AT414166B - water heater - Google Patents

Description

2

AT 414 166 B

The invention relates to a water heater according to the preamble of claim.

From DE 195 05 041 trained as a tube layer memory according to Merkma-5 len of the preamble of claim has become known. The formation of the layer memory according to the prior art involves by the loop-shaped winding of the tube a considerable effort, also the storage volume can not be made too high for manufacturing reasons. In addition, EP 794 417 discloses a pipeline in which a T-piece is inserted, which has a plug-in temperature sensor in its branch piece.

The present invention is based on the object to provide a memory with a large volume volume in the vessel only two pipes open and in which the inlet temperature of the heated water can be measured.

The solution of the problem consists in the features of claim. This results in the advantage that you can detect the inlet temperature during charging by the arrangement of the temperature sensor in the area of the connection of the hot water supply to the hot water supply and hereby can control a pump, which further with a removal of hot water, the discharge temperature is additionally detectable. If, during a removal, a predetermined setpoint temperature is fallen below by about 8 K, a recharge may also be started outside of possibly pre-selected times for a normal heating up. Furthermore, there is the advantage that only two pipes need be introduced into the storage tank for the supply and removal of water in and out of the memory. By placing the temperature sensor in a T-piece, which also connects the hot water line to the hot water supply, resulting in a constructive point of view 30 captivatingly simple solution.

The invention will now be explained in more detail with reference to the drawing, which shows schematically a hot water heater according to the invention. The water heater has a memory 1 operated as a memory 1, which is provided with an all-round insulation 8.

From the lowermost region 9 of the accumulator 1, a cold water outlet 4 leads away, which leads to a heat exchanger 6. In this case, outside the memory 1, a cold water supply line 2 is connected to the 40 cold water outlet 4, and between this connection and the heat exchanger 6, a pump 5 is provided, which ensures a corresponding circulation of the water.

From the heat exchanger 6 leads away a hot water inlet 7 in the uppermost region 15 of the memory 1. At this hot water inlet 7 is a service water pipe 3, preferably 45 by means of a tee 25, connected, in this terminal 16 in addition a temperature sensor 12 is arranged the temperature of the incoming hot water detected at a charge of the memory 1 and measures the temperature of the outflowing hot water at a removal of hot water. Furthermore, 17 of the height of the memory 1 and in the lowermost region 9 each have a temperature sensor 13, 14 are still in the top third.

The temperature sensor 14 is connected via a signal line 24 to a control device 10, which also has a switching timer 11. This temperature sensor 14, when overrun at a predetermined temperature, provides a signal indicating the complete charging of the memory

Claims (1)

3 AT 414166 B 1 after unequal with a variable setpoint generator 18 in the control device 10 displays and terminates. The temperature sensor 13 is connected via a signal line 23 to the control device 10 and supplies falls below a predetermined by a further arranged in the controller 10 variable setpoint generator 19 temperature a signal that causes the start of a charge of the memory 1, if such a signal within the for charging provided on the switching timer 11 adjustable period is. The temperature sensor 12 is also connected via a signal line 22 to the controller 10. This controls a motor of the pump 5 via a control line 21 and the application of a primary branch 6 'of the heat exchanger 6 via control devices, not shown, of a water heater. If the temperature at the temperature sensor 13 drops below a certain value, the primary branch 6 'of the heat exchanger 6 is subjected to a heat transfer medium and the pump 5 is started, assuming this is done at a time permitted by the switching timer 11. As a result, cool water is withdrawn from the lowermost region 9 of the accumulator 1 and conveyed to the heat exchanger 6 and heated there. The warm water flows into the uppermost area 15 of the storage 1. If the temperature reaches a certain value in the region of the temperature sensor 14, the latter emits a signal and the control device 10 stops charging the accumulator 1, with the pump 5 being stopped and the admission of the primary branch 6 'of the heat exchanger 6 terminated. If service water is tapped via the service water line 3, then cold water flows via the cold water supply line 2 and the area of the cold water outlet 4 projecting into the storage 1 into the lowermost area 9 of the store 1. If it comes outside the set by the switching timer 11 period to an increased tap of hot water and thus to a drop in temperature in the range of the temperature sensor 13, so there is no charging of the memory 1. Sinks in this locked for a normal period of time the temperature of the above the service water pipe 3 outflowing water below a certain temperature, which is detected by the temperature sensor 12, it is started by the corresponding signal an emergency heating by the controller 10 and the pump 5 and the application of the primary branch 6 'of the heat exchanger 6 is started in the Switching contact of the timer is closed. The delivery rate of the pump 5 can be effected by the control device 10 in such a way that it is chosen so that the temperature of the effluent service water is sufficiently high. The termination of such emergency heating, through which at all times a high degree of hot water comfort is ensured, can be done depending on the tap of hot water. Water heater with a stratified storage tank, a cold water outlet (4) leading away from its lowest area (9), which is connected by a pump (5) to a heat exchanger (6), from which a hot water inlet (7) into the uppermost area (15 ) of the memory (1), further with a service water pipe (3), a greater distance from the bottom of the memory (1) arranged, with a control device (10) for controlling the heat exchanger (6) and (4) the pump (5) and a temperature sensor (13) connected to the control device (10) and a further temperature sensor (12) for detecting the temperature of the water flowing into the uppermost region of the accumulator (1) and having a cold water supply line (2) characterized in that the service water line (3) to the hot water inlet 5 (7) is connected and for detecting the temperature of the in the uppermost region (15) of the configured as a vessel memory (1) ei temperature sensor (12) provided in the region of the connection (16) of the hot water line (3) is arranged and that the cold water supply (2) in the cold water outlet (4) opens, wherein for detecting the in the uppermost region (15) of the memory (1) provided temperature sensor (12) in io a tee (25) is arranged, with which the hot water line (3) to the hot water inlet (7) is connected. For this purpose 1 sheet of drawings 15 20 25 30 35 40 45 50 55