DE1708031B1 - Apparatus for generating a high expansion foam - Google Patents

Description

The invention relates to a device for ER- tang more liquid is supplied and thereby the witness of a foam of high expansion, wherein a _r exit surface sprayed particularly uniformly, 'produced' of Filmbfldung on the sieve airflow to Vereinffeitlichung means of a motor driven axial fan a and a mixture of Water and, according to a further embodiment, also serves to finely distribute the foam compound through a series of nozzles. Measure that the pipes carrying the nozzles are injected into the air stream and that are inclined at the front Centrifugal forces acting in the direction of flow sprayed mixture to the tang of the air behind the nozzles, balanced sieve part, permeated with foam, for the supply of the liquid from the hub to

In the USA.-Patentsehrift 3 142 340 one of the pipes can have a rotatable fluid coupling like device described in which the fan is used over.

a pulley from one also in the housing, in order to be as uniform as possible on the sieve element the device provided electric motor driven liquid distribution, it is advantageous to will practice. The drive by an electric motor is if the device has a housing with a zylinbei Such devices, however, disadvantageous because not 15 thresh, the axial fan closely surrounding part and A power source is available at each fire site and a part that widens to form a sieve element stands up and because the fire caused the electricity to fail. As a result, the area of the can expand. Also, such a device is only achieved a pressure drop in one of the housing parts, limited area mobile because one embodiment of the invention are constantly in the

Connection to the power grid must be established. 20 drawings are shown schematically and are shown in In addition, the following is further described by the use of electrical. It shows Energy the fire risk is generally greater. Add to F i g. 1 is a side view of the first embodiment

comes that the known device because of the separate example of the invention, Sjjt.

arranged one after the other from the beginning. 2 the cross-section along the line 2-2 in ^^

drive, axial fan and injection device a rela- as F i g. 1, A

tively has a large construction length. F i g. 3 an example of an installation of the device

The German patent specification 144 731 describes tang,:. .

a jet suitable for automatic fire extinguishers:. 4 is an enlarged partial view of the blower head, in which a turnstile with nozzles running on its circumference by the recoil of the 3 ° .. Fig. 5 is a schematic representation of the Ströden Nozzles escaping liquid is driven. conditions, ..- ■■ -

The axis of the nozzle is on the axis of rotation. Fig. 6 is a side view, partially in section.

of the turnstile vertically. of another embodiment of the invention,

On the basis of a device of the initially shown FIG. 7 a partial front view along the line 7-7

The object of the invention is mentioned in FIG. 6,

reasons to develop this device in such a way that it is an enlarged partial longitudinal section of FIG

with a compact design independent of a device according toFig. 6 and

compared to the already existing pressure fluid Fig. 9 is a partial view, partially in section, of a

additional energy source and thus operationally reliable further embodiment, rer can be operated. 40 A foam generator 10 with a tubular

This object is achieved according to the invention in that housing 12 has an air inlet 13 and a trigger that the motor as by the recoil of the ... lass 14 on. A mixture of water and axial fan 15, which is built into the housing 12 and exits nozzles, is constructed in accordance with the invention, in the form of a reaction motor 16 operated by foaming agent. A screening g ^ det is, in which the nozzles at the free ends of, 45 element 17 covers the free outlet cross-section ^ P by means of a hub coaxially ge to the axial blower ^ - <■ the housing 12 liquid near the outlet 14. A j

stored pipes for the supply of the mixture mixture of water and foaming agent is through composed of water and foam concentrate and injected nozzles 20 and then through the von Geihre Axes with the direction of the axis of the axial bladder 15 generated air flow against the sieve element blower blown a pointed 5o 17 open towards the sieve element. The number of foam-forming holes Include zen angles. 22 in the sieve element 17 is through a zigzag

What is achieved hereby is that the movement energy arrangement is enlarged. The number of BIagie educated equal to the liquid via the reaction motor and consequently the volume of the foam generated serves early to drive the fan. The advance can up to a certain extent through the performance is therefore from an electrical or other increase in the air flow speed and / or Ren additional source of supply independently and the perforated surface, the sieve element 17 verdamit operationally reliable. Furthermore, will be increased by the. The upper limit of the airflow window Arrangement of the nozzles a uniform speed is dependent on various factors high expansion achieved. In addition, depending on how z, B .. the surface tension of the the advantage of a significantly lower construction foam solution, which increases its ability to assert itself length of the device. influenced by the foam-forming holes 22,

Advantageously, on the screen element and the size of the perforations 22. In general facing side of the axial fan additional nozzles is a foam with an expansion ratio of be arranged, which is closer to the 500 to 1 preferred.

Axis of the axial fan as the rotatable nozzles on 65. The housing 12 has a part 23 with undisguised Axis are attached non-rotatably. By this variable diameter, which wing 19 of the additional Nozzles will surround the middle area of the bias 15 closely and with one facing outwards Siebelement over the common supply line extending part 24 with widening transverse

3 4

Section is connected, the purpose of which will be described later- the line 30 under pressure, the fan 15 will practice. driven by the reaction motor 16, which

As the F i g. 4 and 5 show, the blower also has the foam solution for loading 15 via the nozzles 20 a hub 25 which sprays in on a coaxially meshing screen element 17. With high housing 12 on a fan support device 28 speeds through the spray arrangement 40 solid shaft 27 is mounted. The shaft 27, which a wetting of the holes located in the middle is hollow, is reached at one end to a line 30 22. The amount of foam produced is closed, with a pressurized largely a function of the total area of the Source for the foam solution is connected. The sieve elements 17 within a certain speed foam solution contains mostly water with an iodine limit, i. H. if the speed of the chemical additive that gets too high in a known air flow, the bubbles will not Way is added in the correct proportions, penetrate the foam-forming holes 22 and it in order to become a stable foam. High expansion bubble-free zones are created in which no ensure. The wave 27 and a surrounding foam is generated and in which a certain Bearings 32 have circular openings 34 and 34 'respectively, 15 percent of the foam solution only of that which drips off with a chamber 35 in the hub 25 of the sieve element 17. The maximum allowable blower 15 are connected. The hub 25 carries a speed resulting from various factors, number of tubes extending in the radial direction of which an essential factor is the shape of the Ge-36, each of which is connected to the chamber 35 and housing 12. As has already been noted, that is separated on the circumference between the Gebläseflü- 20 part 23 of the housing 12 with constant diameter 19 are arranged (Fig. 2). Each tube 36 carries water with a part 24 with increasing cross lines Nozzle 20. cut connected. This becomes a significant one

Referring to FIG. 5, each nozzle 20 is converted directly to the screen element 17 in spit part of the air flow velocity at a dynamic zem angle to the axis A of the fan 15. The tet. If the line 30 is pressurized, the fan speed can thus be increased. A spray jet B of a foam is injected into each nozzle 20 by increasing the pressure of the foam solution. Since the hub 25 with the nozzle solution, the fan 15 is automatically freely rotatable to increase the 20, the thrust of each nozzle contributes foam production in its rotational speed to the rotation of the fan 15 in the direction of the accelerates, in accordance with the arrow C at. The reaction 30 larger injected foam volume, motor 16 formed in this way is the only source of drive for the drive in the preferred embodiment of the invention

bubble 15. The angle of the nozzles 20 with respect to that of the reaction motor 16 on the hub 25 of the blower fan axis A is such that one is attached downstream 15 so that the housing 12 can be reduced significantly exerting force represented by the vector D, as shown in FIG. 1 acts behind the sprayed mixture. That of FIG. 35 is determined in order to allow the installation of window-like injection nozzles 20 with respect to the axis A , as shown in FIG. 3 shown, with a Minkel can be changed. It is to allow as little overhang as possible. With regard to cases as large as possible without the spray impinging directly on the fan blades 19 in the case of a second embodiment of the invention. That the housing 12 can be longer, reference is made to FIGS. 6, 7 and 8, the greater the length of the tubes 36, the greater 40 is. In this embodiment of the moment arm of the reaction motor 16 to the embodiment, the same parts have the same reference drive of the fan 15. However, the point and similar parts reference numerals are sufficient where the in the interest of a larger rotation addition of an index. There is a fan 15 'through an increased speed angle of the nozzles 20 and reactors attached to a hub 25' of the fan 15 ', the length of the tubes 36 reaching a size, driven at 45 tion motor 16'. The reaction motor 16 ', which the spray jet differs greatly from the reaction motor 16 by force, is influenced by the centrifugal force and, as a result, mainly in the preferred embodiment in that the tube edge of the sieve element 17 is deposited. 36 'sloping forward as best

A non-rotatable spray assembly 40 includes, of which FIG. 6 can be seen. This angle of inclination as shown in FIGS. 2 and 4, a T-piece 50 of the pipes 36 'and thus the nozzles 20' opposite 41, from which four pipes 42 extend, is attached to the fan axis to compensate for the nozzles 21 attached to the ends. The T-piece 41 equips the centrifugal force acting on the foam solution through the shaft 27 with the line 30 in comparison, so that a uniform distribution of the spray bond. The nozzles 21 are directed in the direction of the axis A of the jet, represented by directional arrows V, on which, if pressurized, cause 55 sieve element 17 to be achieved. Consequently, there will be a second, a more or less center-to-center spray arrangement, such as. B. the spray arrangement 40 of the sieve element 17, in order to ensure uniform wetting of the same in the preferred embodiment of the invention. However, if desired, a zen-bar can be used. Irish nozzle 50 for injecting the foam solution

In operation, the device can be provided directly in the center of the sieve element 17, as for example in FIG is shown to be in an opening 45 of a building.

be built in that the air inlet 13 to the outside In a further embodiment of the invention

and the outlet 14 is directed inward. It is (Fig. 9) is a one in one reaction motor 60 clear that a permanent installation as shown in FIG. 3 bearings 63 connected to the fan shaft 62. One is shown, only one possible application of the hollow shaft 64, which carries the reaction motor 60, Invention represents and that other into consideration connects its chamber 67 with a pressure line 68. The operation is essentially the same as the testify that no electrical energy is required. Is in the device according to F i g. 6 to 8.

Claims (5)

Patent claims: 1. Device for generating a high expansion foam, in which an axial fan driven by a motor generates an air flow and a mixture of water and foam concentrate is injected finely divided into the air flow through a series of nozzles and the total mixture thus formed is injected in the direction of flow of the air Sieve element arranged behind the nozzles penetrated with foam formation, characterized in that the motor is designed as a reaction motor (16, 16 ', 60) operated by the recoil of the mixture of water and foaming agent leaving the nozzles (20, 20'), in which the Nozzles (20, 20 ') are arranged at the free ends of tubes (36, 36') mounted coaxially to the axial fan (15, 15 ') by means of a hub (25, 25') for the supply of the mixture of water and foaming agent and their axes enclose an acute angle open towards the sieve element (17) with the direction of the axis (A) of the axial fan (15, 15 '). "-. 2. Device according to claim 1, characterized in that on the sieve element (17) facing side of the axial fan (15) additional nozzles (21, 50) are arranged, which are at a smaller distance from the axis (A) of the axial fan (15) than the rotatable nozzles (20, 20 ') are mounted on the axis (A) in a rotationally fixed manner. 3. Apparatus according to claim 1 or 2, characterized in that the tubes (36 ') according to are inclined forward. 4. Device according to one of claims 1 to 3, characterized in that the liquid via the hub (25, 25 ') to the tubes (36, 36') by means of a rotatable fluid coupling got. 5. Device according to one of claims 1 to 4, characterized by a housing which has a cylindrical ^{part (23) surrounding the axial fan (15, 150 en} S) and a part (24) widening towards the sieve element (17) For this purpose 2 sheets of drawings