RU170993U1 - FOAM GENERATOR INSTALLATION - Google Patents

Abstract

Foam generator belongs to the field of construction and can be used to obtain foam from the foaming liquid necessary for the preparation of foam concrete. In a foam generator installation, including containers for components of the foaming agent and water and a foam generator, in which the inlet pipe in the zone of input of the components of the foam-forming mixture is equipped with a removable cover with separate pipes for supplying foam-forming components, the discharge rotor blades are removable and the bubbling rotor blades are removable and interchangeable with variable the size of the technological holes and the order of their location, in addition, the installation is supplemented by a compressed gas supply line attached to flax conduit formed in the housing in the entry zone of the foam components, wherein the additional conduit is formed in the housing or in the removable lid. The technical result of the improvement is the expansion of the technological capabilities of the foam generator due to the possibility of changing the technological parameters of the foam generator and the possibility of expanding the range of foam obtained with various quality indicators. 2 s.p. f-ly, 3 ill.

Description

Declared as a useful model, the foam generator relates to the field of construction and can be used to obtain foam from the foaming liquid necessary for the preparation of foam concrete.

A foam generator for producing a gas-mechanical foam is known, comprising a housing, supply pipelines of liquid components and compressed gas, a foam pipeline, a foaming agent-mixer, made in the form of an loose package of thin-walled capillary tubes, cantileverly fixed in the lower part of the housing and passing through the dispenser of foam components, equipped with a reciprocating drive translational movement through capillary tubes (Description to auth. St. USSR No. 1296181, published 03/15/1987). The supply of the liquid components of the foam through capillary tubes to the foaming agent-mixer alternates with the supply of compressed gas, for example, air, argon, etc.

A disadvantage of the known foam generator is the design complexity and its low reliability due to the implementation of the foaming agent-mixer with a package of capillary tubes, prone to clogging and demanding on the degree of purity of the foam components used.

A complex foam generator installation is also known, including a housing in which a compressor producing compressed air with a pressure of more than 0.7 kg / cm ² and a dispenser-receiver with an aerator operating under an air pressure of more than 0.7 kg / cm are located in its two compartments. ² , above them in one housing of the device there is a container for foaming liquid and a tank for water, which is necessary for flushing the system after its operation (Description to patent RU No. 2139791, published on 10/20/1999).

A disadvantage of the known device is the need to use a compressor with a receiver, the operation of which is characterized by instability, which makes it difficult to obtain a foam with a set resistance to shrinkage and reduces the quality of the foam.

The closest in purpose and technical essence to the claimed as a utility model is a device for producing foam containing a detachable body with nozzles, containers for foaming agent and water with shutoff valves, a rotor with discharge and bubbler blades mounted on the drive shaft, while the flat surfaces of the latter made with holes with a given diameter and arrangement, and the housing has a zone of input of the foaming agent and sparging, and the ratio of the volume of the input zone of the foaming agent to the volume of the bubble zone is at least 1: 5 (Description to patent RU No. 2243092, published December 27, 2004).

A disadvantage of the known device is the impossibility of changing its technological characteristics specified by structural elements, which limits the use of foaming solutions with various components.

The problem to be solved when improving the design of the foam generator installation is to expand the range of used foaming compositions.

The technical result of the improvement of the foam generator is the expansion of the technological capabilities of the foam generator by providing the possibility of changing the technological parameters and the possibility of expanding the range of foam obtained with various quality indicators.

The specified technical result is achieved by the fact that in a foam generator installation containing containers for components of the foaming agent and water and a foam generator, the housing of which is equipped with inlet and outlet nozzles located respectively in the input zone of the foaming components and in the bubble zone, including a rotor formed by a drive shaft mounted on discharge and bubbling blades with technological holes, according to a useful model, the inlet pipe of the foam generator in the area of the input components of the foam the forming mixture is equipped with a removable cover with separate nozzles for supplying the components of the foaming mixture, the injection blades are removable, and the bubbling blades are removable and removable with a variable size of the technological holes and the order of their location, and the installation is supplemented by a compressed gas supply line connected to an additional foam generator nozzle made in the housing in the area of the input of the foaming components, while the additional nozzle is made in the housing or in a removable cover.

Distinctive features, such as supplying a foam generator inlet nozzle with a removable cap with separate nozzles for introducing the components of the foaming mixture, separating the supply of the components of the foaming liquid into separate nozzles, and performing an additional nozzle connected to the compressed gas supply line in the housing or removable cover, are significant, t. to. Such a constructive solution expands the technological capabilities of the installation, providing the possibility of working in various modes: with the cover removed, with intake of atmospheric air, and with the inlet closed, using compressed gas. In addition, the implementation of a removable cover with a different number of inlet pipes for the components of the foaming agent allows you to change its composition depending on the required parameters of the final product. The supply of components of the foaming mixture through individual nozzles allows you to expand the range of additives used, which allows you to change the quality indicators of the resulting foam. At the same time, the execution of the rotor blades is removable and provides the possibility of influencing the modes of gas supply to the bubble zone by changing the number of blades used, and the possibility of replacing the bubbling removable blades allows you to change the foaming regimes by changing the surface area of the blades by changing the diameter of the holes and the order of their placement, which also expands the technological capabilities of the installation.

An example implementation of the inventive foaming unit is illustrated by sketches.

In FIG. 1 shows a General view of the installation with a cut of the upper part.

In FIG. 2 shows a top view.

In FIG. 3 shows sections aa and bb in FIG. 1.

The foam generator installation includes a foam generator, the cylindrical body 1 of which, placed on the frame 2, is made with an inlet pipe 3 closed by a removable cover 4 provided with pipes 5 for introducing components of the foam-forming mixture and water from the metering containers 6 located on the supporting platform 7 of the frame 2. Lines component feed from containers 6 are equipped with valves 8. A rotor is installed in the foam generator case with a drive shaft 9, by means of an electric motor, on which discharge blades 10 are fixed, which define the foam injection zone 11 uyuschih components, and bubbling of the blade 12 defining the bubbling area 13, after which a foam generator body formed an outlet 14 for the foam and the spout 15 is used in the washing of the foam generator. The discharge blades 10 are removable, which makes it possible to change their quantity depending on the gas medium used: when using air with an open inlet pipe 3, their number increases, when using compressed air or argon it decreases. The bubbling blades 12 are also made removable and interchangeable to change the surface area by changing the diameter of the technological holes 17 and the order of their location. The compressed gas is supplied through the pipeline 16 of the compressed gas supply line connected to the compressor or the compressed gas cylinder (not shown in the drawing).

The process of foaming in the foam generator occurs as follows: When the electric motor is turned on and the rotor is rotated, the components of the foaming mixture and the gas medium are supplied to the zone 11 through the nozzles 5 of the cover 4. Thanks to the installation of metering containers 6 for the components of the foaming mixture and water on the supporting platform 7 with the valves open 8, the components of the foaming agent are fed by gravity. When the inlet pipe 3 is closed with a cover 4 for using compressed air or argon supplied through the pipe 16, the components of the foaming solution and the water supplied through the pipes 5 are picked up and mixed by the injection blades and enter the bubbling zone 13, where the mixture is bubbled with the blades 12 made with holes 17, and the resulting foam is discharged through the pipe 14.

For the operation of the foam generator with the cover 4 removed, when the compressed gas supply line is turned off on the rotor, the number of discharge blades 10 is increased and the components of the foaming mixture and water are fed into zone 11 directly through the inlet pipe 3 by gravity. The air stream formed by the injection blades 10, the foaming mixture is fed into the bubble zone 13, where foam is formed.

The expansion of the technological capabilities of the foam generator, due to the possibility of changing the technical characteristics of the rotor when changing the number of injection vanes and changing the bubbling vanes and the possibility of using compressed gas with the inlet pipe closed with a cover, allows you to change the quality characteristics of the resulting foam. In particular, when using argon as a compressed gas, the stability of the foam increases, and the foam saturated with argon used to produce foam concrete changes the quality of the foam, increasing its thermal and noise insulation properties, resistance to fire, etc.

Thus, the use of an improved foam generator will expand the range of properties of the resulting foam and the range of foam concrete, which will contribute to solving various problems in the construction industry.

Claims (3)

1. A foam generator containing containers for components of the foaming agent and water and a foam generator, the housing of which is equipped with inlet and outlet nozzles located respectively in the input zone of the components of the foam-forming mixture and in the bubble zone, including a rotor formed by a drive shaft with discharge and bubbling blades fixed to it with technological holes, characterized in that the inlet pipe in the zone of the input components of the foaming mixture is equipped with a removable cap with separate pipes odvoda components foamable mixture discharge blades are removable and bubbled rotor blades are removable and interchangeable, thus setting supplemented compressed gas supply line connected to the further nozzle formed in the housing, in the zone of the foaming mixture entering the components. 2. The foam generator according to claim 1, characterized in that the technological holes on removable sparging blades are different in diameter and in the order of their location. 3. The foam generator according to claim 1, characterized in that the additional pipe for connecting to the compressed gas line is made in a removable cover of the inlet pipe.

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