CS255319B1 - Air conditioner with continuously balanced sample mode - Google Patents

Abstract

The solution concerns the air conditioning system with a mode balanced already during the achievement of the required climatic values. Its essence is that a homogenizing partition is placed in the air outlet duct of the air conditioning unit and behind it an air distribution channel is formed, in which there are adjustable deflector flaps, located in front of the sample platforms. The sample platforms are provided with front covers with through holes on the side of the distribution channel. The solution can be used in the air conditioning of laboratory samples of materials, where a continuously balanced sample mode is required.

Description

The invention relates to ketotizing agents with concomitant drilling of the samples - i.e. with a regime even when the desired ₍ climatic values, for example, at the freezing and thawing temperatures ^{) have been} reached.

Existing methods of ventilation using the built-in ventilator and air inlet and outlet openings of the air conditioner unit in the air conditioner wall provided air circulation in the air conditioner and after a certain period of time achieving the same desired climatic state of the samples - but the rate of achieving this was very different. This is due to the fact that some samples directly capture the air flow from the air conditioning unit and some are leeward and come into contact with air that has reduced climatic differences and therefore the respective state of these samples changes more slowly.

These drawbacks are overcome by a continuously balanced sampling mode according to the invention, which is based on the fact that a ventilation homogenization compartment is located in the air outlet duct of the air conditioning unit and an air distribution duct is formed downstream of the outlet duct. In the distribution channel, adjustable baffles are located in front of the crate platforms. On the side of the channel, there are openings in the upper part of the platform space, and in the lower part there are front covers with curved edge overlaps inside the platforms and an air gap around the covered face of the samples.

The advantage of the device according to the invention is the fundamentally balanced regime of the air-conditioned samples already during the achievement of the required climatic values - thus ensuring! even in terms of the rate of climate change, the same conditions for the monitored samples without their laborious "circular" relocation after individual cycles of the procedure. The described advantage then makes it simple! the mechanization and automation of the repeat procedure with assured reproducibility of the results of the samples located at different locations in the air-conditioning space. Without using the proposed treatment according to the invention, 2.5-fold differences in the freezing rate of cementitious concrete samples were measured in the particular freezing device produced (i.e., the desired freezing of the individual samples was achieved with a 2.5-fold time difference). Experimentally applying the treatment of the invention in the same basic apparatus, the velocity differences were substantially equalized (the desired freezing was achieved in each sample approximately in the same portion and the interval of maximum temperature differences between the samples was reduced by 65 ° / o.

Na dfcr. c. 1 illustrated an example of JFE rozdieΐάν tépioÝnélfe řéžffiu cement concrete samples during freezing (in 3% rfeztoku Nwei) in the device of doterajšieή'ό jbřWťíjřú ¹ & ria "FIG. no. 2, the effect is experimentally achieved by adjusting the ventilation according to the invention otherwise in the same basic device.

Na o'br. no. 3 is a cross-sectional view of an exemplary device of the present invention; and FIG. no. 4 is an axonometry of a respective air outlet duct with a ventilation homogenization partition.

An exemplary device consists of an air outlet duct 1 of the air conditioning unit with a fan 10 and a distribution channel

2, wherein a ventilating homogenization preheater is located in the outlet channel 1

3. In the distribution channel 2, the adjustable baffles 4 are located in front of the sample platforms 5. On the side of the distribution channel 2 there are openings 6 in the upper part of the platform space 5 and in the lower part there are front covers 7 with curved edge overhangs inside the platforms 5 and an air gap around the cover face of the samples. On the other side of the platforms 5 there is an air collecting channel 8 and an inlet 9 of the air conditioning unit. The ventilation homogenization partition can also be solved by replacing the one fan used by a system of evenly distributed smaller fans in the space of the air conditioning unit outlet channel.

The function of an exemplary device is as follows:

The locally concentrated air streams driven by the fan 10 of the air conditioning unit are uniformly dispersed by passing through the ventilating screening window 3 in the air duct 1 of the air conditioning unit. In this way, the homogenized air stream is distributed in the distribution channel 2 and directs a part of it through the deflection flaps 4 to the individual platforms 5 with the stored samples. The size of the columns 4 and their rotation must be determined analytically. It depends on the power of the fan 10, the height direction of the air flow and its temperature, in particular at a weaker. fan, away from the dimensions of the air-conditioning space and the placement of the platforms 5. At the bottom of the platform space 5 are ζΰ sides of the air stream located front covers 7 so that the air does not strike unilaterally on the first row of samples. behind the front covers 7, after passing between them through the apertures 6 ensures uniform air conditioning of the samples placed on the platforms 5 in succession. The air that has passed through the space between the platforms 5 is then concentrated in the collecting duct 8 and returned through the inlet 9 to the air conditioning unit.

Claims (2)

SUBJECT Continuously balanced air conditioning system consisting of an air conditioning compartment with sample platforms of the air conditioning unit and a ventilator built between the air inlet opening and the air outlet of the air conditioning unit in the air conditioning compartment wall, characterized in that in the outlet channel (1) ) of the air-conditioning unit is located a ventilation homogenization compartment (3) and behind the outlet channel (1) BACKGROUND OF THE INVENTION there is provided an air distribution channel (2) in which adjustable baffles (4) are located in front of the sample platforms (5), with openings (6) on the side of the distribution channel (2) ) and in the lower part there are front covers (7) with curved edge overlaps into the interior of the platforms (5), and an air gap around the covered face of the samples.