DE1498337A1 - Method and device for temperature control - Google Patents

Description

Method and device for temperature control The invention relates to a method for temperature control when checking and calibrating volume counters and the like, especially those for heating or lubricating oil. It is an aim of the invention to specify a method that is simple to implement and, accordingly, also functionally reliable is. The inventive method is characterized in that in the storage container of the test medium a pre-temperature is maintained at which the test medium is pumpable, the medium in the storage container starting from this preliminary temperature is heated to a temperature corresponding to the respective test temperature.

A preferred device for carrying out the invention The method is characterized in that a, az.B. Floor heating coil heated by steam to heat the medium to the pre-temperature and another, z03. plug-in preheater heated by steam to heat the MEdiums to the temperature corresponding to the respective desired test temperature are present. It is m to prevent contamination of the test equipment useful if a mixture of raffinates is used as the test medium, the in their temperature-viscosity characteristics the mean value of all for the operation the Volumeter eligible media, such as Heating oils one corresponds to a specific group (sohwer, medium or light) or lubricating oils.

The invention is based on a shown in the drawing, Schematic embodiment explained in more detail.

The storage container 1 f;: r the test medium, which may also be Can be heating or lubricating oil is equipped with a floor heating coil 5. the The task of this floor heating system is to remove the stored medium up to a certain The temperature required in each case, which guarantees the pumpability of the medium, preheat and keep warm. The floor heating coil 5 is acted upon functional with Dampi. A control valve 7 is provided for temperature control, which the rule receives pulses from a sensor 8 arranged inside the container 1. The temperature control of the heating coil 5 is thus practically carried out by regulating the quantity of the heating medium flowing through, u.zw. depending on the temperature in the container 1. reiter is also a plug-in preheater 6 is arranged in the container, which the test medium heated to a temperature assigned to the test temperature required in each case. The possibility of a durohumeter (Votumeter) with media of different temperatures check, it is therefore necessary to ensure that the viscosity and also the density of the medium conveyed through / meter with the temperature changed and the flow counter also with these changed conditions within The prescribed tolerance work measured so that also a check of the counter at variable operating conditions must be given. Modern Flow meters are equipped with a temperature compensation device, which makes it possible to see what has passed through the volumeter at different temperatures Read off quantities in weight units u.zw. within the way tolerance passed by the respective statutory provisions are in place. Such flow counters can only be checked on the device according to the invention 6 supplied heating medium is controlled in terms of quantity by a control valve 9, which his Control pulses received from a sensor 10, which is in the discharge line 11 directly is arranged behind the outlet of the test medium from the container 1. The rough regulation of the heating medium supplied to the plug-in preheater 6 is carried out by hand or automatically operated valve 9.

In the drain line 11 is also an automatic, in particular pneumatically actuated shut-off element 27 is arranged, which is preceded by a feed pump 28 or downstream. This pump is usually lower than the container 1 so that the test medium flows to it. In addition, it is container 1, if this is a Elevated tank is still a level sensor, e.g. float or the like. arranged, the the pump switches off as soon as the fluid drops below a certain level in container 1 will.

@e suction opening of the line leading to pump 28 is lower than the level at which the pump is switched off. It is allowed to do it will not survive that due to the sometimes viscous material, that is to be demanded, is in the container in the area of the suction opening a Can form suction funnel, as the level does not drop evenly. The amount of this The suction funnel determines the extent to which the pump will level when it is reached is withdrawn, must be higher than the opening of the suction opening. Through the Measure is achieved that the pump is not supplied with air, so its own Gas separator can be drained, its arrangement when retieb with heating oil or other viscous media always problematic and also costly is.

The pressure line leading away from the pump is at point 29 split into two strands. One of these strands serves to convey a subset of the To be able to feed the test medium to a preheater 2. In this preheater this Partial amount heated. The control of the flow rate of the heating medium to the preheater 2 takes place through a control valve 12, which receives its impulses through a thler 13, which is arranged in the vicinity of the connection point of the test body to the pressure line is. The coarse control of the heating medium fed to the preheater 2 is carried out by a manually or pneumatically operated valve 12.

In those cases in which the test temperature is only slightly above the is held by the heating coil 5 pre-temperature, it is possible to comply the test temperature can only be ensured with the preheater 2 and on the insert preheater to renounce.

The bypass line 14 opens out again at point 3 the line coming from the preheater 2 and is equipped with a control valve 15, the opening of which is controlled by pulses from a sensor 16, which is immediately behind the Association point 3 is arranged. Between the union 3 and the exit Another control valve 17 is installed from the preheater 2, which controls the control pulse from a sensor 18, which is arranged immediately behind the union 3 is.

A control valve 19 is also arranged behind the junction 3, its associated sensor 20 is in the vicinity of the connection point of the test body to the pressure line. With the help of the control valve 17, the flow rate be controlled by the preheater 2, while with the help of the control valve 15 in of the bypass line 14 is the ratio of the flow through the bypass line 14 Quantity (reference variable) and the quantity (additional quantity) that can be controlled by passes through the preheater 2. There is a filter in front of the outlet from the pressure line arranged between two shut-off devices 31 and 32. This filter is with differential pressure gauges equipped to determine the degree of pollution. Before leaving from the pressure line is also a line 32 a for connecting a thermometer intended.

The filter 30 is equipped with a shut-off element 33 via a valve Line 34 connected to the return line 35 for the medium. At the exit end the pressure line is a pressure flange 36 on which the inlet flange of the volumeter to be tested is connected. The outlet flange of the volumeter is coupled to a pressure flange 37 of the measuring bench.

In principle, the measuring bench has the same structure as the measuring bench for fuel meters. Normally designed flow meters are not required if the medium is opaque. In this case, flow meters e.g. with magnetic or electronic display or transmission of the same. The measuring bench is with a drip pan 38 for the test liquid still emerging from the volumeter after the test. The collecting trough 38 is via a line provided with a shut-off element 39 40 connected to the reflux line 35. To the outlet line 41 to the volumeter a temperature writing device 25 and a density writing device 24 are connected. Furthermore is still a connection line 32 b for a thermometer to display the outlet temperature intended.

In the outlet line 41 there is also a shut-off element 41 a built in, with the help of which a back pressure (artificial operating pressure) is arbitrary is adjustable.

With the circuit shown in the drawing, it is possible to the test medium after flowing through the test body of the return line 35 via a To feed line 42 or to charge a measuring vessel 26 via a line 41a, that stands on a scale 23. Before each control measurement, the empty weight of the Measuring vessels? so that the respective actual tare weight is determined can be. The outflow from the measuring vessel takes place via an automatic, in particular pneumatic shut-off device 49 closable line 44, which has a Funnel 46 a opens into a line 46 secured by a check valve 45, the is connected to the return line 35.

In the line 42 a leading to the measuring vessel 26 is one with a Lantern 48 provided with ventilation valve 47 between two shut-off devices 49 and 50 turned @ aut. Also in the, the outlet line 41 directly with the return line 35 connecting line 42, a shut-off device 51 is installed.

The shut-off device is the shut-off device if the device is checked while it is running 49 closed and the shut-off element 51 in line 42 open. On the other hand, should the liquid which has passed through the volumeter is fed to the measuring vessel 26, so the valves 49 and 50 are open and the valve 51 is closed. The lantern 48 serves to check whether the line is full or not.

The return line 35 leads into an intermediate container 52, which is only needs to be available if a raised tank is used as a storage tank. All valves in the lines described above can be remote-controlled. From the Intermediate container 52 sucks in a pump 53 the test medium and pushes it through a Return the cooler 4 to the storage container 1.

The cooler 4 is designed in such a way that that which flows back into the day container 1 Medium down to the original temperature required in each case (Vorteniperatur) is cooled. The most appropriate cooling medium is water. A control valve 21 is built into the water supply line, which controls the flow of water depending on the outlet temperature from the cooler or in the storage container. in the The example shown is the sensor controlling the regulating valve 21 Arranged immediately after the exit from the cooler 4.

All product-carrying lines and devices such as filters, measuring bench, The measuring vessel and the like are insulated and provided with an automatically controlled auxiliary line designed to reduce the temperature of the test medium during the flow and to be avoided in the measuring vessel. As soon as the measuring vessel is emptied, there is an acceleration the outflow of the liquid adhering to the wall of the measuring vessel from the B containers @heated by a thermal surge.

The arrangement of the control valves and the sensors assigned to them can be adapted to the respective conditions.

Reiters another possibility is provided, the least static Determine the pressure at which a volumeter responds. For this purpose there is a storage container 26 a is provided, which is located on a scale 23 a and via a line 42 b is fed, which can be closed against the pressure line 11 by a shut-off element 50 a is. The master container is loaded with a certain PUll weight, which on the balance 23 a can be read. A drain line 46 b leads to one with Filling vessel 60 provided with a zero mark. The zero mark corresponds here with the zero mark in the lantern 48, so that both flanges on the measuring bench below face the same pressure. The vessel 60 is connected to the feed line via a line 46 c 11 connected to the flange 36 of the Weßbank via the shut-off device 31 a. Is now over the line 46 b to the storage container 60 via the automatic, remote controlled Abs @ perrorgan 43 a liquid supplied, the volumeter to be tested spans on as soon as a certain amount of liquid has flowed into the reservoir 60 is.

The weight of this amount of liquid is the difference between the fill weight originally restricted by the scales and that weight that is in the Can be determined at the moment of the counter's claim on the scales.

3ei volumeters, especially with temperature compensation devices Fir fuels and other highly volatile media can in principle be the same System to apply.

Claims (21)

P a t e n t a n s p r ü c h e: () i. Procedure for temperature control when checking and calibrating volume counters, such as those with temperature compensation devices for heating or lubricating oil, characterized in that the test medium is in the storage container (1) a pre-temperature is maintained at which the test medium can be pumped, starting from this preliminary temperature ds, s MEdium preferably in the storage container (1), is heated to a temperature corresponding to the respective test temperature. 2. The method according to claim 1, characterized in that the pre-temperature is regulated as a function of the temperature in the container (1), while the respective test temperature the medium corresponding temperature in the container (1) in Regulated as a function of the inlet temperature of the medium from the container (1) a separate preheater (2) is provided and / or to regulate the test temperature is. 3. The method according to claim 1 or 2, characterized in that the preheater (2) a partial amount of the test medium coming from the container (1) is supplied, the heating depending on the temperature of the MEdium takes place immediately before entering the volume meter to be tested. 4. The method according to claim 3, characterized in that the flow through the preheater (2) or the dwell time of the medium in the preheater (2) in Depending on the temperature is regulated, which is immediately behind the Job prevails at which the amount that has passed through the preheater (2) is combined. 5. The method according to claim 4, characterized in that the amount of the medium (reference variable) bypassing the preheater (2) depending on the temperature behind the union point (3) with that passed through the preheater (2) Subset - (additional size) is regulated. 6. The method according to any one of claims 1 to 5, characterized in that that the medium flowing back into the container (1) after passing through the test body in a cooler (4) to a temperature corresponding to the pre-temperature in the container (1) is cooled. 7. The method according to any one of claims 1 to 6, characterized in that that a mixture of raffinates is used as the test medium, which in its temperature-viscosity characteristics the respective mean value for the operation of the Volumeter Media, such as, for example, heating oils of a certain group (heavy, medium or light) or other viscous oils e.g. Lubricating oils. 8. Device for performing the method according to one of the claims 1 to 7, characterized in that in the container (1) of the test medium a e.g. Steam-heated floor heating coil (5) for heating the medium to the pre-temperature and to heat the medium to the corresponding test temperature Temperature of another, e.g. steam-heated, plug-in preheater (6) in the container (1) and / or a preheater (2) outside the container (1) are provided. 9. Apparatus according to claim 8, characterized in that the amount of the heating medium flowing into the floor heating coil (5) through a control valve (7) is controlled, the control pulses from one inside the container in the area the heating coil arranged counter (8) receives. 10. Apparatus according to claim 8, characterized in that the tIenQe of the heating medium fed to the plug-in preheater (6) through a ReQel valve (9) controlled wtrd., Which receives the control pulses from a sensor (10), the outside of the container (1) is arranged in the discharge line (11) of the test medium. 11. The device according to claim 8, characterized in that the The amount of heating medium supplied to the preheater (2) is controlled by a control valve (12) which receives the control pulses from a sensor (13) in the drain line (11) of the test medium from the container (1) immediately before the entry of the test medium is arranged in the test body. 12. The device according to claim 8, characterized in that in the the preheater (2) bypassing line (14) is arranged a control valve (15) which the vteuerimpulse from a counter (t6) received in the drain line (11) of the Test medium is arranged immediately behind the point (3) at which the bypass line (14) combined with the line coming from the preheater (2). 13. Apparatus according to claim 11 or 12, characterized in that that between the exit from the preheater (2) and the union (3) of the from the preheater (2) coming line with the bypass line (14) eir. Control valve (17) is arranged, which its control impulse from an in the supply line behind the union (3) arranged Euhler (18) receives. 14. Device according to one of claims 11 to 13, characterized in that that in the direction of flow behind the junction (3) a control valve (19) is arranged that receives its control pulses from a sensor (20), the In the Drain line (11) immediately before the test medium enters the test body is arranged. 15. Device according to one of Claims 8 to 14, characterized in that that the amount of the cooling medium supplied to the cooler (2) preferably water, of controlled by a control valve (21) arranged in the supply line for the cooling medium which receives its control impulses from a sensor (22) which is in the from the cooler (4) to the container (1) leading line, preferably immediately after the cooler (4) is arranged. 16. The device according to claim 15, characterized in that the earth of the reflux line coming from the cooler (4) 1 into the container (1) is provided with a nozzle, which the exiting medium against the horizontal inclined direction gives 80 that a homogeneous mixing between the in the 3ehälters (1) located and the backflowing medium takes place. 17. Device according to one of claims 8 to 16, dadruch gfekennzeihcnet, that the test medium can be fed to a measuring vessel (26) after flowing through the full meter is, which is on a scale (23), so that both the volume and the density of the medium which has passed through the volumeter can be determined and thus the weighing tolerance is controllable. 18. Apparatus according to claim 17, characterized in that in the return flow line leading away from the volumeter immediately behind the volumeter Density recorder (24) and preferably a temperature recorder (25) is installed. 19. Device according to one of claims 8 to 18, characterized in that that in the pressure line (11) immediately before the pressure flange (36) for the inlet side Connection ctes to nriifenden Volumeters a feed line (46 c) einmünedet, the can be connected to a template container (60) which is provided with a zero mark is, whereby this zero mark indicates that liquid level at which the on de Anpreßflansch (36) The prevailing static pressure is equal to the static pressure on the contact flange (37) acts, to which the outlet side of the volumeter can be connected. 20. Apparatus according to claim 19, characterized. That the Volume container (60) over a vessel (26 a) located on a scale (23 á) a line (46 b) which can be closed by a shut-off element (43 a) holds a quantity of liquid can be fed, the weight of which can be determined. 21. The device 'according to claim 20, characterized in that the Vessel (26 a) into the pressure line via a shut-off device (50 a) (11) opening line (42 b) can be acted upon.