Schwitzen Thermal Manikin

Walter sweating manikins accurately replicate human responses to environmental conditions, crucial for optimizing thermal comfort. Other manikins have limited sweat glands, far fewer than humans (nearly 6 million), can't maintain consistent sweating, and are costly due to complex controls. Walter is the first affordable, accurate manikin using water and breathable fabric.

Anwendung

Sweating mannequins are widely used in research on the moisture transfer properties of clothing and the microclimate conditions beneath garments. They are used to study the evaporative heat dissipation efficiency of clothing and to simulate sweating mechanisms. Sweating mannequins can be used to test the thermal resistance and moisture resistance of clothing, as well as to evaluate the non-evaporative heat dissipation performance of clothing.

The development of sweating mannequins has gone through several stages, from the first-generation static mannequins to the third-generation sweating simulation mannequins. The first-generation mannequins were used for static clothing thermal resistance testing, the second-generation mannequins expanded the evaluation of thermal and moisture performance, and the third-generation mannequins integrate computer technology to achieve precise temperature control and multi-environment simulation.

The applications of sweating mannequins also include studying the moisture transfer properties of clothing and the microclimate conditions beneath garments, as well as simulating sweating mechanisms. These mannequins can be used to test the thermal resistance and moisture resistance of clothing, as well as to evaluate the non-evaporative heat dissipation performance of clothing.

Normen

ISO 15831:2004 (E): Clothing-Physiological effects - Measurement of thermal insulation by means of a thermal manikin

ISO 23537-1:Requirements for sleeping bags

ASTM F 1291-04: Standard Test Method for Measuring the Thermal Insulation of Clothing Using a Heated Manikin

ASTM F 1720: Standard Test Method for Measuring Thermal Insulation of Sleeping Bags Using a Heated Manikin

ASTM F 2370: Standard Test Method for Measuring the Evaporative Resistance of Clothing Using a Sweating Manikin

ASTM F2371:Standard Test Method for Measuring the Heat Removal Rate of Personal Cooling Systems Using a Sweating Heated Manikin

ASTM F2732:Standard Practice for Determining the Temperature Ratings for Cold Weather Protective Clothing

EN 13537:Sleeping Bag Temperature Ratings Explained

EN 342:Clothing to protect against cold

ANSI/ISEA 201:Classification of Insulating Apparel Used in Cold Work Environments

ENV 342:Protective clothing - Ensembles for protection against cold

GB/T 18398 – Testing method for clothing thermal resistance

GB/T 11048 – Warmth retention property of textiles

Produktvorteile

Menschenartige Simulation: Nachahmt menschliche Thermoregulation über 32-Zonen beheizte Segmente, mikroporös " Schwitzen" Haut und dynamische Bewegung (Gehen/Laufen) für eine realistische Leistungsanalyse.

Präzisionstechnik: ±0,1°C Temperaturregelung und segmentierte Schweißraten (0–100% einstellbar) liefern wiederholbare, menschenunabhängige Testergebnisse.

Multi-Domain-Anwendungen: Validiert für die Entwicklung von Arbeitsschutzausrüstung, Sportbekleidung, Luft- und Raumfahrtanzügen und extremumweltschützender Kleidung.

Datengetriebene Erkenntnisse: ThermoTech-Software liefert Echtzeit-Wärmebeständigkeit (clo), Verdunstungsbeständigkeit und Komfortmessungen, wodurch subjektive menschliche Versuche eliminiert werden.

Globale Annahme: Vertrauenswürdig in über 20 Ländern für F&A D in der Militär-, Feuerwehr- und Außenindustrie, die strengen Sicherheitszertifizierungen erfüllt.

Produkteigenschaften

Fortgeschrittene Thermoregulierung:

32 unabhängig beheizte Zonen mit max. 2°C Segmentdifferenz für anatomische Genauigkeit.

Isotherme oder variable Temperaturmodi (Innenraum bis 55°C) simulieren unterschiedliche Klimaanlagen.

Dynamisches Schweißsystem:

Vorerwärmte Wasserzirkulation gewährleistet eine stabile " Schweiß" Verdunstung, um temperaturbedingte Fehler zu minimieren.

Segmentsteuerung (0-100% Rateanpassung) repliziert lokalisierte Schweißmuster.

Bewegungsfähigkeit:

Verstellbarer Gang (0-100 m/min zu Fuß; ≤250 m/min Laufen) für dynamische thermische Belastungsprüfungen.

Ergonomisches Halskabel ermöglicht das ungehinderte Tragen von Helmen/Masken.

Sicherheit & Einhaltung:

Schutz gegen Leckagen, Überhitzungsabschaltung und Überlaufwarnungen für die Sicherheit des Bedieners.

Kompatibel mit CE/UL elektrischen Normen für den weltweiten Einsatz.

Softwareintegration:

ThermoTech Control Analysis Suite: Echtzeitdatenvisualisierung, EQT-Komfortmodellierung und exportierbare Berichte (CSV/PDF).

Parameter

Accessoriess

Test Procedures

1、Take test garments according to thermal manikin size.

2、Set the skin temperature of thermal manikin body dummy at 32-35℃.

3、Set the manikin’s experimental status. i.e. static or dynamic, and set the step length and step speed.

4、Set the climate chamber temperature according to the estimated thermal resistance value of the clothing to be tested. When naked, the temperature should not be less than 10℃ below the skin temperature. When the thermal resistance value is between 1 and 3. it should not be less than 20℃ below the skin temperature. When the temperature is greater than 3. it should not be less than 30℃ below the skin temperature.

5、Adjust the humidity of the climate chamber to 30-50%.

6、Regulate the wind speed of the climate chamber at 0.15-8 m/s.

7、Take note of the climate chamber environment’s values, ensuring the change of the ambient temperature in the climate chamber is not more than 1℃, the change of the relative humidity is not more than 5%, and the change of the wind speed is not more than 50%. For 30 to 60 minutes, keep the environmental value consistent.

8、After the warm manikin enters the dynamic heat balance, the skin temperature ambient temperature and the heating power shall be measured every minute, and this state shall be maintained for more than 10 minutes.

9、Start the test by dressing the manikin in the test clothes. The warm manikin needs to be retained for more than 20 minutes when it enters the dynamic thermal balance once more.

10、The thermal resistance test is completed, and the test data can be studied.

FAQs

How do thermal manikins work?

Thermal manikin measures the difference in heat loss in a controlled environment and sends the data of all sectors to the physical model. The physiological model reads skin temperature, respiration rate, and sweat rate in all sections. It then sends these values to the manikin, forecasting how the human body would react in a particular environment.

For how long, thermal manikins are used?

Dr. Harwood Belding is credited for developing the first operational thermal manikin for the United States military in 1941. The testing involved utilizing human volunteers to test protective clothes and equipment.

YouTube video introduction:   https://www.youtube.com/watch?v=kXJrdP8BOSs