressure PD until the grease 31 flows down through the channel 32 out of the test nozzle 20 . This flowing out occurs suddenly the moment the flow pressure is reached or slightly exceeded.

The test pressure PD is increased continuously or step by step by appropriate control of the fine pressure regulator 13 . When the flow pressure is reached, the test pressure PD drops suddenly at measuring point 33 . This pressure drop is determined by the measured value comparator 26 , so that this causes the measured value memory 23 via the control line 34 to transmit the maximum test pressure, which corresponds to the flow pressure, to the digital display 4 on the output side. Instead of the digital display 4 , a further pressure evaluation device can also be provided which, for example, evaluates the measurement results of several successive measurements.

In FIGS. 3 and 4 a possible embodiment of the precision pressure regulator 13 is illustrated. The fine pressure regulator 13 has a servomotor 16 which actuates a setting wheel 37 via a gear 35 and a toothed belt 36 . The adjusting wheel 37 changes the position of a pressure plate 39 via a threaded spindle 38 , the left and right end positions of which are monitored by limit switches 40 , 41 .

Claims (5)

1. Arrangement for determining the flow pressure of greases or the like by means of a standardized test nozzle that receives a grease, in which the grease is subjected to increasing pneumatic test pressure until the grease suddenly emerges from the test nozzle and the test pressure drops spontaneously, the immediately before the pressure drop prevailing maximum pressure is determined as the flow pressure, characterized in that the grease ( 31 ) located in the test nozzle ( 20 ) is acted upon with a test pressure (PD) by means of a controllable fine pressure regulator ( 13 ) via a throttle ( 19 ); that a control unit ( 14 ) connected to the fine pressure regulator ( 13 ) increases the test pressure (PD) step by step or continuously; that a constant measurement of the test pressure (PD) takes place via a pressure transducer ( 21 ) and the measured values are stored in a measured value memory ( 23 ); and that at least one of the measured values determined immediately before the occurrence of a minimum pressure drop is used to determine the flow pressure. 2. Arrangement according to claim 1, characterized in that the pressure drop when the grease ( 31 ) emerges from the test nozzle ( 20 ) is detected by a measured value comparator ( 26 ), and that the test pressure (PD) measured before the pressure drop is displayed as flow pressure . 3. The method according to claim 1 or 2, characterized in that the deviation of the current test pressure (PD) from the last measured pressure value is determined in a signal evaluation ( 22 ), and that at a predetermined percentage or absolute minimum pressure drop, the previously determined test pressure (PD ) is displayed as flow pressure. 4. Arrangement according to one of the preceding claims, characterized in that the Test pressure (PD) increased in adjustable pressure increase rates becomes. 5. Arrangement for performing the method according to any one of the preceding claims, characterized in that a constant working pressure (2.5 bar) is present at the pneumatic input of the controllable fine pressure regulator ( 13 ); that there is a control unit ( 14 ) connected to the fine pressure regulator ( 13 ) for gradually or continuously increasing the test pressure; that the pneumatic output ( 17 ) of the fine pressure regulator ( 13 ) is connected via a reusable valve ( 18 ) to a throttle ( 19 ) which is connected on the output side via a pressure line to which the pressure transducer ( 21 ) is connected to the test nozzle ( 20 ) ; that the measuring output of the pressure transducer ( 21 ) is connected to a signal evaluation ( 22 ) which supplies the current pressure values on the output side to a digital measured value memory ( 23 ) and to a first input of a measured value comparator ( 26 ); that an output of the measured value memory ( 23 ) is connected to the second input of the measured value comparator ( 26 ) and supplies the latter with the last measured value stored immediately before the current measured value; and that the comparison between the current and last measured value detects a test pressure drop occurring when the flow pressure is reached by the measured value comparator ( 26 ) and the last measured value is output as a flow pressure from the measured value memory ( 23 ).