CS218458B1 - Air transport equipment - Google Patents

Abstract

The purpose of the invention is to replace the large fan used so far with several smaller fans, which are operated according to the instantaneous required power. The air transport device is created by fans assembled in series to achieve a multiple of the pressure and in parallel to achieve a multiple of the amount of transported air. The fans are driven by separate electric motors, which are located outside the air transport paths. The valves are activated individually and by means of air inlet closures to individual fans and by means of bypasses, it is possible to select the required amount of air and the required pressure according to the immediate need, i.e. according to the parameters of the outside air and according to the requirement of the drying mode. The device can be used, except in malting for malting and malt germination, wherever cooling and drying with variable air parameters (quantity and pressure) is needed.

Description

BACKGROUND OF THE INVENTION The present invention relates to a fan station in which overall power is obtained by parallel and series assembly of small fans that are operated (exploited) at the instantaneous desired power.

So far, for example, in single-sand kilns for the transport of both cold and hot air, one large fan is used, where the output is adjusted by means of costly regulation of the fan speed or most often by energy-loss throttling of the air supply. This fan is designed for the maximum power required to ensure operation even in extreme conditions and from the range of manufactured fans it is necessary to choose the closest, higher performance type. Even if it is possible to select the optimum size from the production range, only part of the power is used for most of the operating period, the fan operates in disadvantageous areas of its characteristics and energy losses occur.

The above-mentioned drawbacks are overcome by the fan station according to the invention, which is based on the use of several small fans instead of the one used so far. The fans used are built in series to create fan units that multiply the pressure achieved by a single fan. The fan units are assembled in parallel to achieve the required air flow rate.

As the need to supply air quantity and pressure also changes during technological processes, the individual fans of the fan station are operated according to the instantaneous need, ie outdoor air parameters and drying mode. The fan drives may be located outside the conveyed air stream. The choice of the most suitable ventilator station fans for immediate operation is made possible by arranging the ventilators in bulkheads or short ducts that separate the individual pressure spaces of the conveyed air stream. The air volume and pressure are controlled by selecting the fans to operate, throttling the inlet air to the fans, and selecting bypasses in obstructions.

In the accompanying drawings two exemplary embodiments of a fan station according to the invention are shown, wherein in Fig. 1 the fan station is positioned between two baffles placed in the conveyed air path and in Fig. 2 the fan station is placed in ducts and seated on one baffle.

In the partitions 1, which separate the individual pressure spaces (Fig. 1), there are fans 2. The pairs of fans 2 located on the common axis form any number of fan units 3. The fans are driven by separate electric motors 4 located off the air conveying path via a gear 5. The air inlet 6 after closing and shutting down of the respective fan 2 while opening the controlled bypass closure 7 ensures a reduction in the pressure of the conveyed air by the fan station according to the invention. After closing the controlled bypass 7 even at the second fan 2, the fan unit 3 is completely out of operation and the amount of conveyed air is reduced. The actuated shutter 6 can also serve to fine-tune the performance of the fan 2 by throttling the air supply. FIG. 2 shows the fan unit 3 located in the duct 8, so that only one partition 1 is sufficient to separate the pressure spaces. The controlled air inlet closure 6 is common to both fans 2 of the fan unit 3. The air pressure is reduced by simply shutting down one of the fans 2 of the fan unit 3.

When transporting cold air or non-aggressive media, the transmission 5 can be omitted and the motor 4 placed on the fan axis 2.

The ventilator stations according to the invention can be used in malting for malting and germination in all types of germinating devices (sliding heap, Saladin box, stationary malting box) as well as other similar technologies, especially in the food and refrigeration industry.

By using the invention, savings can be achieved over the current state in the cost of machinery and construction. In the kilns it is possible to use the space of the recirculation shaft for the location of the fan station and thus save at least one floor of the built-up ground plan. In the adaptation of older kilns, it will be possible to equip them with state-of-the-art technology, including the fan station according to the invention, while previously there was no room for a new, more powerful fan.

Claims (2)

SUBJECT An air conveying device, characterized in that it is formed by fans (2J) assembled in series and parallel to the fan units (3), the fans being located in partitions (1j) which separate the pressure spaces in the air transport path. Device according to claim 1, characterized in that each fan (2) is driven BACKGROUND OF THE INVENTION a separate electric motor (4) located off the air conveying path by means of a transmission (5), wherein any fan (2) can be disabled and the controlled bypass valves (7) and controlled air inlet valves (6) can disable the effect of parallel or serial fan arrangement (2).