FI78388C - Cleaning device for filters in vacuum cleaner - Google Patents

Description

78388

Cleaning device for vacuum cleaner filter

The invention relates to a cleaning device for a filter of a vacuum cleaner, comprising means for supplying air through the filter in a direction opposite to the normal direction of air flow.

Various cleaning devices and cleaning methods are now well known, especially in connection with industrial vacuum cleaners.

For example, systems are known in the art in which the air flow cleaning the filter is provided by means of a vacuum cleaner's own motor. An example of such a system is the solutions disclosed in DE patents 595686 and 666446.

15 Em. the disadvantage of the known solutions is their inefficiency and, in addition, their complexity. In some applications, the filter part also has to be removed and connected to the blow side of the vacuum cleaner. The problem is the laborious implementation and the spread of contaminants in the environment.

Another known solution can be considered a procedure in which the filter to be cleaned is removed from the vacuum cleaner and cleaned with, for example, compressed air. The weakness of this solution is the labor of its implementation and also the spread of impurities in the environment. The cleaning result is also completely dependent on the diligence of the person performing the work.

The object of the invention is to provide a device by means of which the disadvantages of the prior art can be eliminated. This is achieved by means of a device 30 according to the invention, characterized in that the device comprises a reservoir, a valve system and a nozzle part which can be fitted inside the vacuum cleaner, as well as a connector part for connection to a source of compressed air, and a valve system and discharging in a continuous circuit so that compressed air only flows into the tank first and 78388 2 when the pressure in the tank rises to a predetermined level the valve system cuts off the air supply to the tank and allows the air supplied to the tank to drain container.

The advantage of the invention is its efficiency, since a sufficiently strong cleaning air stream is directed very efficiently to the filter to be cleaned. There is also the advantage of cleaning all parts of the filter. In addition, the device according to the invention is very simple and reliable, so that the manufacturing and operating costs are very low. A further advantage of the invention is that it can also be used for vacuum cleaners already in use, whereby the implementation of the invention becomes very advantageous.

The invention will now be explained in more detail with the aid of the accompanying drawing, in which Figure 1 shows a device according to the invention in 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. In the figure, reference numeral 1 shows a container 25 acting as a compressed air battery. Reference numeral 2 shows an air-controlled spring-return 5/2 directional valve. Reference numeral 3 shows an air-controlled YES logic valve in both directions. Reference numeral 4 denotes a quick-release valve. Reference numeral 5 denotes a nozzle part. A separate pressure-30 air source is in principle indicated by reference numeral 6. Em. in use, the parts are connected to each other by pipe joints as follows. The compressed air source 6 is connected by connections 7a, 7b to valves 2 and 3. Valve 2 is connected by connection 8 to valve 4. Valve 4 is in turn connected by connection 9 to tank 1 and connection 10 to nozzle 78388 3. In addition, the device has the connections required for valve control, which are shown in broken lines in Figure 1. The control events themselves will be described later.

The device according to the invention is formed as a compact unit so that 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. 2, 10, in which the filter is indicated by reference numeral 11. The nozzle part 5 in Fig. 2 is a nozzle rotating under the influence of the reaction force of air, which is known per se.

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 part.

The compressed air source 6 can be a compressed air network, a portable compressor, etc. In the initial situation, the valves are open and the valve 3 is closed accordingly. The valve 4 is in a position where the tank is connected to the nozzle part (shown in the figure). 20 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 remains in turn: open due to the spring. Compressed air thus flows through the valve 2 to the valve 4, which opens, allowing air 25 to flow into the tank 1 acting as a battery.

When the connection to the container 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 30 3 controls 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 valve 2 and; - The connection between 35 tanks 1 is broken. Em. as a result of the operation, the pressurized air in the tank 78388 4 can be suddenly discharged through the nozzle part onto the inner surface of the filter 11 as shown in Fig. 2.

When the tank 1 has been emptied, the valves 2 and 3 return to their initial positions, 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 source of compressed air is switched off. In the embodiment of the figures, the compressed air discharge density is about 100 times / min if the compressed air pressure is about 6 bar. The discharge frequency naturally depends on the compressed air supply pressure.

Compressed air discharged from the tank can be supplied, for example, through shaped nozzles to the inner surface of the filter 15. As stated above, the design can also be done so that they produce an opposite reaction force at the ends of the nozzles when air is supplied. This causes the nozzles to rotate at regular intervals.

Em. the even interval may be, for example, 100 times / min, as described above.

The above embodiment is in no way intended to limit the invention, but the invention can be modified in many different ways within the scope of the claims. Thus, it is clear that, for example, the valves 25 may be different from the example. The nozzle part can also be any other solution known per se than in the example given above. The device as a whole is also not limited in any way, but can be modified according to the situation, i.e. the structure of the vacuum cleaner. I-30 women is that the device fits inside the vacuum cleaner.

Claims (3)

73388 A cleaning device for a filter of a vacuum cleaner, comprising means for supplying air through the filter 5 in a direction opposite to the normal direction of air flow, characterized in that the device comprises a compressed air battery tank (1), a vent system (2, 3) 4, 7a, 7b, 8, 9, 10) and the nozzle part (5) as well as the connector part for connection to the source (6) of compressed air-10 and that the valve system (2, 3, 4, 7a, 7b, 8, 9, 10 ) is adapted to control the supply and discharge of compressed air in a continuous circuit so that the compressed air first flows only into the tank and when the pressure in the tank (1) rises to a predetermined level the valve system cuts off the air supply to the tank (1) and allows the air through to the filter (11) and after emptying the tank (1) closes the connection from the tank (1) to the nozzle part (5) and again allows 20 air to enter the tank (1). Cleaning device according to Claim 1, characterized in that the nozzle part (5) is a nozzle which rotates under the influence of a reaction force and is known per se. Cleaning device for a vacuum cleaner with a cylindrical filter (11) according to claim 1 or 2, characterized in that the tank (1), the valve system (2, 3, 4, 7a, 7b, 8, 9, 10) and the nozzle part ( 5) is placed inside the filter (11).