RU168702U1 - CLIMATE CAMERA - Google Patents

Abstract

The utility model relates to construction physics, to thermophysical measurements, more specifically to climate studies of the outer enclosures of buildings, and can be used in assessing the heat-shielding properties of enclosing structures. In a climate chamber containing a low-temperature compartment located between two medium-temperature compartments and having two side openings for installing two tested building envelope samples, equipment for creating climatic conditions, including heaters located in each compartment, and equipment for recording temperature and humidity parameters, in the low-temperature compartment, a building model frame is installed, equipped with fasteners for building envelopes, external e the side walls of the medium temperature compartments are equipped with window openings for thermal imaging, and the side openings of the low temperature compartment are equipped with removable heat-insulating covers with window openings for thermal imaging, while the equipment for creating climate conditions includes an additional heater located inside the building model frame and a reversible heat pump, located in the low-temperature compartment and connected to each heater. Window openings for thermal imaging are equipped with heat-reflecting screens. The technical result is an extension of functionality. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to construction physics, to thermophysical measurements, more specifically to climate studies of the outer enclosures of buildings, and can be used in assessing the heat-shielding properties of enclosing structures.

Known climatic chamber for testing mobile buildings (USSR Author's Certificate No. 1518754, G01N 25/58, 1989), comprising a housing, a rolling device, thermopiles, air coolers, ventilation cooling devices, a pipeline, hollow racks with cross taps. In this case, the rolling device is made with holes located around its perimeter, hollow racks are passed through the holes, fixed on the rolling device and connected to one end by means of cross valves with a pipeline, and the other by means of hoses with thermal batteries.

The disadvantage of this climate chamber is the inability to conduct thermal imaging of the exterior surfaces of a mobile building without the intervention of an observer in the test process and the inability to maintain the necessary microclimate parameters inside the mobile building.

A well-known climatic chamber for thermotechnical testing of building envelopes (Utility Model Patent of the Russian Federation No. 103619, G01N 25/58, 2010), adopted as a prototype, contains two medium-temperature and one low-temperature compartments equipped with installations for creating climatic conditions and equipment for registration temperature and humidity parameters, wherein the low-temperature compartment is located between two medium-temperature compartments and has two side openings for installing two test samples simultaneously troitelnyh walling.

The disadvantage of this climate chamber is the lack of thermal imaging without interference in the microclimate of the compartments.

The technical result is to expand the functionality.

The technical result is achieved by the fact that in a climatic chamber containing a low-temperature compartment located between two medium-temperature compartments and having two side openings for installing two test samples of building envelope structures, equipment for creating climatic conditions, including heaters located in each compartment, and equipment for registration of temperature and humidity parameters, in the low-temperature compartment a frame of the building model is installed, equipped with fastening elements of building envelope structures, the outer side walls of the medium temperature compartments are equipped with window openings for thermal imaging, and the side openings of the low temperature compartment are equipped with removable heat-insulating covers with window openings for thermal imaging, while the equipment for creating climatic conditions includes an additional heater located inside the building model frame and reversible thermal a pump located in the low-temperature compartment and connected to each heater. Window openings for thermal imaging are equipped with heat-reflecting screens.

The drawing shows a climate chamber.

The climate chamber contains a low-temperature compartment 1 located between the first medium-temperature compartment 2 and the second medium-temperature compartment 3. The low-temperature compartment 1 has two side openings 4 for installing test samples 5 of building envelope structures (the window unit is shown as an example). Each of the side openings 4 of the low-temperature compartment 1 is equipped with a removable heat-insulating cover 6 with a window opening 7 for thermal imaging. The outer side walls of the medium temperature compartments 2 and 3 are equipped with window openings 8 for thermal imaging. Each of the window openings 8 is equipped with heat-reflecting screens 9 mounted on the outside of the compartments to reduce heat loss. In the low-temperature compartment 1, the frame of the building model 10 is installed, equipped with fasteners for building building envelopes (not shown in the drawing). Equipment for creating climatic conditions includes: a heater 11 located in the first medium temperature compartment 2, a heater 12 located in the low temperature compartment 1, a heater 13 located in the second medium temperature compartment 3, an additional heater 14 located inside the frame of the building model 10, a reversible heat pump 15, located in the low-temperature compartment 1 and connected to each heater, the evaporator of the chiller 16, located in the low-temperature compartment 1, and a fan with full regulation 17, providing the necessary air mobility. All equipment for creating climate regimes is adjustable and connected to the control unit (not shown in the drawing).

The climate chamber operates as follows. Equipment for creating climatic conditions provides the establishment, maintenance and regulation of specified microclimate parameters within each compartment, as well as inside the building model. When testing only the enclosing structures in one of the side openings 4 or in each side opening 4 of the low-temperature compartment 1, test samples 5 of the enclosing structures are installed. When testing only one sample, the second opening is closed with a heat-insulating cover 6. During testing, thermal imaging of the surfaces of the test samples through the window openings 8 of the outer side walls of the medium temperature compartments 2 and 3 is possible. During thermal imaging, the heat-reflecting screens 9 are lifted.

When testing building models, it is possible to simulate a dynamic microclimate both inside the building model and outside, which allows analyzing the efficiency of using energy-saving building envelopes and the use of standby heating. When testing building models, previously enclosing structures are installed on the frame of the building model 10 in the low-temperature compartment 1. When testing building models, side openings 4 are closed with heat-insulating covers 6. During testing, thermal imaging of the surfaces of the tested building models through window openings 7 of heat-insulating covers is possible 6. When testing building models, an additional heater 14 provides the necessary microclimate inside the building model. The presence of a reversible heat pump 15 in the low-temperature compartment 1 and connected to each heater allows research on energy efficiency heat pump in heat supply systems of buildings and other systems for the utilization of low-grade heat at a variable ambient temperature.

Simultaneous testing of building envelopes and building models is possible.

Claims (2)

1. A climate chamber containing a low-temperature compartment located between two medium-temperature compartments and having two side openings for installing two tested building envelope samples, equipment for creating climatic conditions, including heaters located in each compartment, and equipment for recording temperature and humidity parameters , characterized in that the isothermal compartment is configured to install in it a frame of a model of a building equipped with fasteners building envelopes, the outer side walls of the medium-temperature compartments are equipped with window openings for thermal imaging, and the side walls of the low-temperature compartment are equipped with removable heat-insulating covers with window openings for thermal imaging, while the equipment for creating climatic conditions includes an additional heater located inside the building model frame and reversible heat pump located in the low-temperature compartment and connected to each heater. 2. The climate chamber according to claim 1, characterized in that the window openings for thermal imaging are equipped with heat-reflecting screens.

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