FI92799B - Cleaning device for a suction cleaner - Google Patents

Description

92799

Cleaning device for vacuum cleaner filter

The invention relates to a cleaning device for a vacuum cleaner filter adapted to supply air through a filter in a direction opposite to the normal air flow direction, the cleaning device comprising a tank acting as a compressed air accumulator, a valve system and a which valve system is adapted to control the supply and discharge of compressed air in a continuous circulation so that the compressed air first flows only into the tank and the pressure in the tank rises to a predetermined level; and again allows air to enter the tank.

Various cleaning devices and cleaning methods 20 are now well known, especially in connection with industrial vacuum cleaners. An example of a device known in the art is the solution presented in FI patent publication 78388. The advantage of this known solution has been the efficiency of the cleaning in general, as it is strong enough. The cleaning air stream is directed very efficiently to the filter to be cleaned. Also, the cleaning does not depend in any way on the skill of the worker, as the cleaning function takes place completely automatically. However, the disadvantage of the above solution has been found to be that the force rotating the nozzle part remains too small in some situations. Em. the situation arises, for example, when many vacuum units are arranged on top of each other, in which case the force rotating the nozzle part in the last unit may be too small. If the above force remains too small, the nozzle will not turn enough and the result will be 2,92799, leaving points in the filter that will not be cleaned. As a result, filter cleaning may be incomplete.

The object of the invention is to provide a cleaning device by means of which the disadvantages of the prior art can be eliminated. This is achieved by means of a cleaning device according to the invention, characterized in that in the vicinity of the discharge opening of the nozzle part a means 10 in contact with the compressed air flow discharged from the nozzle part is arranged.

The advantage of the invention is, above all, the individual controllability of the compressed air stroke rotating the nozzle provided by it, whereby the force rotating the nozzle part is made sufficiently large in each situation and in each structure and the cleaning work at the same time sufficiently efficient. A further advantage is the simplicity of the invention and the possibility of adapting it to already existing cleaning devices. Thus, the introduction and use of the invention 20 is very advantageous.

The invention will be explained in more detail by means of a preferred embodiment described in the following drawing, in which Figure 1 shows a device according to the invention as a schematic diagram and Figure 2 shows a preferred embodiment of a nozzle part of a device according to the invention.

Figure 1 shows an embodiment of the device according to the invention in a schematic diagram. The figure 30 shows a tank operating as a compressed air battery by means of reference numeral 1. Reference numeral 2 denotes an air-controlled spring-return 5/2 directional valve. Reference numeral 3 denotes an air-controlled YES logic valve in both directions. Reference numeral 4 denotes a quick-release valve.

25 Reference numeral 5 denotes a nozzle part. A separate compressed air source is shown in principle by reference numeral 6.

Em. in use, the parts are connected to each other by pipe connections as follows. The compressed air source 6 is connected by connections 7a, 7b to valves 2 and 3. Valve 2 is connected by a joint 8 to valve 4. Valve 4 is in turn connected by connection 9 to the tank 1 and by connection 10 to the nozzle part. The device also has the connections required for adjusting the valves, which are shown in broken lines in Figure 1.

The device according to the invention can be formed as a compact unit, in which case it can be placed inside the vacuum cleaner. The invention is particularly advantageous in connection with a vacuum cleaner provided with a cylindrical filter, since the entire cleaning device can be placed inside the filter. Such a solution is shown in principle in Fig. 1, 15 in which the filter is indicated by the reference number 11. The nozzle part 5 can be used without a nozzle rotating under the influence of the reaction force. The nozzle part 5 is shown on a larger scale in Figure 2.

The device according to the invention operates in principle in the following manner. At the beginning of the cleaning phase, the device is connected to the compressed air source 6 by means of a suitable connector. The compressed air source 6 can be a compressed air network, a portable compressor, etc. In the initial situation, the valve 2 is open and the valve 3 is closed, respectively. The valve 4 is in a position where the .25 container is connected to the nozzle part (shown in the figure).

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Compressed air is supplied through the filter 12 to valves 2 and 3. Valve 3 remains closed due to the control provided by the compressed air supply. Valve 2, in turn, remains open under the action of a spring. Compressed air thus flows through the valve 30 to the valve 4, which opens, allowing air to flow into the battery-operated tank 1. When the connection to the tank opens, the connection to the nozzle part 5 naturally breaks.

When the tank is full, the pressure in the network rises and the valve 3 is guided to the open position. The open valve 3 an-35 provides control from the compressed air supply to the valve 2, which closes.

When the valve 2 closes, the pressure in the joint 8 disappears, whereby the valve 4 returns to the initial position, where the connection from the tank to the nozzle part 5 opens. At the same time, the connection between the valve 1 and the tank 1 is broken. Em. as a result of the operation, the pressurized air in the tank can be suddenly discharged through the nozzle part onto the inner surface of the filter 11 as shown in Figures 1 and 2.

When the tank 1 has been emptied, the valves 2 and 3 return to their initial positions 10, whereby the supply of compressed air to the tank 1 starts again as described above. The supply and discharge of compressed air through the filter thus takes place in a continuous circulation in the above-mentioned manner until the supply of compressed air from the compressed air source is switched off. The compressed air discharge density can be, for example, about 100 times / min with a compressed air pressure of about 6 bar. The discharge frequency naturally depends on the pressure and volume of the compressed air supply.

More specifically, the invention relates specifically to the discharge of air from the discharge opening of the nozzle part 5. The details of the solution one-20 can be clearly seen in Figure 2. An essential part of the nozzle part 5 is a member 5a rotating under the influence of compressed air. The member 5a is mounted in place at 5b so that the member 5a rotates about a substantially vertical axis passing through 5b. 5a rotation of the body is presented to-25 work by arrow N. The rotational movement is effected by the reaction force of the compressed air supplied through the nozzle part, as stated above.

According to the essential idea of the invention, in the vicinity of the discharge opening of the nozzle part 5, a means 13 in contact with the compressed air flow discharged from the nozzle part 30 is arranged, the position of which relative to the compressed air flow The means 13 can be formed, for example, from a plate-like part, the position of which with respect to the flow of compressed air-35 can be changed by bending the parts.

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Figure 2 shows such an application.

The idea of the invention is that the means 13, for example the plate-like part, can be turned as shown in Fig. 2 by broken lines, whereby compressed air flowing through the nozzle part 5 impinges on the means 13 at different angles. the air stream. In this way, the aforementioned reaction force can be adjusted so that the nozzle part rotates in the desired economic direction N in each situation. As described above, the rotation of the nozzle part 5 can be ensured in all situations, whereby the cleaning result is correspondingly good in all situations.

The application example presented above is in no way intended to limit the invention, but the invention can be modified completely freely within the scope of the claims. Thus, it is clear that the device according to the invention or its details do not necessarily have to be exactly as shown in the figures, but other solutions are also possible. For example, the valves may be different from the example. The nozzle part can be formed differently than in the figures, etc. The assembly of the device is also not limited in any way, but can be modified according to the situation, e.g. 25 depending on the design of the vacuum cleaner. The pivoting of the means in the nozzle part can also be effected in contrast to bending, it is possible, for example, to form a suitably hinged or articulated structure which locks in the desired position, etc.

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Claims (2)

A cleaning device for a vacuum cleaner filter arranged to feed air through the filter in a direction opposite to the normal flow of the air, the cleaning device comprising a container (1) acting as a compressed air accumulator, a valve system (2, 3, 4, 7a). , 7b, 8, 9, 10) and a pivot due to the reaction force of the compressed air rotating nozzle part (5) as well as a connecting part for connection 10 to the compressed air source, which valve system is arranged to control the intake and discharge of compressed air as a continuous circulation, the compressed air first flows only into the container, and then the pressure in the container rises to a predetermined level, the valve system interrupts the air supply to the container (1) and releases the air in the container to flow out abruptly through the nozzle part (11) to the filter (11). closes the connection from the container (1) to the nozzle portion (5) after the container raises the tower and allows air to enter the container, characterized therein v. that in the vicinity of the outlet opening of the nozzle part (5) there is provided a means (13) which is in contact with the compressed air flow from the nozzle part and whose position in relation to the compressed air flow can be regulated and thus regulate the size of the compressed air shock which occurs. the rotational movement of the nozzle (5). Cleaning device according to claim 1, characterized in that the member (13) is a disc-shaped part, the position of which in relation to the compressed air flow can be changed by bending said part. ♦ • »•«