DE2507760A1 - Fast operating temp measurement in room temp regulators - supplied with energy housing to produce forced air flow - Google Patents

Abstract

The thermostatic control consists of a temperature measuring sensor (2) which is accommodated in a housing. The supply of energy to the housing (1) produces a forced air flow in the room. The energy is supplied via a ventilator (3) or via an injector (3b), which has fuel gas applied, or via a source of heat. The forced air flow is achieved by the supply of mechanical energy. The regulator comprises a housing (1) which is equipped with an inlet (A) and an outlet (B). The air is sucked into the housing (1) by the ventilator (3) via the inlet (A), blown out via the outlet (B) and applied to the sensor (2).

Description

Device for low-inertia temperature measurement in room temperature controllers The invention relates to a device for low-inertia temperature measurement in Room temperature controllers.

Room temperature controllers have the task of keeping the room temperature as too to measure the regulating variable as precisely and quickly as possible and the measured value for processing forwarded in the controller. They essentially consist of a temperature sensor suitable training, which takes advantage of the temperature dependency physical Sizes of solid, liquid or gaseous substances are temperature-analogous signals produced.

The temperature sensor is either installed freely in the room air or housed in a perforated protective housing.

Room temperature controller with temperature sensors, according to all possible Working measurement principles are known. They have the disadvantage that the probe from standing or free convection of the room air of weak moving air is applied. Usually the free convection is through protective housing more or less disabled. The consequences of the slight air movement are measurement errors due to poor heat transfer between air and temperature sensor and in terms of time delayed display of temperature changes. Especially in those heated with air heaters Rooms in which, depending on the system, the air temperatures are caused by intermittent work of the burner are subject to constantly stronger fluctuations, the sluggish working has an effect the temperature sensor is disadvantageous.

The invention is based on the object with temperature sensors known design to carry out precise and fast temperature measurements.

This object is achieved according to the invention in that the temperature sensor in the room temperature controller as a result of the supply of mechanical energy, flow energy or thermal energy is applied by a forced flow of room air.

The forced flow can, for example, by supplying mechanical Energy can be realized via a fan. The direction of flow can be both vertically as well as horizontally.

In a further advantageous embodiment of the device according to According to the invention, the flow energy is supplied via a pressurized air device Injector.

In a further advantageous embodiment of the device according to the invention, the free convection in a preferably vertically arranged, Chimney-like housing part surrounding the temperature sensor by supplying thermal Substantially amplified energy from a heat source. Suitable heat sources can for example Heating coils or light bulbs, the Joule heat release. A reflector or thermal insulation prevent over feed of heat through radiation or conduction from the heat source to the temperature sensor the measurement result is falsified.

The advantages that can be achieved with the invention result from the object.

Three embodiments of the device according to the invention are shown in the drawing.

Fig. 1 shows a device for low-inertia temperature measurement in room temperature controllers, in which the forced flow is achieved by supplying mechanical Energy is realized. The device consists of a housing 1 with his Inlet A and outlet B, the temperature sensor 2 located therein its line C and the fan 3. The inlet A into the housing 1 through the fan 3 sucked in and blown out via outlet B is applied the temperature sensor 2. With good heat transfer and rapid air exchange as a result of the forced flow, accurate and fast temperature analogs are obtained Signals that are passed on to the controller via line C.

In a further advantageous embodiment of the device according to of the invention is shown in Fig. 1, the forced flow in the housing 1 by supply of flow energy via an injector charged with compressed air, for example 3b reached.

Another advantageous embodiment of the device g according to FIG The invention is shown in FIG. The device consists of a housing 1 with its inlet A and outlet B, which is located therein Temperature sensor 2 with its line C, which is against the housing 1 with the help of Insulator bushing la is thermally insulated, and that of a reflector 4 against the temperature sensor 2 shielded heat source 3a.

By releasing Joule heat via the heat source 3a, the For example, it can consist of a heating coil or a lightbulb, is a Density gradient generated in the air column in the chimney-like housing 1, which has a strong Buoyancy flow through the housing 1 results.

Heat transfer by radiation or conduction from the heat source 3a becomes the temperature sensor 2 through the reflector surrounding the heat source 3a 4 or with the help of the isolator bushing la.

Claims (4)

PATENT CLAIMS 1. Device for low-inertia temperature measurement in room temperature controllers, in a known manner consisting of a temperature sensor housed in a housing (1) (2), characterized in that a forced energy supply in the housing (1) Indoor air flow is generated. 2.) Device for low-inertia temperature measurement in room temperature controllers according to claim 1, characterized in that the energy is supplied via a fan (3) takes place. 3.) Device for low-inertia temperature measurement in room temperature controllers according to claim 1, characterized in that the energy supply via a propellant gas acted upon injector (3b) takes place. 4.) Device for low-inertia temperature measurement in room temperature controllers according to claim 1, characterized in that the energy is supplied via a heat source (3a) takes place. Blank page