CS242919B1 - Complex sensor for microclimate assessment equipment under clothing or footwear - Google Patents

Abstract

The solution relates to a complex sensor for a device for assessing the microclimate under clothing or in footwear. The solution consists in that on the front side of the body (1) made of thermal insulation material there is a third temperature sensor (8) with a third protective loop (9), the third temperature sensor (8) being provided with a heating element (10).

Description

BACKGROUND OF THE INVENTION The present invention relates to a sensor for evaluating a microclimate under a garment or inside a shoe, in which its mechanical arrangement is solved so as to be able to sense quantities characterizing the microclimate in as small a space as under a garment or inside a shoe.

The prior art microclimate evaluation devices under clothing or footwear use a simple temperature sensor or a temperature sensor and a second temperature sensor moistened with distilled water, so that the dry and wet sensor temperatures characterize the microclimate.

The temperature of the humidity sensor characterizes the humidity of the air, but it is also very dependent on its flow and the individual influences cannot be separated from each other. In addition to these methods, indirect methods are used, ie evaluation of the body's response to influence in clothing or footwear. These methods of evaluation include statistical evaluation of subjective feelings of individual probands.

The above-mentioned deficiencies are eliminated by the sensor for the microclimate evaluation device under the clothing or inside the shoe, which is based on the fact that on the front wall of the body of thermally insulating material there is a first temperature sensor with a protective loop and a second temperature sensor with a second protective loop a mass connected by a textile wick through an opening into a cavity in the base body in which the porous material is saturated with distilled water. In addition, a third temperature sensor with a protective loop is provided on the end face of the body, which is provided with means for heating it.

The advantage of the invention is that it senses three quantities. The first is the dry sensor temperature, the second is the wet sensor temperature, and the third is the power required to heat the third sensor to a predetermined temperature. The arrangement according to the invention makes it possible to achieve such a small size that the sensor can be placed under clothing or inside the shoe.

These three variables characterize the microclimate and so the influence of used materials on the quality and hygiene of clothing and footwear can be evaluated objectively.

In the accompanying drawing, FIG. 1 schematically shows an arrangement of a particular embodiment of a sensor according to the invention; FIG. 2 is a view of the temperature sensors from the front of the sensor.

A first temperature sensor 1, e.g. a bead thermistor, with a first protective loop 1, a second temperature sensor 2, eg a bead thermistor, with a second protective loop 5, is disposed on the front wall of the thermally insulating material body J.

The second temperature sensor 6 is wrapped with a paper mass which is connected to a textile wick 6 passing through an opening in the body 1 into a cavity 2 filled with a porous material saturated with distilled water.

A third temperature sensor 2, e.g. a bead thermistor, with a third protective loop 2 is located on the front wall of the body 1. The third temperature sensor 2 is provided with a heating element 10. The sensor is provided with a lead-in cable 11.

This arrangement ensures that the first temperature sensor 2 with a protective loop 2 against mechanical damage senses heat: in the air under clothing or in shoes. The second temperature sensor 2 with a protective loop 21 which protects the second temperature sensor 2 from mechanical damage but does not hinder the natural air flow is constantly humidified so that it senses the temperature that is affected by the evaporation of water.

In the rest conditions in the free space where the air flow occurs, the temperature of the wet temperature sensor 6 approaches the temperature of the saturated vapor, as is the case with a classical psychrometer. Inside the enclosure, ie under clothing or footwear where the flow is restricted, the temperature difference of the first temperature sensor 2 and the second temperature sensor 2 is dependent on the relative humidity and the air velocity. The power required to heat the third temperature sensor 6 protected by the protective loop 6 depends on the flow rate and the humidity. Because the dependencies have different character, the influence of humidity and flow can be distinguished from these two variables. The third temperature sensor 6 is provided with a heating element 10. However, the electric current passing through the temperature sensor 6 can be used directly for heating.

Claims (1)

SUBJECT OF THE INVENTION Complex sensor for the evaluation of microclimate under clothing or footwear consisting of a body of thermal insulation material, on the front wall of which is located a first temperature sensor with a protective loop and a second temperature sensor with a second protective loop, which is wrapped with paper mass connected with a textile wick an opening in a cavity in the base body in which the porous material is saturated with distilled water, the sensor being provided with a lead-in cable, characterized in that on the front side of the thermally insulating material body (1) there is a third temperature sensor (8) and a protective loop (9) ), wherein the third temperature sensor (8) is provided with a heating element (10).