DE1679780C - Arrangement for instantaneous water heaters, especially for hot water circulation heating systems - Google Patents

Description

The main patent 1 301 035 relates to an arrangement in flow heaters, in particular for hot water circulation heating systems, with a heat sensor which is in heat-conducting connection with a flow tube of a lamellar block lying in the heating gas flow ste..t and is tightly enclosed by a wall that a water contact of the heat sensor prevented, but over its entire length and the largest tci! their circumference with the wall of the water-bearing flow pipe has a direct heat-conducting connection.

The heat sensor enclosing, for. B. designed as a sleeve wall is both of the temperature of the metallic parts of the lamellar block as well as the temperature of the water. It has been shown, however, that the temperature that the sleeve wall under these influences assumes, is not uniform, but that in the sleeve wall a temperature gradient according to the Water-facing side occurs. As are achieved here for purely technical reasons can that the inserted heat sensor rests evenly everywhere on the sleeve wall, depends on the The temperature assumed by the heat sensor depends on the random position that the heat sensor takes within the Pod just occupies.

The invention is based on the problem of these difficulties with the arrangement according to the main patent to eliminate. The invention consists in that, in an arrangement according to the main patent, the heat sensor is applied only to that part of the inner wall, the outside of which is the flow tube is facing. It is achieved in that the influence the water temperature on the heat sensor is optimal, while the influence of the lamellar block temperature is weakened, but still remains large enough to protect the heat sensor in the event of overheating to cause the heating power to be switched off.

An exemplary embodiment of the invention is shown in the drawing and described below. It shows

F i g. 1 shows a longitudinal section through a lamellar tube with a soldered-in thermostat sleeve, Pia 9 (section AB in FIG. 1) a section through the lower part of the lamellar tube with the sleeve in FIG. 1 larger scale.

A lamellar block, which is oval in cross section and provided with lamellar flow tubes I, closes off the heating shaft H of a gas-heated instantaneous water heater, not shown, at the top. The water to be heated flows through the flow pipe I: ·. Direction of arrow. Several of these flow tubes lie next to one another in a lamellar block and are connected to one another by bends 3. At the deepest part of the flow tube 1, a metal sleeve 4 opened at one end is soldered. In addition, the metal sleeve 4 is connected to a sheet metal web 5 in a thermally conductive manner. For this purpose, the lower end of this sheet metal stiffener 5 is cut at intervals, and the bent lobes 5'5 "read alternately to the right and left = from the middle" to the metal sleeve 4. The sheet metal tea 5 is inserted into the flow tube 1 and reads at "the highest point of the flow tube 1 in a thermally conductive manner.

Before installing the metal sleeve4, it is pressed in on its underside, so that some warts Γ lie one behind the other. A cylindrical heat sensor 6 pushed into the metal sleeve 4 rests on the warts 4 'of the metal sleeve 4 and comes _{into contact with the upper part of the sleeve wall with its upper curve in a} thermally conductive manner on the upper part of the sleeve wall facing the water.

It is therefore an immaterial heat transfer front 'water on the heat sensor 6 guaranteed, while the heat transfer from the flow tube 1 or the lower part of the metal sleeve 4 on the heat sensor is only possible via an air gap 7.

Assuming that the temperature limiter in a closed heating system of a hot water heating system is to switch off at a flow temperature of 110 ° C, the heat sensor 6, which is also influenced by the higher temperature of the lamellar block or flow pipe 1: : is, come to a switch-off temperature of 128 "C. If the flow heater is operated temporarily with greatly reduced, e.g. half power, the temperature of the flow tube 1 drops more than that of the water the heat sensor 6 now supplied heat. the shutdown temperature of 128 ^C C heat sensor therefore achieved abut the metal sleeve 4 down until a higher water temperature than was previously provided with 110 ⁰ C. If the heat sensor 6 unfavorably increases, so does the water temperature - as determined by measurements - to 122 ° C before the heat sensor 6 reaches its switch-off temperature of 128 ° C means that the shutdown by the temperature limiter only switches off at a flow temperature of 122 ° C that is 12 ° C higher than at 110 ° C. However, if the heat sensor 6 -As described above wurde- above, that is, on the side facing the water side against the metal shell 4, so that it reaches its shutdown temperature of 128 ⁰ C even at eineir water temperature 114-115 ° C, so that when half the heat output only an excess temperature of 5 ⁰ C, instead of 12 ⁰ C, must be accepted.

1 sheet of drawings

Claims (1)

Claim: Arrangement for instantaneous water heaters, especially for hot water circulation heating systems, with a heat sensor which is in thermally conductive connection with a flow tube of an im Heating gas flow lying lamellar block is and is tightly enclosed by a wall, the one Prevents the heat sensor from coming into contact with water, but over its entire length and most of it their circumference directly heat-conducting with the wall of the water-bearing flow tube Connection in.. according to patent 1 301 035, characterized in that the heat cooler (6) only on that part of the tower wall is applied, the outside of which faces the flow stirrer (I).