DE4025323A1 - Throughflow measurer for radiators of central heating system - has electronic computer receiving measurement values from length and pressure differential measuring units - Google Patents

Abstract

A valve fitting is mounted in-front of or behind the radiator. It provides a shut-off valve, externally adjustable, between the inlet and outlet joints to simplify the measuring procedure. Channels or bores (7) are provided in the fitting (1) in front of and behind the shut-off valve in the direction of flow. These channels or bores branch off. A pressure differential measuring appts. with a measuring head (13) is connectable to the open ports of the channels. - The lift of the closure piece (5) of the shut-off valve (4) can be registered by a length measuring device held on the measuring head. A computer (14) receives the measurement valves of the length measurer and the differential measuring appts. The computer registers the throughflow valve from these valves. - (Dwg.1/2)

Description

The invention relates to a device for flow measurement on radiators of hot water heating systems, consisting of one in the heating circuit before or Radiator fitting installed behind the radiator with inlet and outlet connection and in between shut-off valve adjustable from the outside.

Up to now, the state of the art has included string regulation valves known electronic measuring devices that can measure the pressure difference and after entering the Type, the nominal size and the default values Flow can display. Such a device would also be used with generic devices bar, namely conventional radiator fittings. The Operation is very complex, because the Be users the type of valve, the nominal size  and enter the preset value to get the one you want Determine the flow measurement by means of differential pressure measurement to be able to.

Based on this state of the art Invention, the object of a device Generic type to create the measurement procedure considerably simplified.

To solve this problem it is proposed that in Fitting housing in the flow direction in front and behind branches or bores branched off the shut-off valve are at the free mouths a pressure difference measuring device can be connected with a measuring head that the Stroke of the closing body of the shut-off valve by means of a length measuring device held on the measuring head is detectable, and that the measured values of the lengths measuring device and the pressure difference measuring device receiving electronic computer arranged is by means of which the stroke of the Closing body and the differential pressure resulting Flow measured value can be determined and displayed.  

For the valve, which is a common radiator screw Exercise is due to the arrangement of the channels or Bores, the decrease in pressure of the differential pressure measurement possible. The channels or holes open on the inside the valve in front of or behind the shut-off valve, ins special the valve seat, and open on the outside the valve body at a point through the Measuring head of the pressure difference measuring device is covered and a corresponding line connection to the pressure difference manufactures measuring device. On the measuring head of the pressure difference measurement device is also the length measuring device gehal tert, the stroke of the closing body of the shut-off valve detected. The two measured values recorded in this way (stroke of the closing body or differential pressure) in a suitable manner fed to an electronic calculator, the component the flow measuring device is, in this computer the corresponding values are converted immediately and a flow indicator on a corresponding to Pointing device, which is also part of the through flow measuring device is possible. The handling to get an appropriate reading is very easy, because the corresponding flow meter with  his measuring head only placed on the valve must be on the one hand the connections to the Mouths of the channels or holes for detection the differential pressure and on the other hand Connections for detecting the relative position of the Form closing body.

It is preferably provided that the bores to connect the pressure difference meter ver are closable.

Furthermore, it is preferred that as closure elements externally accessible screw cone in the fittings housing can be screwed in.

The screw cone must be arranged in such a way that the holes penetrating the valve body or channels with the measuring head attached and open Removal of the measuring head can be closed again can.  

A preferred variant of this is seen in that as closure elements check valves in Fitting housings are held, which by means of Measuring head trained adjusting finger at the Fitting housing inserted measuring head through Release the flow through the holes towards the measuring head.

With this arrangement, the mouths of the Bores or channels of the valve body as Closure elements check valves used, which when placing the measuring head by means of the Measuring head trained adjusting fingers in the opening position are shifted so that the flow is released. When removing the measuring head the check valves close automatically.

A further preferred training is in it seen that the measuring head on the front Fitting housing is slidable, the Connecting channels penetrating the measuring head with their fitting-side mouth coaxial to the free  outer mouths of the valve body through setting channels can be aligned.

With this arrangement, the measuring head, the ent Talking seals in the area of the mouths which has channels or bores on the front be pushed onto the valve body, with appropriate stops on the measuring head there is an insertion depth limitation so that the target position is inevitable.

Furthermore, it is preferably provided that on Measuring head held a spring-loaded plunger one end of which is on the faucets Measuring head attached to parts of the Shut-off valve closing body under Spring preload is applied and its other end with an electrical path up participant is connected.  

When placing the measuring head on the valve body the spring-loaded plunger is inevitably in the direction the coaxially located in the valve body Shutters of the shut-off valve moved until the Tappet tip against a stop part of the closing body is created. The measuring head can then continue on Valve housing opened up to its target position be pushed, the plunger against a front Tension spring moves outwards relative to the measuring head. At the outer end facing away from the valve body the plunger is a corresponding electrical path transducer provided, by means of which the relative Ram position detectable and in a stroke of Shaped the corresponding measured value can be.

With this training it is possible that the way sensor as an electrical sliding resistor is formed.

A variant of this is seen in that the Displacement sensor as inductive or capacitive measuring converter is formed.  

Embodiments of the invention are in the Drawing shown and in more detail below described. It shows

Fig. 1 shows a first embodiment in side view in section;

Fig. 2 shows a second embodiment in the same view.

The device for flow to radiators is made to an example in the heating circuit in the execution installed in front of the radiator valve 1 with inlet ports 2 and outlet connection. 3 Between these there is an externally adjustable shut-off valve 4 with a closing body 5 . From the check valve 4 is screwed into a corresponding hole in the valve body 1 and seals abge. The closing body 5 is adjustable towards the valve seat 6 from the outside in order to release different cross sections, as is known per se. The part of the closing body 5 facing away from the flow is accessible from the end face of the radiator fitting 1 . In the flow direction upstream and downstream of the shut-off valve 4 , channels or bores 7 are arranged. These channels or holes 7 open on the one hand in front of and behind the valve seat 6 in the flow channel and on the other hand open to the outside of the armature housing 1 . At these holes or channels, a pressure difference measuring device with a measuring head 13 can be closed. The measuring head 13 has corresponding bores or channels 11, which are attached at the valve housing 1 the measuring head 13 on the one hand with the ducts 7 in connection and on the other hand, the differential pressure gauge can be connected with. The stroke of the closing body 5 of the shut-off valve 4 can be detected by means of a length measuring device held on the measuring head 13 , which will be described later. In addition, an electronic computer 14 is seen before the measured values of the length measuring device and the pressure difference measuring device, by means of which the flow rate resulting from the stroke of the closing body 5 and the differential pressure can be determined. The computer is coupled to a display device 15 , on which the flow measurement value can be displayed.

The bores or channels 7 for connecting the pressure differential measuring device can be closed, so that the outlet is only released to the outside when the measuring head 13 is attached, while this outlet is otherwise closed. For this purpose, an externally accessible screw cone is screwed into the fitting housing in the embodiment example according to FIG. 1 as the closure element 12 . These screw cones are accessible in the drawing from above, that is, from the front of the fitting, for which purpose the measuring head 13 has corresponding penetrations. When the measuring head is attached, each channel 7 can be opened by actuating the screw cone and brought into line connection with the channels 11 of the measuring head 13 .

In the embodiment of FIG. 2 are supported as the closure elements 12 check valves in the valve housing 1 by means of the measuring head 13 from formed actuator finger 16 when attached to the fitting housing 1 measuring head to flow through the bores 7 to the measuring head 13 side, ie, toward the channels 11 release. In both embodiments, the probe 13 is the end face can be pushed onto the fitting housing 1, wherein the measuring head passing through connecting channels 11 to the free outer mouths of the fitting housing 1 are aligned with their armatures side opening coaxially passing through channels. 11 This position is defined by stop means 17 located on the measuring head 13 . In the embodiment shown in FIG. 2, a spring-loaded plunger 8 is held on the measuring head 13 , one end of which is placed on parts of the closing body 5 of the shut-off valve 4 under pretension of a spring 18 on the valve housing 1 on the measuring head 13 . The other, the valve housing 1 facing end is with an electrical displacement sensor 9 in active connection. The displacement sensor is in the embodiment example of FIG. 2, a sliding resistance. Instead, an inductive or capacitive transmitter can also be used. In the embodiment according to FIG. 1, an ultrasonic sensor 10 is held on the measuring head 13 as a length measuring device for determining the stroke of the closing body 5 , the pulses emitted by the ultrasonic sensor 10 being reflected by parts of the closing body 5 , so that the relative position of the closing body is detected and in suitable values can be implemented, for example, in the computer 14 .

The handling of the flow measuring device is very simple, because if a flow measurement is to be carried out, only the measuring head 13 with all the installation elements in it can be pushed onto the end face of the fitting housing 1 until it has reached its desired position. In this position, the closure elements for the bores 7 can either be opened manually or, according to the exemplary embodiment in FIG. 2, they are already open. The pressure difference on the channels 7 and the relative stroke of the closing body 5 can be easily detected by the appropriate measuring devices and read into the computer 14 , whereupon the flow measurement value is displayed directly on the display device 15 .

The invention is not limited to the exemplary embodiments limited, but a lot within the scope of the revelation times variable.

All new, in the description and / or drawing disclosed individual and combination features regarded as essential to the invention.

Claims (8)

1. Device for flow measurement on radiators of hot water heating systems, consisting of a built in the heating circuit in front of or behind the radiator armature fitting with inlet and outlet connection and interposed, externally adjustable shut-off valve, characterized in that in the fittings housing ( 1 ) in the direction of flow In front of and behind the shut-off valve ( 4 ) channels or holes ( 7 ) are branched, at the free mouths of which a pressure difference measuring device with a measuring head ( 13 ) can be connected, that the stroke of the closing body ( 5 ) of the shut-off valve ( 4 ) by means of a on the measuring head ( 13 ) supported length measuring device can be detected, and that a device which records the measured values of the length measuring device and the pressure difference measuring device, electronic computer ( 14 ) is arranged, by means of which the flow measurement value resulting from the stroke of the closing body ( 5 ) and the differential pressure can be determined and displayed is. 2. Device according to claim 1, characterized in that the bores ( 7 ) for connecting the pressure difference measuring device can be closed. 3. Apparatus according to claim 2, characterized in that the closure elements ( 12 ) from the outside accessible screw cone in the valve housing ( 1 ) are screwed bar. 4. Apparatus according to claim 2, characterized in that as closure elements ( 12 ) check valves in the valve housing ( 1 ) are held, which by means of the measuring head ( 13 ) trained adjusting finger ( 16 ) on the valve housing ( 1 ) mounted measuring head ( 13 ) Release the flow through the holes ( 7 ) to the measuring head ( 13 ). 5. Device according to one of claims 1 to 4, characterized in that the measuring head ( 13 ) can be pushed on the end face of the fitting housing ( 1 ), the measuring head ( 13 ) penetrating connecting channels ( 11 ) with its fitting-side mouth coaxial to the free outer Mouths of the valve housing ( 1 ) can be aligned by setting channels ( 7 ). 6. Device according to one of claims 1 to 5, characterized in that the measuring head (13) a spring-loaded plunger (8) is mounted, one end of which in the fitting housing (1) plugged measuring head (13) on parts of the locking body (5 ) of the shut-off valve ( 4 ) is spring-loaded and the other end is in active connection with an electrical displacement transducer (e.g. 9, 10 ). 7. The device according to claim 6, characterized in that the displacement sensor ( 9 ) is designed as an electrical sliding resistance. 8. The device according to claim 6, characterized in that that the displacement sensor as an inductive or capacitive Transmitter is designed.