DE29718708U1 - Device for binding or depositing dust - Google Patents

Description

Device for binding or precipitating dust

The present invention relates to a device for binding or precipitating dust according to claim 1.

The devices used to date for dust suppression, such as jet pipes with various nozzles for generating a water jet, which are known from the fire service, for example, as well as devices from irrigation technology, generally do not allow for reliable suppression or binding of the dust that is generated in large quantities, for example during the demolition of buildings. Some of the known devices have insufficient range, so that they do not allow for efficient suppression of the dust. Other known devices, however, which use a pure water jet, cannot adequately bind the resulting dust particles. Another disadvantage of these devices is the high water consumption, which results in high costs and consequential damage due to contamination of the environment and in particular of the sewage canals. In particular during demolition or dismantling of contaminated parts of buildings, there is increased carryover due to the large amount of water.

In order to improve the above disadvantages, experiments have been carried out in the past with micro nozzles, which were sometimes attached to the construction machines themselves or to the scaffolding to create a water curtain. This method has the disadvantage that the position of the nozzles has to be changed accordingly due to the constant change of location of the demolition site, as they only have a small range. The use of larger nozzles with a longer range, in turn, has the disadvantage of insufficient binding of the resulting dust particles.

The object of the present invention is therefore to provide a device which enables the effective precipitation or binding of dust even in large quantities.

This object is achieved by a device for the precipitation or binding of dust, with a tubular housing with an air inlet side and a jet outlet side, a device arranged in the tubular housing for generating an air jet, at least one nozzle arranged between the device for generating an air jet and the jet outlet side in the tubular housing for introducing a liquid into the generated air jet in order to generate a jet of air

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To produce a liquid mixture, wherein the volume flow of the liquid introduced into the generated air jet through the at least one nozzle is adjustable.

The device according to the present invention thus generates a jet of an air-liquid mixture in which the liquid is transported in finely distributed form by the air jet and can thus effectively bind and precipitate the dust particles even in large dust clouds. The structure according to the present invention makes it possible to generate a jet of an air-liquid mixture with a large range, so that the device according to the invention can be used effectively and reliably when used on construction sites and the like without constantly changing location. The adjustability of the volume flow of the liquid introduced into the generated air jet through one or more nozzles also enables optimal adaptation to the respective requirements, such as the amount of dust to be precipitated, so that water consumption can be minimized.

Advantageously, several nozzles are provided in the tubular housing, whereby the volume flow of the liquid introduced into the generated air jet by each nozzle can be individually adjusted. The individual adjustability of the liquid volume flow of the individual nozzles independently of one another ensures increased flexibility and adaptability to the respective intended use and location of the device according to the invention. Furthermore, one or more nozzles can be pressurized, whereby the pressure can be adjusted to change the volume flow of the liquid. Pressurizing the liquid ensures, on the one hand, a finer distribution of the liquid in the air jet, and on the other hand, an increased amount of liquid can be added to the air jet, which is particularly advantageous when knocking down very large amounts of dust. The adjustability of the pressure of the liquid in the respective nozzle ensures optimal adaptation of the amount of liquid introduced into the generated air jet to the respective requirements.

Advantageously, at least one nozzle is arranged on a longitudinal axis of the tubular housing and several nozzles are arranged on an inner wall of the tubular housing. The arrangement of at least one nozzle in the middle of the air jet and several further nozzles along the circumference of the air jet enables an optimal distribution of the introduced liquid in the air jet. The very fine distribution of the liquid in the air jet made possible by this enables an optimal binding and precipitation of dust particles. Furthermore, the drive power of the device for generating the air jet can advantageously be changed or adjusted in order to

Volume flow of the air jet generated can be changed. This measure allows the range of the jet from the air-liquid mixture to be changed as desired between approx. 5 and 35 meters, so that at the same time economical and efficient operation of the device according to the invention is possible. It is also advantageous if the device according to the invention is arranged so that it can be pivoted on a carrying device. The device according to the invention can be pivoted horizontally and/or vertically in order to be able to orient the jet generated from the air-liquid mixture as desired. The carrying device can be arranged, for example, on a vehicle trailer or the like in order to be able to move the device according to the invention quickly and easily from one place to the next.

The present invention is explained in more detail below using a preferred embodiment with reference to the attached single figure 1. Figure 1 shows a cross section through a device according to the invention for binding or precipitating dust, which is arranged on a vehicle trailer.

As shown in Figure 1, the device 1 according to the invention for binding or precipitating dust comprises a tubular housing 2, which can have a round cross-section, for example. The tubular housing 2 has an air inlet side 4 and a jet outlet side 5. On the air inlet side 4, air is sucked in by an axial fan 7 and bundled into an air jet. On the jet outlet side 5, the air jet enriched with a liquid, in the example shown with water, exits the housing 2. On the air inlet side 4 of the housing 2, a grid 3 is arranged, which protects the rotor blades 8 extending radially from the axial fan 7 from damage by objects carried along with the air jet. On the side of the rotor blades 8 of the axial fan 7 facing the jet outlet side 5, guide vanes extending radially inwards are arranged on an inner wall of the housing 2, which in cooperation with the rotor blades 8 serve to generate an air jet in the direction of the jet outlet side 5.

The axial fan 7 is fastened in the housing 2 by means of fastening devices (not shown), with the energy supply of the axial fan 7 running from the outside through the fastening devices. The rotor blades 8 of the axial fan 7 rotate during operation about a longitudinal axis L of the housing 2. A front part 6 of the housing 2 facing the jet outlet side 5 has walls that are inclined in such a way that the diameter of the housing 2 decreases in the direction of the jet outlet side 5. The front part 6 can be opened for servicing purposes.

On a front side of the axial fan 7 facing the jet outlet side 5, a nozzle 1 is arranged, which is located centrally in the housing 2 on the longitudinal axis L. Through this nozzle 10, water is introduced into the air jet generated by the axial fan 7 via a feed 12. On the inner wall of the front part 6 of the housing part 2, further nozzles 11 are attached in the circumferential direction and spaced from one another, via which water is also introduced into the air jet generated by the axial fan 7. The liquid for the nozzles 11 is fed to the nozzles 11 via the housing 2 and the front part 6 of the housing 2. The supply line 12 for the nozzle 10 also opens into the housing 2. The water supply to the nozzles 10 and 11 thus takes place partly in or on the housing 2.

The housing 2 can be insulated on the inside, whereby a heater can additionally be provided on the inside of the housing 2 in order to prevent the supplied water from freezing at correspondingly low temperatures.

The device for binding or suppressing dust is, as shown in Figure 1, attached to a vehicle trailer 16 by means of a support 15. The device 1 for binding or suppressing dust is attached to the support 15 so that it can pivot both horizontally and vertically. The power supply of the axial fan 7 and the supply of water to the nozzles 10 and 11 can also take place in the support 15. Accordingly, a control 13 for the axial fan 7 is provided on the vehicle trailer 16, connected to the support 15. The control 13 for the axial fan 7 supplies the axial fan 7 with electrical current, whereby the drive power of the axial fan 7 can be changed so that the volume flow of the air jet generated by the axial fan 7 can be changed.

The supply of water to the nozzles 10 and 11 can also be carried out via the support 15, from which the water is guided via the housing 2 to the supply 12 for the nozzle 10 or directly to the nozzles 11. The nozzles 10 and 11 can be connected directly to the water network. However, it is also possible, as shown in Figure 1, to provide a high-pressure pump 14 that increases the normal water pressure or applies pressure to the water so that the water can be introduced into the air jet from the nozzles 10 and 11 at increased pressure. Another possibility is to provide compressed air outputs parallel to the water supplies of the nozzles, which apply pressure to the water in the nozzles. The high-pressure pump shown in Figure 1 has a connection (not shown) for supplying water and is connected to the support 15, through which the pressurized water is fed to the nozzles 10 and 11. The high-pressure pump 14 comprises

an upstream fine filter through which impurities are filtered out. Furthermore, the high-pressure pump 14 can be adjusted so that the pressure applied to the water can be changed as desired. In the example shown, the pressure for all nozzles 10 and 11 is set simultaneously. However, it is also possible to provide independent pressure controls for each individual nozzle or for some of the nozzles. Furthermore, corresponding devices can be provided which individually regulate the volume flow of the liquid introduced into the generated air jet by the respective nozzle 10, 11.

In addition to the nozzles 10 and 11 shown in Figure 1, further nozzles can be provided.

The device 1 shown in Figure 1 for binding and suppressing dust is arranged on a vehicle trailer 16 via the support 15. The vehicle trailer 16 is a conventional trailer with wheels 18 and a trailer coupling 19, with which the device according to the invention can be transported in a simple manner. Furthermore, supports 17 are provided on the trailer 16, which can be cranked down, for example by means of hand cranks, to securely support the trailer at the respective location so that the device according to the invention can be operated safely.

The inventive design of the device 1 for binding and precipitating dust enables variable adjustment of the range and volume flow of the air-liquid mixture produced, in particular due to the adjustability of the liquid volume flow emitted by the nozzles 10, 11 and the adjustability of the drive power of the axial fan 7. If necessary, an additive can be added to the water introduced by the nozzles 10 and 11. The entire device 1 for binding and precipitating dust is approximately 1.5 meters long and has a diameter of approximately 70 to 80 cm.

Claims (7)

PROTECTION CLAIMS 1. Device for binding or precipitating dust, with a tubular housing (2) with an air inlet side (4) and a jet outlet side (5), a device (7) arranged in the tubular housing (2) for generating an air jet, at least one nozzle (10 or 11) arranged between the device (7) for generating an air jet and the jet outlet side (5) in the tubular housing (2) for introducing a liquid into the air jet in order to generate a jet from an air-liquid mixture, wherein the volume flow of the liquid introduced into the air jet through the at least one nozzle (10 or 11) is adjustable. 2. Device for binding or precipitating dust according to claim 1, characterized in that that several nozzles (10, 11) are provided in the tubular housing, whereby the volume flow of the air flowing from a nozzle (10 or 11) into the generated air jet introduced liquid can be individually adjusted.
20 3. Device for binding or precipitating dust according to claim 1 or 2, characterized in that that at least one nozzle (10 or 11) is subjected to a pressure, whereby the pressure can be adjusted to change the volume flow of the liquid. 25 4. Device for binding or precipitating dust according to claim 1, 2 or 3, characterized, that at least one nozzle (10) is arranged on a longitudinal axis (L) of the tubular housing (2) and several nozzles (11) are arranged on an inner wall of the tubular housing (2). 5. Device for binding or precipitating dust according to one of the preceding claims, characterized in that a drive power of the device (7) for generating the air jet is adjustable to change the volume flow of the air jet. 6. Device for binding or precipitating dust according to one of the preceding claims, characterized in that it is pivotably arranged on a support device (15). 7. Device for binding or precipitating dust according to one of the preceding claims, characterized in that the liquid is water.