RU2154770C2 - System of air distribution in loaded rooms - Google Patents

Abstract

FIELD: ventilation equipment. SUBSTANCE: system may be used in loaded rooms, storehouses and refrigerators for storage of potatoes, fruits and vegetables. System has an air-intake device with louver grills heated air valve, air heater (cooler), fans for inflow air ducts with variable-section longitudinal slot, and axial fan coupled with inflow air duct with holes and with heated air valve. Air ducts with adjusting device are intended for removal of recirculation air. Exhaust wells with throttle valves and deflectors are provided in storehouse ceiling. Ventilation air is supplied to products through inflow holes of floor-mounted air distributor. EFFECT: reduced specific amount of power and metal. 4 dwg

Description

 The invention relates to the field of ventilation and can be used for storing fruits, vegetables and potatoes in closed rooms, storages and refrigerators.

 Known air distribution system in a busy room, containing a refrigeration unit with fans. Cooling devices are smooth-tube glass batteries. The coolant is brine. Supply air ducts with constant static pressure and gratings are provided. When the damper is open, the outside air is taken in by the fan and fed through the air intake shaft to the discharge channels, from where it enters the product stack through the underground. It is removed from the storehouse through a shaft with a deflector (see Balykova L.N. “Study of the cooling system of the fruit and vegetable storehouse with the combined use of natural and artificial cold.” Odessa, 1978. Thesis for the degree of candidate of technical sciences, pp. 135-141 )

 However, the known design of the air distribution in a busy room does not exclude the freezing of fruits and vegetables, the formation of condensation of water vapor and its collection in the lower part of the stack of products. The air distribution system has high aerodynamic drag and cost.

 The closest in technical essence and the achieved result to the proposed device is an air distribution system in a busy room, containing a fan, an air distributor, a discharge manifold and a series of parallel air-distributing ducts connected in series to each other. The system is equipped with a second single complex, similar to the first, located in parallel and opposite it. The rows of air distribution ducts of both complexes are located in a vertical plane between the outer fences and the containers. Outlets are made from the side opposite to the outer fences. Air distribution ducts located near the floor are provided with guides inclined to the floor, forming a longitudinal uniform gap between them. A uniform intake duct is located under the ceiling (see SU Patent for invention N 1702115 A1. December 30, 91, IPC F 24 F 7/00 "Air distribution system in busy rooms").

However, the known device has the following disadvantages:
- reduction in the cargo volume of the storage chamber due to the construction of a large-sized discharge manifold and complex;
- the presence of cooling batteries that increase capital and operating costs;
- the possibility of thermal insulation of products due to external heat influx through external fences and the lack of heat removal;
- increased pressure loss of the discharge air line due to the complexity of the duct network;
- the formation of a zone above the discharge manifold with insufficient circulation of ventilation air (the speed of movement of the flow of ventilation air is below the normalized value);
- excludes the possibility of using the natural cold of outdoor air during heat-stressed periods of storage of products.

 The problem solved by the invention is to reduce the energy consumption of the air distribution system, metal consumption and reduce capital costs by using the natural cold of the outdoor air and the use of air ducts with a longitudinal slit of variable cross-section, recirculation ducts, as well as shafts with deflectors equipped with control devices, simplifying the design.

 To achieve the technical result provided by the invention, the air distribution system in a loaded room with containers or drawers and external fences, comprising a fan, a discharge manifold, an air heater (cooler) and parallel air distribution ducts connected in series with each other, according to the invention is equipped with a second complex with a discharge duct, placed along the transverse side of the outer fence perpendicular to the first a complex equipped with a warmed air valve, ventilation dampers and an air intake shaft, while the air duct of the first complex is made with a uniform distribution of air through a slit of variable cross-section, and the air duct of the second complex is equipped with inlet equal holes and is connected to the atmosphere through a fan and a warmed air valve moreover, the system is equipped with recirculating air ducts with a control device, and shafts with a throttle valve are provided for air removal Mr. and deflector.

A comparison of the invention with other technical solutions known from the prior art made it possible to establish the following:
In well-known air distribution systems in a busy room, a complex system of supply air ducts with a large-sized discharge manifold is provided, which leads to a deterioration in its aerodynamic characteristics, warming of fruits and vegetables by heat inflows penetrating through the external fencing is not excluded, in addition, natural removal of ventilation air and recirculation ducts are not provided.

In the claimed device, intensive ventilation of the space between the stack of products and the inner surface of the outer fence is possible;
in order to reduce capital costs, the outside ventilation air is forced into the inter-bed space, which acts as a static pressure chamber;
autonomous operation of the right and left parts of the air distribution system is possible;
provides for the combined use of the natural cold of outdoor air and a heated mixture of outdoor air and recirculated (internal) air;
significant aerodynamic drags are not created for the movement of air flows;
natural removal of ventilation air is provided;
the air intake shaft is centrally located.

 Thus, the author has not identified technical solutions from the prior art that include a combination of features similar or equivalent to those claimed. This allows us to conclude that the proposal meets the criteria of "novelty" and "inventive step".

The invention is illustrated by graphic materials, where figure 1 shows a plan of a loaded room with an air distribution system;
in FIG. 2 - section of the supply ventilation room in width;
figure 3 is a section of a loaded room along the length;
figure 4 is a section of a loaded room in width.

 The proposed air distribution system in a loaded room with containers or drawers and external fences contains sequentially interconnected and constituting a single complex air intake device 1 with inlet openings (see Fig. 1-4), in which louvres are installed 2, a warmed air valve with an executive mechanism 3, preventing the ingress of outside air, an air heater (cooler) 4 for heating or cooling the outside air, ventilation flaps 5, radial ntilyatory 6, axial flow fan 7, two booster longitudinal duct 8 of uniform air distribution in free space between the stack and the outer enclosure (outer bypass) 9 and the discharge duct 10 for supplying external air disposed in mezhdnischevom space (between the floor and the perforated bottom 11). Longitudinal air ducts have a slit of variable section 12, and air duct 10 has equal-sized openings 13 in the side wall. An axial fan 7 is installed between the insulated air valve 3 and the supply air duct 10. The system has recirculating air ducts 14 of uniform suction equipped with a regulating device (throttle valve) 15. The exhaust shafts 16 are equipped with a throttle valve 15 and a deflector 17. The bottom 11 has openings for entry ventilation air to the stack of products 19. There are supply isometric openings 18, suction openings of a constant live section 20.

 Air ducts are made of steel of rectangular shape of a live section without turns of a constant section along the length.

 The proposed system works as follows.

 During the cooling period of the product, the system ensures the entry into the storage of natural cold of outside air, and during storage the system allows the combined use of natural and artificial cold. In the autumn period of intensive cooling, in order to reduce energy costs and ensure normalized temperature and humidity parameters in the fruit and vegetable products stack with an axial fan 7, the outside air is pumped into the transverse without air (cooling or heating) through an open air inlet equipped with a warmed air valve 3 and louvre grille 2 the supply air duct 10 and through the supply air holes of different sizes 13 evenly enters the space between the floor and the perforated bottom 11, where but redistributed according to its volume, and exits through the outlet 18 in a stack 19. The product is removed from storage ventilation air through the recirculation duct 14. In this case, the fan 6 is not working.

During the storage period, when the outdoor temperature is set below -10 ^o C, the external air is supplied through the intake shaft 1 using internal air recirculation when the insulated air valve 3 is closed, when the fan 7 is turned off.

 Outside air is mixed with recirculated air in the intake shaft 1, heated to a technologically predetermined temperature, fans 6 are fed into the longitudinal supply ducts 8, from where through the longitudinal slot of variable cross section 12 goes into the external bypass 9, located between the inner surface of the outer fence and the stack of products 19. Ventilation air passing through the bypass eliminates the loss of heat through the external fences in the cold season, performing the sibling role of the air curtain and heat during the warm season, and also ventilates the products. After that, the air is removed from the storage through the suction holes 20 of the recirculation ducts 14.

 To reduce energy consumption, the air distribution system allows you to apply an automatically controlled ventilation mode using fans 5 and 7 with the combined use of artificial cold supplied by fans 5 with recirculation of internal air from the storage volume.

 In addition, to improve aerodynamic characteristics, the air distribution system consists of steel ducts of a rectangular shape of a live section without bends and turns along the length, which also reduces the cost of electricity, reduces the fan power, and its overall dimensions.

 The use of the present invention will reduce capital costs by simplifying the design, reduce the cost of electrical and thermal energy due to the efficient use of the natural cold of the outside air, eliminate the branched network of ducts for supplying air to the storage, insulation of the peripheral part of the product located near the outer fences, the need for a device cooling batteries, increase the useful storage capacity for products, reduce the amount of processed air and in the storage, due to the combined use of artificial cold with recirculation of internal air, to improve the aerodynamic performance of the air distribution system, use natural air exchange in the storage.

 The foregoing indicates the feasibility of the invention to obtain the specified technical result, which allows us to conclude that the proposal meets the condition of "industrial applicability".

Claims (1)

 The air distribution system in a loaded room with containers or drawers and external fences, containing in series connected together, constituting a single complex: fan, discharge manifold, air heater (cooler) and parallel air distribution ducts, characterized in that it is equipped with a second complex with a discharge duct placed along the transverse side of the outer fence perpendicular to the first complex, equipped with a warmed air valve, the air duct of the first complex is made with a uniform distribution of air along the length with a slit of variable cross-section, and the air duct of the second complex is equipped with inlet equal-sized openings and is connected to the atmosphere through a fan and an insulated air valve, and the system is equipped with recirculating air ducts with a control device, and to remove air provided mine with a throttle valve and deflector.

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