ES2270913T3 - AIR CIRCULATION CHANNEL. - Google Patents

Abstract

An air flow channel (4) of domestic suction or blowing apparatus, especially a vacuum cleaner, has a structuring of the inner wall of the air flow channel leading to a micro-turbulence. The structuring is designed to be scaly. The structuring is designed to be groove-shaped and unordered. The structuring is designed on the largest part of the inner wall of the air flow channel from a suction air inlet to the suction fan inlet. The structuring is designed also on the largest part of the inner wall of the air flow channel from the fan outlet to a fan air outlet. The structuring is designed in the 100th to 10th of a millimetre range.

Description

Air circulation channel

The invention relates to a channel of air circulation of an appliance or an appliance blown, especially from a dust vacuum, in accordance with characteristics of the preamble of claim 1.

To achieve the highest power possible air, for example in a dust suction nozzle, it is usual to optimize, without an elevation of the capacity of engine absorption, the traffic lanes with respect to diameter, smoothness, deviation, cross sections and the modifications of the cross section. The side in contact with the middle (inner side) of the suction channels and Blowing fits, in general, to the maximum attainable smoothness and a minimum of asymmetry, dead water regions and turbulence. A increased air conduction through the elevation of the absorption capacity of the blower motor or of the motor aspiration leads to high noise emission. Also I know produces a deterioration in performance, which leads to a reduced engine life. In addition, from this results in high abrasion in the circulation channel of air. Since the suction and blowing channels can be adapt to the configuration of internal functional elements and external, such as narrowings, curves, standardized interfaces, etc. and, on the other hand, they must be configured in a way favorable to manufacturing, smooth surfaces are preferred, easily deformable. Such surfaces in combination with secondary requirements lead, on the one hand, to the inconvenience that a sequence of zones of different speeds of the Circulation leads to power losses. In addition, a deposition of media in dead water areas or areas of rebates and asymmetries conditioned by deformation. Additionally, there is a high noise emission here. Be they also produce inconveniences through erosion and / or cavities in the impact regions.

It is known from the document US-A- 5 953 787, which represents the most next to the technique, an air circulation channel of a appliance, which is equipped on its inner surface with hairs of a certain length. On the other hand, you know through document DR 26 15 507 A1 line the channel circulation of an appliance on the inner side with a rough fabric or an otherwise rough textile material. Also I know He also prefers flocking.

Starting from the state of the art mentioned at principle, the invention has raised the task of configuring in an advantageous manner an air circulation channel of the type alleged.

This task is solved for the purpose of claim 1, wherein it has been stated that the structuring is set in the range of hundredths to tenths of a millimeter and The structuring is configured in the form of scales. Of this mode achieves high vacuum performance home appliance

With respect to the state of the art described above, a technical problem of the invention is seen in develop an air circulation channel of the type in question of an advantageous manner such that an elevation of the performance of the appliance or the blowing device.

This task is solved first and essentially through the object of claim 1 by means of a structuring of the inner wall of the circulation channel of air that leads to microturbulence. Because of this configuration achieves high performance of the home appliance On the other hand, noise emission is thus reduced how the influences of inaccuracies are diminished conditioned by manufacturing. Deposits are reduced as well Like abrasion As a result of the structuring of the agreement with the invention of the inner wall of the circulation channel of air you can get an air power of the same height in the suction nozzle or blow nozzle with a capacity of reduced absorption up to 20%. The inner wall of the canal air circulation according to the invention presents a structuring, which favors microturbulence and suppresses macro-turbulence or dead water regions. The structuring can be imitated from nature or it can be freely built and can be generated through photography, pickling, blasting, stamping, coating, lacquered or by means of rapid prototypes, so that the structuring is discretionally variable. In this case you can transfer over tools for shaping procedures, such as injection casting, stamping or sintering. In addition to according to the invention, it is also provided that a usual series air circulation channel with a sheet of plastic that carries out microturbulence. For example, the structuring can represent approximately the surface of the skin of large fish, and this may be done structuring, in addition, partially or throughout the surface. In addition, it is also conceivable that the structuring is configured in grid form. Additionally, it is also conceivably a disorganized configuration. In addition, it is proposed that the structuring be configured on the most of the inner wall of the air circulation channel from a suction air inlet to the inlet of the suction air blower. In a corresponding way, it also proposes that the structuring be configured on the most of the inner wall of the air circulation channel from a blower air blower outlet to an outlet of the blowing air. According to the invention, it is provided that the structuring is set in the range of hundredths to tenths of a millimeter The structuring according to the invention leads to a rise in performance and therefore of the air power, to the reduction of noise emission as well as to reduction of deposition and wear through means transported, this without lifting engine power. The sum of the advantages contributes to high device compatibility with the environment.

The following explains in detail the invention with the help of the attached drawing, which represents only Examples of realization In this case:

Figure 1 shows a vacuum cleaner appliance in the form of a dust vacuum cleaner on behalf in perspective.

Figure 2 shows a partial representation schematic of an air circulation channel, which presents the structuring on the side of the inner wall according to the invention.

Figure 3 shows a representation schematic of the section according to the line III-III in Figure 2.

Figure 4 shows an enlargement of zone IV in figure 2.

Figure 5 shows a microscopic enlargement of zone V in figure 4.

Figure 6 shows a view towards the housing of the engine / filter, which has an air circulation channel of according to the invention of the dust aspirator according to the Figure 1.

Figure 7 shows a representation in perspective of a dust suction suction nozzle.

Figure 8 shows a representation of principle in perspective, partially in section, of a nozzle of aspiration with an air circulation channel that presents the structuring according to the invention.

It is represented and described first with reference to figure 1 an appliance in the form of a dust vacuum 1, with a suction / blower motor 2 and with an associated suction nozzle 3.

The intake air intake set to the suction nozzle 3 is provided with the reference sign 3'. From this extends an air circulation channel 4 -in the arrangement of the suction nozzle 3 in the vacuum cleaner powder 1- essentially up to a 2 'suction air inlet of the suction motor / blower 2.

Both the dust vacuum 1 and also the suction nozzle 3 have in each case a channel of air circulation 4, through which the medium is conducted aspirated circulating through a filter not shown, fixed in the motor housing.

Figure 2 shows a section of a air circulation channel 4 in a schematic representation in section. According to the invention, the inner wall 6 of the channel air circulation 4 is provided with a structuring 7, which leads in the suction mode or also in the blow mode to a microturbulence of the medium conducted in front of it. This structuring can be generated directly by means of photography, pickling, blasting, stamping, coating or lacquering or by rapid prototype. Alternatively, it you can also apply a plastic sheet provided with a structuring on the inner wall 6 of the circulation channel of air.

Through the surface created in this way of the inner wall 6 of the air circulation channel 4 is it favors microturbulence, but a macro-turbulence is suppressed or well the dead water regions, so that with the same absorption capacity of the suction motor / blower 2 se achieve high air power or with the same power a reduced absorption capacity is achieved from the air. Because the configuration according to the invention is created through the microturbulence in the inner wall surface area an air mattress, which supports a circulation without interference of the medium 8 in the air intake channel 4 (see figure 3).

As depicted in Figure 4, in the example of realization, the structuring is configured in the form of scales with an alignment of the individual scales, which points in the direction of circulation r. These scales present, in addition, a 7 'sub-structuring according to figure 5. As can recognize, this 7 'sub-structuring can be configured by means of grooves in the form of a circular section, which engage, if necessary, each other.

Figures 6 to 8 show different sections of the device or additional parts of the device with channels of circulation 4 according to the invention, which have a structuring 7.

Claims (6)

1. Air circulation channel (4) of an appliance or household blowing device, especially of a dust aspirator, with a structuring of the inner wall of the air circulation channel (4), which leads to a microturbulence, characterized because the structuring is configured in the range of hundredths to tenths of a millimeter and because the structuring is configured of the type of scales. 2. Air circulation channel according to claim 1, characterized in that a sub-structuring is provided. 3. Air circulation channel according to claim 2, characterized in that the substructuring is of the slot type. 4. Air circulation channel according to one of claims 1 to 3, characterized in that the structuring is configured of the type of scales. 5. Air circulation channel according to one of claims 1 to 4, characterized in that the structuring is configured in the type of grooves. 6. Air circulation channel according to one of claims 1 to 4, characterized in that the structuring is configured in a disorderly manner.