FI94021C - Central vacuum cleaner adjustment and control method - Google Patents

Description

94021 CENTRAL VACUUM CLEANER ADJUSTMENT AND CONTROL METHOD

The invention relates to a method as defined in the preamble of claim 1.

5 The central vacuum cleaner is now used extensively in a variety of large public places, such as hotels, hospitals, offices and ships, where it is necessary to vacuum relatively often and quickly. However, such operating conditions place their own requirements on the central vacuum system used. In this case, dozens, even hundreds of suction boxes are connected to the same central unit of the central vacuum cleaner via the main piping and branch pipes separating from it. The same suction pipe network may have several users at the same time and may be located in different parts of the network so as to cause different levels of suction resistance in the network.

The problem with such larger suction lines is to arrange the suction line vacuum so that the suction is always sufficient in each suction box used, but not too high. For example, if the central vacuum system is dimensioned for a maximum of three simultaneous users, when only one suction box is used, the suction, especially in the vicinity of the central unit 25, is so large that vacuuming is difficult. On the other hand, if the suction power of the central unit is dimensioned only for e.g. two users at a time, the commissioning of a third suction box already reduces the suction power of the entire system to be unusable.

The object of the invention is to eliminate the above-mentioned drawbacks. In particular, it is an object of the invention to provide a novel method of regulating and controlling a central vacuum cleaner, by means of which the suction power of the suction boxes is maintained at a suitable level regardless of the number of simultaneous users and the location of the suction boxes used.

For features characteristic of the invention, reference is made to claim 94021.

In the control method of the central vacuum cleaner according to the invention, the central vacuum cleaner comprises a central unit to which the suction piping formed by the body tube and the branch-5 tubes with its suction boxes is connected. In this case, in the method, the amount of suction air coming to the central unit from the suction piping is adjusted according to the number of users of the central vacuum cleaner by passing by-pass air to the suction piping, if necessary. According to the invention, the suction boxes of the suction piping are grouped into zones according to the air flow resistance between the suction box and the central unit, the number of suction boxes used in different zones is identified and data is fed to the entire that the suction power of the suction boxes remains substantially within certain limits.

In a preferred embodiment of the invention, the vacuum prevailing in the piping 20, i.e. the suction power of the suction boxes, is adjusted simultaneously according to the number of suction boxes in use, so that no the suction box is in use.

In the method according to the invention, when controlling the bypass air, the location of each individual suction box 30 is not precisely defined in the control system, but the suction boxes are divided into zones, certain areas, whereby how many suction boxes are used in different zones. In this way, the amount of information to be processed in the control system can be reduced, but the control can be kept sufficiently precise within suitable limits.

94021 3

In the control and control method according to the invention, the by-pass air is supplied to the suction piping via a controllable valve connected to it. The valve is preferably located at a suitable point in the body tube, e.g. at its end. Preferably, the valve is controlled stepwise, i.e. the control system has a predetermined number of different possibilities of using the system, in which the number of users and their location in different zones vary. Each operating position corresponds to 10 specific valve positions, which can be the same for several different operating possibilities. Practice has shown that three to six different valve positions are sufficient to adjust the system and keep the suction power of the suction boxes and the amount of air entering the central unit at a suitable level.

An advantage of the invention over the prior art is that the central vacuum system, controlled in accordance with the invention, always maintains its good operating characteristics in terms of the number of users and the suction used. 20 regardless of the location of the boxes. In addition, the adjustment takes place relatively simply and inexpensively and quickly, in particular in comparison with the adjustment being carried out by adjusting the rotational speed of the motor of the central unit. Since the generally used cyclone and the entire apparatus 25 are dimensioned for a certain engine speed, which achieves optimum operation, the method according to the invention allows the apparatus to be operated at this speed all the time, avoiding motor speed control and using simpler and cheaper electric motors.

In the following, the invention will be described in detail with reference to the accompanying drawing, which schematically shows a central vacuum cleaner apparatus according to the invention.

35 The central vacuum cleaner system shown in the drawing comprises a central unit 1 and a two-branch trunk tube 2 connected to it. The suction boxes 5 4 are grouped according to the distance between them and the central unit 1 into three zones 5, 6, 7, so that each zone comprises about 1/3 of the suction boxes belonging to the system.

According to the invention, the central vacuum system 10 shown in the drawing can be used, for example, as follows.

In addition to the closed position, the valve 8 is provided with three different positions with different degrees of opening. In each zone, 15 devices are arranged, which are connected to each suction box in the zone so that the number of suction boxes in use in the zone is always known. From the zones, this information is fed to the control unit of the entire equipment, which controls the start and stop of the central unit 1 and the appropriate position of the valve 8.

For example, if the maximum number of users in the system is three, i.e. the central unit is dimensioned so that a maximum of three suction boxes can be opened simultaneously, the valve 8 is kept closed when 25 three suction boxes are used.

If two suction boxes are used at the same time and at least one of the applications is in zone 6 or 7, open the valve slightly. If both applications are in zone 5, the valve is opened a little more 30 times to its second opening position so that the suction in zone 5 does not become too high in the suction boxes.

The same second valve open position can also be used when only one suction box is used in zone 7. If only one suction box is used in zone 6 or zone 5, the valve is opened even more to its third open position.

Only one example has been described above in which the by-pass air control can be performed according to the invention. The piping can be divided into the desired number of zones and likewise the desired number of different opening positions can be used in the valve so that, depending on the application and the length of the piping, a uniform suction power is obtained for all suction boxes, regardless of number of users and locations.

The invention has been described above by way of example with the aid of the accompanying drawing, however, various embodiments of the invention are possible within the scope of the inventive idea defined by the claims.

Claims (4)

A control and control method for central vacuum cleaners, to which central vacuum cleaners belong a central unit (1), to which is connected a suction pipe system (4) formed by base pipes (2) and manifolds (3), wherein at the process of the suction air quantity coming into the central unit from the suction system is regulated according to the number of users of the central vacuum cleaner by releasing, if necessary, into the suction pipe system flowing air, characterized in that the suction boxes (4) of the suction system are grouped into zones (5, 6, 7). according to the air flow resistance between the suction box and the central unit (1) / number in different zones in use, suction boxes are detected and the information is measured to the entire control unit of the apparatus, which supplies to the suction pipe system (2, 3) bypass flow through an associated control valve (8). ) according to the number of users in different zones, say that the suction power of the suction boxes is substantially poured within certain grasses. ces. 2. A method according to claim 1, characterized in that, since the number of users is maximum, the flow past the flowing air is not measured. 25 3. A method according to claim 1, characterized in that the valve (8) is closed and opened stepwise according to different user groups. Method according to any of claims 1-3, characterized in that the suction power of the central unit 30 (1) is constantly poured.