DE3200794A1 - Electric storage heating appliance - Google Patents

Abstract

A housing (1) of an electric storage heating appliance has an inlet (2) for room air to be drawn in and an outlet (3) for heating air to be blown out. In the housing (1), there is also arranged a temperature control (4) which can be adjusted by means of a handle (5) to a room temperature desired value and which responds to the change in length of a liquid column. The temperature control (4) is connected to a temperature sensor arranged in the inlet (2) via a capillary tube (7) containing the liquid column. The capillary tube (7) is guided through the outlet (3) and there has a liquid content which is increased with regard to a straight length section. This liquid content is dimensioned in such a manner that a shortening of the liquid column starting from the temperature sensor (6) on drawing in of room air with the desired temperature is approximately the same size as a lengthening of the liquid column occurring on blowing out of heating air. <IMAGE>

Description

Electric heat storage heater

The invention relates to an electric heat storage heater according to the preamble of claim 1.

Heat storage heaters as mentioned in the preamble of claim 1 Art have been used for a long time. If no room air is sucked in, the temperature sensor of such a device is essentially only the inherent heat of the assigned storage heater, which depends on the state of charge. When the storage core is heavily or even fully charged, the temperature sensor receives a simulated high room temperature. To compensate for this, the temperature controller must adjusted so that it is only above the target temperature set with the handle switches. When drawing in room air, however, the temperature sensor is Air passing by is cooled so that it is exposed to a mixed temperature is that between the actual room temperature and the heat generated by the storage heater lies. This leads to incorrect regulations.

The object of the invention is the electric heat storage heater in the preamble of claim 1 mentioned type so that the adjustment of the temperature controller to a higher temperature than the setpoint temperature of the room air is retained, but incorrect regulations are avoided.

The object set is according to the invention by the characterizing Part of claim 1 specified training solved.

The solution found has the advantage that it can also be retrofitted can be realized by devices mentioned in the preamble of claim 1.

Appropriate training and further developments of the subject matter of the invention are in claims 2 and 3 specified.

An embodiment of the invention is shown in the drawing, a perspective view of an electric heat storage heater partially shows in section.

In the drawing, 1 denotes a housing.

The housing 1 has an inlet 2 for room air to be sucked in and an outlet 3 for hot air to be blown out.

In the example shown in the top right corner of the front page the housing 1, a temperature controller 4 is arranged, which on the change in length a column of liquid responds and through a handle 5 to a room temperature setpoint is adjustable.

In the inlet 2 of the housing 1, a temperature sensor 6 is arranged, via a capillary tube 7 containing the liquid column with the temperature controller 4 is connected.

The capillary tube 7 is passed through the outlet 3 or at least arranged so that it is acted upon by blown hot air.

Inside the outlet 3, that is, in the exhaust path of the hot air, has the capillary tube 7 is enlarged in comparison to a straight length section Fluid content.

The increased liquid content can be achieved in that the capillary tube is coiled approximately in the manner shown.

However, the increased fluid content can also be achieved by that the capillary tube 7 is widened in the region of the outlet 3 (not shown).

The increased liquid content of the capillary tube 7 in the area of the outlet 3 is dimensioned so that when room air is drawn in with the setpoint temperature and simultaneous blowing out of hot air by cooling the temperature sensor 6 and heating of the section of the capillary tube 7 located in the outlet 3 Changes in length of the column of liquid approximately cancel each other out. In other words, the liquid content of the section of the located in the area of the outlet 3 Capillary tube 7 is just so large that when blowing out heating air by supplying heat Lengthening of the liquid column occurring at this section of the capillary tube 7 about the same size as the shortening of the liquid column caused by heat dissipation occurs at temperature sensor 6 if this occurs with room air heated to the setpoint is cooled.

Calculation example target temperature of the room air = 200 C = T1.

Temperature of the hot air blown out = 400 C = T2.

Liquid content of the temperature sensor = 1 cm3 = bottle.

The liquid content of the temperature sensor 6 must match the liquid content of the capillary tube section located in the outlet 3 behave in an inversely proportional manner like the setpoint temperature of the sucked in room air to the temperature of the blown out Heating air, if the requirement is to be met when drawing in room air with the setpoint temperature from temperature sensor 6, shortening of the liquid column due to the elongation of the liquid column that occurs when hot air is blown out should be balanced.

Based on the assumed values, based on the equation.

T1 F2 200 C F2 - - = - = -T2 Fi 400 C 1 cm3 where F2 is the required liquid content of the capillary tube section arranged in outlet 3: 1 Figure 3 claims

Claims (3)

Patent claims electric heat storage heater, with the features: 1.1 the housing (1) of the heat storage heater has an inlet (2) for suction Room air and an outlet (3) for hot air to be blown out, 1.2 in the housing (1) one that can be set to a room temperature setpoint by means of a handle (5) and temperature controller responding to the change in length of a column of liquid (4) arranged, 1.3 the temperature controller (4) is via a liquid) ceitssäule containing Capillary tube (7) connected to a temperature sensor (6) arranged in the inlet (2), g e k e n n n z e i c h n e t d u r c h the features: 1.4 the capillary tube (7) is passed through the outlet (3) and has a related inside the outlet (3) on a straight longitudinal section, enlarged liquid content, 1.5 the enlarged The liquid content of the capillary tube (7) is dimensioned so that one when sucking Reduction of room air with setpoint temperature from temperature sensor (6) the column of liquid is about the same size as that which occurs when the hot air is blown out Elongation of the column of liquid is. 2. Wärmespeioherheizgerät according to claim 1, d a -d u r c h g e k e n n z e i h n e t that the increased liquid content of the capillary tube (7) is formed by a pipe expansion. 3. Heat storage heater according to claim 1, d a -d u r c h g e k e It is noted that the capillary tube (7) for the formation of the increased liquid content is coiled.