TH12450B - Methods and devices for the transverse distribution of fluid medium. - Google Patents

Abstract

The invention involves methods and equipment for the expansion of a fluid medium such as liquids, gases, foams or mixtures of different materials to achieve Uniform transverse distribution The device consists of The distribution chamber (callout 1) with a wide outlet opening (callout 2) and the intermediate feed line (number 3) in the distribution chamber (callout 5) the fluid medium is deflected. As it extends in a lateral direction to a transverse arc flow path (number 8), here the fluid medium is again deflected to the exit chamber (No. 6) in the exit chamber (No. 6), where This extends up to the outlet opening (callout 2). The flow may be in parallel and mostly uniformly distributed.

Claims (5)

1. Methods for obtaining uniform diffusion and transverse distribution of a fluid medium such as liquid, gas, foam or mixtures of various materials. Whose characteristics are the intermediates in The vertical flow (No.3) is deflected while expanding in the lateral direction in the dispersion chamber (No.5), and thereafter deflected again in the flow path (No. 8) at It is an arc in the transverse direction to the exit chamber (number 6) and extends in the form of Parallel and mostly uniformly distributed outflow through a wide opening (number 2). 2. The unique method defined in claim 1 is The parabolic path (number 8) has a shape, mostly parabolic. And the intermediate is in the form of the line (number 3) that is entered and the deflection is connected to the focal point of the parabola. 3. The method defined in claim 1 is unique. The arc-shaped flow path (number 8) has most of the shape of a circular arc. And the center in the form (No. 3) entered and deflected connected to the chord center of the circular arc, approximately 1/4 the distance from the chord length (No. 8). As defined in claim 1, it is unique in that the medium is deflected in the flow path (number 8) in such a way that each part of the medium flow is the same size and It is laterally spread, feeding the corresponding sized outflow of the same width through the opening (callout 2) 5. Method as defined in any of the claims from 1-4. Whose characteristic is the flow The parallel design of the medium extends through the opening (callout 2) on the movable support (callout 4) in the direction angled to the support (callout 4). 6. Method as defined in the claim. Any one from 1-4 that is unique is flow. The parallel flow of the medium is spread through the opening (callout 2) on the movable support (callout 4) in the direction parallel to the support (callout 4). Evenly interchangeable fluid media such as liquids, gases, foams or mixtures of different materials. It consists of a diffusion chamber (callout 1) with a wide exit hole (No. 2) and a line (No. 3) for feeding the medium. The dispersion chamber (No. 1) is formed from the distribution chamber (No. 5), which is arranged mostly transverse to the feed line (No.3) and extends from the linkage with the feed line. The substance extends further with the transverse arc flow path (No. 8) and the exit chamber (No. 6) extending in the opposite direction from the flow path (No. 8) to the exit hole (No. 2), where The two chambers (numbers 5 and 6) are communicated through a flow path (number 8) so that the medium is deflected and flowing in a parallel design that is mostly uniformly distributed. 8. Equipment as defined in The seventh characteristic is that the two chambers (numbers 5 and 6) are separated by an internal wall (No. 7) at the end of the wall and a deflection surface (No. 11) in the dispersion chamber. (No. 1) formed as a flow path (No. 8) 9. The device, as defined in Article 7 or 8, is characterized by the height (h) of the arc-shaped flow path (No. 8). The value is between 1/8 and 1/2, with the appropriate value approximately 1/4 of the width (b) and the width of the outlet (number 2) equal to the width of the line. Arc flow way (No. 8) 1 0. The device, as defined in clause 7-9, is characterized by the entrance of the feed line (No.3) to the distribution chamber (No. 5) located at the center of Approximate width of the distribution room (No. 5) and distance from the flow path (No. 8) is a distance between 1/8 and 1/2 of the width (b) of the flow path (No. 8) 1 1.Equipment defined in any of the 7-10 claims that are unique is a line The parabolic flow direction (number 8) is predominantly parabolic and the feed line entrance (number 3) is located at the point of connection with the focal point of the parabolic 1. 2. The device, as defined in any of the 7-10 claims, is characterized by an arc-shaped flow line (number 8), predominantly circular arc shape. And the inlet of the feed line (No. 3) is located approximately 1/4 of the width (b) of the flow path 1. 3. The device, as defined in any of the 7-10 claims, is characterized by a parabolic flow path (number 8), with most of the curves described by the formula (chemical formula) and the inlet of The feed line is approximately b / pi of the flow path (b) 1. 4. The device, as defined in any of the claims 7-13, is characterized by the feed line (No.3) having a semicircular cross section. With the plane side away from the flow path (number 8) 1 5. The equipment, as defined in one of Clause 7-14, is characterized by that a movable support (No. 4) is installed at the exit hole (callout 2) and the exit hole. This will be at an angle between 0-90 ํ and the support (number 4).