RU2059936C1 - Ventilating air exhaust device - Google Patents

Abstract

FIELD: ventilation systems. SUBSTANCE: ventilating air exhaust device has bearing frame with shutter units mounted on it; each unit consists of twin Z-shaped blades whose center walls are provided with exhaust slits. End walls are directed towards each other. Center walls of blades are located at angle of 0 to 90 deg relative to each other and end walls are located at distance relative to each other not exceeding 10 mm. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to techniques for ventilation and air conditioning and can be used to supply fresh air to small-volume premises, to the working area of public and administrative, domestic premises, as well as exhaust devices for domestic air conditioners.

 Known air intake grilles designed to supply fresh air into the room with compact and fan-type jets of type P and PP, as well as recently used unified ventilation grilles of type PB-3 [1] The disadvantages of the above ventilation grilles are the high attenuation coefficients of excess temperature and speed at the axis of the jet, which does not allow them to be used to supply air to the working area of the premises and to the premises of small objects. Due to the slow attenuation of the excess temperature and velocity on the axis of the jet in the zone of influence of the jets released from the above lattices, there is an unpleasant sensation of "blasting". The same sensations often arise in small-volume rooms due to reverse air flows caused by jets created by these gratings.

 It is known that air supply to the upper zone of the premises leads to an increase in the supply air supply, which in turn leads to unproductive expenses for heat and cold (depending on the purpose of the flow), to an increase in capital and operating costs for ventilation of the premises.

 Closest to the claimed technical solution is a ventilation air outlet device [2]. The device comprises a support frame on which several blade units are supported. Each of the latter has several blades that deflect the air flow passing through this unit to the exit at a certain angle.

 Due to the fact that the blade units are located mutually perpendicular to each other, a swirling fan stream is formed at the outlet, which draws in a large amount of room air and quickly attenuates. However, mass transfer takes place at the boundary between the supply air and the room air. The above device makes it possible only to expand these boundaries.

 The main task to which the invention is directed is to reduce the coefficient of attenuation of speeds and the coefficient of attenuation of excess temperature. As a result, in the working area of the room there is no sensation of "blast", which allows to improve sanitary and hygienic conditions. In addition, by reducing the amount of supply air supplied through the ventilation air exhaust device with an increase in the calculated temperature difference, the energy and material costs during its operation are reduced.

 Good attenuation coefficients allow the use of gratings in rooms with small volumes, as well as in rooms with high hygienic requirements for mobility and air temperature.

The essence of the invention lies in the fact that the ventilation air outlet device comprises a support frame with several blade units mounted on it. Each of the latter has two z-shaped blade with slits for air release in the middle planes of the blades, the z-shaped vanes mounted between a support frame on an angle ^of 0-90, and the blade assemblies are located on the distance not more than 10 mm apart .

 When installing a ventilation air outlet device, the blade units in it can be located both horizontally and vertically.

The arrangement of the middle planes with the slots of the z-shaped blades at an angle serves to collide the air jets with each other, which creates many small vortices that suck in the indoor air and quickly decay. An increase in the angle by more than 90 ^° does not provide a sufficient collision of two outgoing jets. Colliding these jets do not form a common long-range torch.

 Comparison of the claimed technical solution with the prototype allows us to establish the presence of distinctive features and compliance with its criterion of "novelty."

 Comparison of the proposed technical solutions with other known solutions allows us to conclude that there is an inventive step, since it is not known from the scientific, technical and patent literature the use of z-shaped blades in air exhaust devices.

 In FIG. 1 shows a diagram of a ventilation air outlet device; figure 2 section aa in figure 1.

The ventilation air outlet device comprises a support frame 1 on which several blade assemblies are mounted, each of which includes two z-shaped blades 2 and 3, located at a distance of no more than 10 m, in which there are slots 4 and 5 for air discharge, medium the plane of the z-shaped blades are located relative to each other at an angle of 0-90 ^about .

 Ventilation exhaust device operates as follows.

 The flow of fresh air enters the blade units mounted on the support frame 1, and then in each of the nodes diverges to the blades 2 and 3 and is released into the room through slots 4,5. The jets of air discharged into the room from slots 4 and 5 collide with each other. As a result, at the outlet of the ventilation air exhaust device, the air forms a supply stream, in the initial section of which there are many vortices that draw the internal air of the room into their flow, mix with it and quickly die out.

 The attenuation coefficient of the speed of such devices is in the range of 0.4-1, depending on the ratio of the size of the slots and the number of blade nodes, and the coefficient of attenuation of the temperature is 0.6-1.3.

 When using these ventilation air exhaust devices in the room there is no feeling of "blast".

Claims (1)

VENTILATION AIR OUTLET DEVICE, including a support frame with louvre nodes installed on it, characterized in that each louvre node consists of paired Z-shaped blades, the middle walls of which are made with exhaust slots, one of their outer walls facing one another, while the middle the walls of the blades are located relative to each other at an angle of 0 90 ^o , and the extreme walls at a distance from one another, not exceeding 10 mm

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