DE4107634A1 - Blower for air dispersal of particles - has attachment of lattice to air flow equalising plate - Google Patents

Abstract

The blower installation for the air dispersal of particles comprises a blower (1), a blower horn (2), leading from an air chamber (4) and an air flow equalising plate (3). A lattice grating made of crosswise arranged plate strips (5) is fixed in the air chamber immediately behind the air flow equaliser. The width of the plate strips becomes larger the nearer the strips are to the central region of the equaliser. ADVANTAGE - Standardisation of the length of the dispersal air flow independently of the passage point of the air flow from the equaliser.

Description

The invention relates to a blower system for use in the production of chipboard using Airflow distribution.

Blower systems used for this purpose in various Refinements are generally known. These well-known Plants have the following basic facilities: Blower for generating air flow, a horn for Feeding the air flow into the scattering zone and one Air flow equalizer that is at the mouth of the horn is organized and which extends into the cross-sectional area the wind chamber extends.

As an air flow compensator is generally one with Publ Solutions provided plate, the openings of which one the desired airflow corresponding size and arrangement exhibit. The plate often has a straight shape, resulting in certain problems with through the openings escaping air flow. An airflow that through the wind in the peripheral areas of the cross section chamber located openings has a longer Stretch from the blower through the expanding blow horn must travel as an air stream flowing through the openings in the middle area in the Air flow equalizer flows out. For this reason, the Pressure of the through the openings in the peripheral areas of the Air flow compensator flowing out air flow lower than that of the air flow through the openings in the flows out middle area.

This phenomenon brings some problems with the Scattering process with itself. The lower pressure in the Edge areas of the cross section of the wind chamber caused Air flows in the transverse direction from the middle one Area towards the edge areas. This gets in the way  Directional air currents cause further in the wind chamber in the area where the chips fall, through which the chips from the edge areas to the center are driven, which in turn leads to irregularities leads to the scatter result. In particular, by these turbulences driven fine matter.

One has tried to solve the problem by: the cross section of the flow openings of the air flow equalizer has changed in such a way that the through flow cross-sectional area of the openings in the Randbe range of the wind chamber was throttled. This allowed alleviate the pressure differential problem; other on the other hand, this measure caused new problems. The main problem here is flow disturbances, those in the rhinoceros, especially near its walls occur. These flow disturbances lead to accumulations of existing in the circulating air serving as scattering air Impurities on the walls of the horn, which the Ver possible uses of the circulating air are impaired. Therefore The circulating air must flow with such a circulation flow (circula tion air) are replaced, from which of the scatter dust has been removed. The throttling of the Flow also results in energy loss.

When looking for a solution to the problem of unequal pressure distribution in the outlet area of the air flow equalizer, the invention was based on different considerations than previously. The invention is based on the idea of unifying the length of the distance to be covered by the air flow with respect to the throughflow openings in various areas of the air flow compensator. According to the main solution of the inventive idea, the length of the distance to be covered by air flow in the central region of the air flow compensator has been extended by arranging a grid consisting of plate strips on the outlet side of the air flow compensator, in which grating the width of the over the central region of the Air flow equalizer running plate strips is larger than that of the plate strips running only over the edge areas. By choosing the width of the plate strip such a flow path is to be achieved in the central region, which is the same length as distance defined by the parallel nearest wall of the Blashorns 2 flow.

The special features of the invention are in the beige added claims defined.

The invention will be explained with reference to the accompanying drawing tern. she shows

Fig. 1 is a side view of a section is provided in the plant according to the invention,

Fig. 2 is a plan view of the system according to the invention presented in section, and

Fig. 3 shows the cross section through the installation according to Fig. 1, seen from the direction A.

In the figures of the drawing, the usual Grundein directions of an air flow scattering system are shown, namely a scattering pad 6 , which is transported further at a uniform speed and to which the air flow-scattered chip stream is lowered; A blower 1 is provided for generating the scattering air flow, from which a blower horn 2 leads into a wind chamber 4 . The wind horn expands evenly on the route from the fan to the wind chamber and finally reaches the shape of the cross section of the wind chamber.

At the mouth of the horn 2 , an air flow equalizer 3 is arranged, which is formed in the embodiment shown in the form of a straight, apertured plate.

In this system, which is known per se, according to the invention, a grating made of plate strips 5 arranged crosswise is arranged on the outlet side of the air flow compensator 3 . The plate strips are in the Darge presented embodiment in the horizontal and vertical directions. The width of the plate strips is chosen so that the widest strips run over the central region of the air flow compensator 3 , while the width of those strips which only affect the central region is already narrower, and is becoming narrower with the strips which only run over the edge areas.

When using strips with the aforementioned dimensions for air flow guidance, the width of the strips running over the central region of the air flow compensator 3 can differ depending on the shape of the cross section of the wind chamber. Usually the cross section has such a rectangular shape that the width of the wind chamber is greater than its height. The vertical strips 5 are wider in the central region than the horizontal strips.

In the illustrated embodiment, the grating consisting of the plates 5 is attached to the air flow compensating plate 3 , but when examining air flows it was found that this is not absolutely necessary. It was found that an air stream flowing through the openings of the air flow compensator changes its flow direction at the earliest at a distance of approximately 20 to 30 mm from the air flow compensator, so that the grating can be arranged at least at this distance from the surface of the air flow compensator. Depending on the air flow conditions, the distance can be up to 100 mm in some cases.

In existing systems, air flow can be of the same length stretches can be achieved if the on the wind chamber side located edge of the plate strips of the grating in the middle area of the air flow equalizer at a distance from 200 to 400 mm from the surface of the air flow equalizer is arranged. Depending on the dimensions and the flow area Geometry of the blower system, the distance must be even greater, so even up to 500 mm, and correspondingly smaller.

The side dimension of those created by the grating Openings is preferably about 50 to 200 mm, can however, deviate from this value within the scope of the invention.

In the illustrated embodiment, the plate strips are arranged in the horizontal and vertical direction, but other arrangements are perfectly applicable. One advantage of the horizontal and vertical arrangement is in a special feature of the invention, according to which the vertical strips are rotatable about their vertical axis. This rotatability can influence the litter airflow in the transverse direction can be achieved. By the control of the air flow in the transverse direction can Scattering process can also be influenced by eventu All irregularities in the transverse direction are compensated for will.

In addition to the aforementioned grating, the system can also be provided with a compensating element arranged downstream of the grating, ie a network 7 extending transversely to the wind chamber.

Claims (7)

1. Blower system for air scattering of chips, comprising a blower ( 1 ), a blower horn ( 2 ) leading from the blower ( 1 ) into a wind chamber ( 4 ), which extends to a shape corresponding to the cross section of the wind chamber, and a the air flow balancing in the wind chamber apertured plate (3) or a corresponding air flow equalizer, characterized net gekennzeich that is arranged in the wind chamber (4) directly behind the air flow equalizer (3) mounted in crosswise plate strips (5) existing grating, At which grate the width of the plate strips increases, the more the plate strips approach the central area of the air flow compensator ( 3 ). 2. Blower system according to claim 1, characterized in that the distance of the located at the Windkammersei te edge of each plate strip ( 5 ) from the junction of the blower ( 1 ) and the horn ( 2 ) is the same length as the length of the parallel wall of the wind horn. 3. Blower system according to claim 1 or 2, characterized in that the grating consisting of plate strips ( 5 ) on the wind chamber side ( 4 ) facing surface of the air flow compensator ( 3 ) is arranged. 4. Blower system according to claim 1 or 2, characterized in that the grating consisting of plate strips ( 5 ) at a distance of about 1 to 100 mm, preferably at a distance of 1 to 30 mm from the wind chamber side ( 4 ) facing Surface of the air flow compensator is arranged away. 5. Blower system according to one of the preceding claims, characterized in that the plates strip ( 5 ) are arranged in the horizontal and vertical direction. 6. Blower system according to claim 5, characterized in that the vertical plate strips ( 5 ) are arranged rotatably about their vertical axis. 7. Blower system according to one of the preceding claims, characterized in that the Seitenabmes solution of the openings of the plate strips ( 5 ) existing grating is approximately 50 to 200 mm.