DE102005035060B3 - Loading state reporting device for lamination loading store has through-flow sensor in inflow line connected to cold water inflow and loading circuit inflow - Google Patents

Abstract

The reporting device is for a lamination loading store (1) with a cold water inflow (2) and a loading circuit inflow (3) to a loading circuit (7). There is a through-flow sensor (4) in an inflow line (5) connected to the cold water inflow and the loading circuit inflow. A mass-difference based on the difference between the two inflows is reported.

Description

The The invention relates to an apparatus and a method for determining of loading conditions in a stratified storage tank.

The Stratification technology is a technology that is used today Hot water storage is used. In this case, a stratified storage comprises a external heat exchanger, over the the stratified storage tank removed water is heated. The heated water is returned to the stratified storage tank, the heated water for example, inserted into an upper area of the memory becomes, which leads to a stratification of the warm water. Usually, the stratified storage is about a Charging pump and an externally arranged heat exchanger recharged. The Recharge usually takes place in such situations, in which the memory due to cooling by tapping and / or by normal cooling chilled Has. The thermal energy is generated by a burner and at the heat exchanger delivered to a charge mass flow of a charging circuit.

traditionally, are within the stratified storage one or more temperature sensors arranged with the help of the recharge of the stratified charge storage is controlled. In particular, it is controlled with the temperature sensors, when reloaded the stratified storage and when the recharge is ended.

It It is also already known that one in the charging circuit of the stratified charge memory arranged throttle a charge mass flow in the charging circuit (charging volume flow) limited, so that with strong recharging the thermal performance of the burner is able to raise the necessary temperature increase. This situation can occur especially when the charge pump too much, so that the performance of the heat exchanger is not sufficient to the setpoint temperature of the hot water in the stratified storage tank to reach.

From the DE 101 18 343 A1 a heating system with a water heater is known, which is heated by a dhw charging circuit. Furthermore, the disclosure DE 34 26 905 A1 a hot water storage heater with a flow meter in the water line of the memory. The flow rate is integrated over a period of time and compared to the hot water volume setpoint at the end of the time period.

task It is the object of the present invention to provide an apparatus and a method to provide with those loading conditions in a stratified storage can be determined.

The Task is solved with a device according to claim 1 and with a method according to claim 9. Preferred embodiments of the invention are specified in the dependent claims.

The inventive device is for determining loading conditions in a stratified storage provided, the stratified storage a cold water inlet and a charging circuit inlet to a charging circuit. The device is characterized in that a flow sensor in a with the inflow of cold water and the charging circuit inflow is arranged to the stratified charge storage, wherein with the flow sensor a difference mass flow from a water flow in the cold water inlet and a water flow in the charging circuit inflow is determined.

After this the water flow in the cold water inlet always to the stratified storage tank directed and a water flow for the charging circuit always from the Stratified storage tank withdrawn and / or removed from the cold water inlet is, the determined differential mass flow is a measure of whether and how much water is pushed in or out of the stratified storage tank becomes. The differential mass flow can be used as a measure of the loading state of the stratified charge storage be considered as a result of tapping. The loading state of the stratified charge storage can thus be determined well with the aid of the determined differential mass flow become.

According to one Development of the device according to the invention is the flow sensor as a measuring device for a setpoint of a load volume flow usable in the charging circuit. This is especially useful if no cold water through the cold water inflow to the stratified storage supplied is, so that the flow sensor exclusively of water from the stratified storage flows through becomes.

According to a further preferred embodiment of the device according to the invention, it is provided that, furthermore, a temperature sensor is arranged in the inflow to the stratified charge store. With the help of a temperature of the difference mass flow through the flow sensor or through the temperature sensor, which is determined by the temperature sensor, a precise energy flow into and out of the stratified charge storage can thus be determined qualitatively and quantitatively. It is therefore advantageous at any time an operative operation of the stratified charge storage known whether and with what energy the stratified storage is loaded or unloaded. If simultaneous tapping and reloading, which is a main application in the operation of the stratified storage, you always know whether in total more thermal energy is refilled or removed.

The Invention will be detailed below with reference to a single figure described.

1 shows a basic, greatly simplified construction of a stratified storage with the inventive device for detecting the loading state of the stratified charge storage.

The 1 shows for better clarity in a greatly simplified form a stratified charge storage 1 which flows into a lower area 5 to the stratified storage 1 having. The inflow 5 to the stratified storage 1 is at a crossing point of a cold water inflow 2 and a charging circuit inflow 3 to a charging circuit 7 of the stratified charge storage 1 arranged. In the inflow 5 to the stratified storage 1 is a flow sensor according to the invention 4 arranged. The flow sensor 4 is designed such that it directionally sensitive and quantitatively difference mass flows of water streams in the cold water inlet 2 and in the charging circuit inflow 3 can determine.

The flow sensor 4 is preferably designed as a turbine and determined at each time a dispensing or recharging the difference mass flow from the water flow in the cold water inlet 2 and the water flow in the charging circuit inflow 3 ,

The mass flow in the charging circuit 7 is usually made up of a mass flow component due to the cold water inflow 2 and a mass flow component from the stratified storage 1 together. This is the case when both a tap and a recharge takes place. Furthermore, the mass flow in the charging circuit 7 without a mass flow component in the cold water inflow 2 (Loading volume for the charging circuit 7 comes exclusively from the stratified storage 1 ) or solely from the mass flow in the cold water inlet 2 (No share of the load volume flow from the stratified storage 1 ) be formed.

In the event that the mass flow in the cold water inlet 2 is greater than the mass flow in the charging circuit inflow 3 , a resulting differential mass flow through the flow sensor 4 towards the stratified storage 1 pushed.

In the event that the mass flow in the cold water inlet 2 is smaller than the mass flow in the charging circuit inflow 3 , is used to supplement the required mass flow in the charging circuit 7 a difference mass flow from the stratified storage 1 taken and as differential mass flow through the flow sensor 4 towards the charging circuit 7 pushed.

In the event that the mass flow in the cold water inlet 2 is substantially identical to the mass flow in the charging circuit inflow 3 , Essentially nothing is taken from the stratified charge storage and the resulting differential mass flow through the flow sensor 4 is essentially zero.

With the help of the flow sensor 4 So it is known at any time, in which direction the water flow relative to the stratified storage 1 flows. Thus, the flow sensor 4 be regarded as a measuring device, the resulting mass flow through the flow sensor 4 Directional and quantitatively recorded.

In the charging circuit 7 of the stratified charge storage 1 is a charge pump 6 arranged. The charge pump 6 is adapted to charge the charge flow through a heat exchanger (not shown) in the charging circuit 7 promotes and into the stratified storage 1 inserts. In the event that the charge pump 6 does not promote, the stratified storage 1 So it is not recharged, you get as the resulting differential mass flow through the flow sensor 4 the Zapfmassenstrom. In the event that in cold water inflow 2 no water to the stratified storage tank 1 is fed (exclusive reloading) can be checked whether the charge pump 6 Promoted amount of water in the charging circuit 7 corresponds to a desired value of the charge volume flow.

According to a development of the device according to the invention it is provided that in the inflow 5 to the stratified storage 1 Further, a temperature sensor 8th is arranged. The temperature sensor 8th flows through the same mass flow of water as the flow sensor 4 , With the help of the temperature sensor 8th This is done through the flow sensor 4 flowing water recorded in terms of temperature. By the measurements with the temperature sensor 8th and the flow sor 4 can control variables for the charge pump 6 be determined. It is conceivable, for example, that the input control variable for the charge pump 6 exclusively the determined differential mass flow through the flow sensor 4 is used. It is also conceivable that as an input control variable for the charge pump 6 a variable is used, which consists of the difference mass flow and that of the temperature sensor 8th determined temperature of the difference mass flow is formed.

As a result, advantageously resulting energy flows from or into the stratified charge storage 1 determined.

In the main application case of the stratified charge storage 1 at the same time a tap and a recharge. This means that both a stream of water through the cold water inflow 2 as well as a water flow through the charging circuit inflow 3 flows. Depending on which of the two water flows predominates in terms of mass, that is the direction of the water flow through the flow sensor 4 or the temperature sensor 8th to the stratified storage 1 towards or from the stratified charge storage 1 directed away.

Preferably, the flow sensor 4 and the temperature sensor 8th arranged in a substantially T-shaped tube piece. The T-shaped piece of pipe is connected to the cold water inlet 2 , the charging circuit inflow 3 and to the inflow 5 to the stratified storage 1 connected and can due to different operating conditions of the stratified charge memory 1 towards the stratified storage 1 flowed through bidirectionally. As a result, the flow sensor detects 4 in the manner described above, the difference mass flow from the water flow in the cold water inlet 2 and the water flow in the charging circuit inflow 3 ,

Advantageously, in the event that no recharge the stratified storage 1 takes place, the flow sensor 4 be used as a water switch for Zapferkennung. This means that the flow sensor 4 can be used as a sensor for a currently occurring tapping process. For this it is necessary that the charge volume flow in the charging circuit 7 is interrupted. For the interruption it is sufficient that the charge pump 6 is switched off at short notice and thus no longer promotes. It is sufficient for a proof of a tap with the help of the flow sensor 4 advantageous even a brief interruption of the pump delivery by the charge pump 6 , A corresponding signal for the detection of the tapping process taking place, for example, on an optical display device on the stratified charge storage 1 are displayed. A user friendliness of the stratified charge storage 1 is thereby advantageously improved.

Particularly advantageous in the present invention is considered that by means of the flow sensor 4 Loading conditions of stratified storage and recharging the same are very sensitive determined or regulated. With the help of the optional temperature sensor 8th Furthermore, energy flows into and out of the stratified charge storage 1 be determined. Loading conditions of stratified charge storage 1 are thereby very accurately determined, whereby the recharge of the stratified storage 1 can be further improved.

With the aid of the device according to the invention can thus be a thermal cooling of the stratified charge storage 1 be better recorded and evaluated. In particular, it can be judged whether the cooling is due to tapping or whether the cooling is a "normal" cooling due to a cooling process of the stratified charge storage 1 is. The "normal" cooling can already be done with conventional, inside the stratified storage 1 arranged temperature sensors are determined.

It is also considered advantageous in the present invention that by means of the proposed flow sensor 4 and the proposed sensor positioning with me a single flow sensor 4 a series of important information on loading conditions of the stratified storage 1 can be determined and used.

The in the claims, the description and the figure disclosed aspects of the invention can both individually and in any combination for the invention be essential.

Claims (11)

Device for determining loading conditions in a stratified charge store ( 1 ), wherein the stratified charge storage ( 1 ) a cold water inflow ( 2 ) and a charging circuit inflow ( 3 ) to a charging circuit ( 7 ), characterized in that a flow sensor ( 4 ) in one with the cold water inflow ( 2 ) and the charging circuit inflow ( 3 ) associated inflow ( 5 ) to the stratified charge storage ( 1 ), wherein with the flow sensor ( 4 ) a difference mass flow from a water flow in the cold water inflow ( 2 ) and a water flow in the charging circuit inflow ( 3 ) is determined. Apparatus according to claim 1, characterized in that the inflow ( 5 ) to the stratified charge storage ( 1 ) is formed substantially T-shaped. Apparatus according to claim 1 or 2, characterized in that a flow of water through the flow sensor ( 4 ) direction sensitive and quantitatively detectable. Device according to one of claims 1 to 3, characterized in that the flow sensor ( 4 ) as a measuring device for a nominal value of a charging volume flow in the charging circuit ( 7 ) is usable. Device according to one of claims 1 to 4, characterized in that the flow sensor ( 4 ) is usable as a water switch. Device according to one of claims 1 to 5, characterized in that further comprises a temperature sensor ( 8th ) in the inflow ( 5 ) to the stratified charge storage ( 1 ) is arranged. Apparatus according to claim 6, characterized in that as a control variable for a charge pump ( 6 ) of the charging circuit ( 7 ) of the flow sensor ( 4 ) determined differential mass flow can be used. Apparatus according to claim 7, characterized in that as a controlled variable for the charge pump ( 6 ) of the charging circuit ( 7 Furthermore, a size is used, which consists of the difference mass flow and one of the temperature sensor ( 8th ) determined temperature is determined. Method for determining a loading state in a stratified charge store ( 1 ), wherein the stratified charge storage ( 1 ) a cold water inflow ( 2 ) and a charging circuit inflow ( 3 ) to a charging circuit ( 7 ), comprising the step: - determining a difference mass flow from a water flow through the cold water inflow ( 2 ) and a water flow through the charging circuit inflow ( 3 ) by means of a flow sensor ( 4 ). The method of claim 9, further comprising detecting a water temperature of the flow through the flow sensor. 4 ) flowing differential mass flow by means of a temperature sensor ( 8th ) is provided. Method according to claim 10, wherein as controlled variable for a charge pump ( 6 ) in the charging circuit ( 7 ) the difference mass flow and / or a quantity which is derived from a temperature sensor ( 8th ) determined temperature of the difference mass flow and the difference mass flow is used is used.