CS215368B1 - Reinforcing reinforcement for industrial hot air filter - Google Patents

Abstract

The spacer reinforcement according to the invention, in addition to the function of supporting the filter fabric, arranged in the form of hoses or pockets, also performs the function of a heat exchanger. It is formed as a vertical hollow closed element, which is provided with an inlet and outlet opening for the liquid heated by the effect of hot air flowing along the outer surfaces of the spacer reinforcement. The selected constant outlet temperature of the heated liquid can be regulated by the flow rate of the liquid through the spacer reinforcement.

Description

BACKGROUND OF THE INVENTION The present invention relates to spacers for an industrial filter for cleaning hot air, the filter fabric of which is arranged in the form of hoses or pockets.

Until now, in most industrial plants where the cleaning of hot air is carried out, the purified air is discharged into the air without using its thermal energy. Only in some cases are heat exchangers used either upstream or downstream of the filtering device.

A disadvantage of heat exchangers arranged upstream of the filtering device is that they are quickly clogged with dust, thereby greatly deteriorating the heat transfer efficiency. In both cases, however, heat exchangers form separate units, which occupy a relatively large building space and, moreover, their construction is expensive.

It is an object of the present invention to provide reinforcement of the filter elements such that they simultaneously serve to obtain thermal energy from the hot flowing air masses and in this way heat exchange takes place directly in the filter device.

According to the invention, the expansive reinforcement, the filter fabric of which is arranged in the form of pockets or hoses, consists in that the expansive reinforcement consists of a vertical hollow closed element which is connected by at least one inlet opening to the liquid supply line and at least one outlet opening to the drain line. liquid.

The construction of the spacers with the hollow elements flowing through the liquid, which is heated by the hot flowing air, is simple and without the need to increase the internal space of the filter device. Since the heat exchanger surfaces come into contact with the air already cleaned, the heat transfer efficiency does not decrease due to dust clogging of these surfaces. In addition to the considerable savings in building space required for the use of heat exchangers as separate units, a further advantage is the reduction of production costs. The modification of an industrial filter, which at the same time performs the function of a separator and a heat exchanger in an embodiment according to the invention, represents a much lower cost than the cost of a separate exchanger and its installation in a separator.

An example of the invention is shown in the accompanying drawings. Fig. 1 is a perpendicular cross-section of the industrial filter; Fig. 2 is a plan view of one industrial filter chamber; and Fig. 3 is a diagram of the flow of liquid through the spacer.

The industrial filter according to FIG. 1 consists essentially of two filter chambers 1 in which the filter material is arranged in the form of pockets 4, an inlet chamber with an inlet opening 3 for polluted air, a hopper 2 and an outlet chamber connected to an outlet pipe 5 air. The left filter chamber 1 is shown during filtration and the right filter chamber during regeneration by backwashing. The spacing reinforcements of the filter pockets 4, formed as vertical hollow closed elements 7 with inlet openings 8 and outlet openings 8 for liquid, are attached to the intermediate partition (even separating the filter chamber 1 from the outlet chamber).

The spacing reinforcement according to the invention can be seen in FIG. 2. The vertical hollow closed element 7 is designed as a plate heat exchanger, the active surface of which is composed of two vertical plates which are watertightly connected to each other, e.g. welded, glued or the like. and the outer surface are provided with protrusions 13. The expansive reinforcement thus formed is provided in its upper part with one liquid inlet opening 8 and a liquid outlet opening 9. The inlet port 8 is connected to the supply line 11 and the outlet port 9 is connected to the liquid discharge line 12.

The liquid inlet, its flow through the spacer and the drain are shown in Fig. 3. The liquid from the inlet opening 8 is fed by an expanded vertical profile 10 of the spacer to its bottom and from there flows upwards between the vertical plates. In this case, it is heated by the action of a hot air free of dust by trapping it on the inlet side of the filter pockets 4 and flowing along the outer surfaces of the vertical plates. From the upper part of the expanding reinforcement, heated liquid is discharged through the outlet opening 9.

On the one hand, the protrusions 13 on the outer surface of the vertical plates prevent the filter fabric from adhering to the entire surface of the spacing reinforcement during filtration and, on the other hand, increase its effective area.

Due to the possibility of fluctuations in the temperature of the filtered air during operation, the control of the flow rate of the liquid through the expansion reinforcement can be used to achieve the selected constant outlet temperature of the heated liquid, eg 80 ° C.

Claims (1)

SUBJECT Spacer reinforcement for an industrial hot air purifying filter, the filter fabric of which is arranged in the form of hoses or pockets, characterized in that it consists of a vertical hollow closed element (7) which is connected by at least one inlet opening (8) to the supply line (11) a liquid and at least one outlet port (9) on the liquid discharge pipe (12). ⁷