DE19517793A1 - Arrangement with a suction device for solids - Google Patents

Abstract

Arrangement in a suction system, which comprises a central unit (1) provided with regulation and control equipment; a suction tube system (3) provided with supply connections (2) and consisting of trunk tubing (4) and branch tubes (5) for each supply connection; and a suction unit (6) designed to create a negative pressure in the suction tube system. One end of the trunk tubing (4) is provided with a controllable valve (7) so that the trunk tube can be flushed periodically with a large amount of air supplied through the valve.

Description

The present invention relates to an arrangement as in the preamble of claim 1 Are defined.

You can use suction or vacuum very different materials along pipes, ver different industrial mass flows and z. B. in Zen Vacuum units in industry and in various both wet and dry mass, granular material or even lumpy material promote. You can even do a lot in such systems use long and branched intake manifold systems that are connected to a common suction device. One usually uses two in the intake manifold system different pipe sizes, namely the main pipes larger and the individual feed connections arranged branch pipes significantly smaller in diameter. It it is also possible to make the stem pipe from two different ones build strong pipes so that the branch pipes on stronger branch pipes are connected to theirs partly with a common, even stronger manifold connected, which leads to the suction unit.

The stronger trunk tubes serve the purpose that Reduce suction losses in long pipe systems and to maintain a good suction power of the apparatus.

Problems arise in the intake manifold systems from that the flow rate of the suction air with increasing cross section of the pipe system less becomes. Thus, in the mission-specific, behaves small branch pipe the speed of the Air flow can be extremely high, being heavy too Body can easily carry. As soon as the body at the arrive stronger trunk pipes, the Velocity of the same air flow transporting it noticeable, and this may result in the  Air flow in the trunk pipe system these heavier bodies can no longer convey to the suction unit, against which they remain in the trunk tubes and thereby at least reduce the suction power of the apparatus and u. U. to various degrees of constipation in the Can lead stem pipes.

The invention aims to remedy the aforementioned ten evils. In particular, the invention aims at that Bringing a new arrangement in a Suction device, by means of which blockages of the Intake manifold system prevented in advance and flawless Suction power of the pipe system always when using the Equipment guaranteed.

With regard to the invention circumstances, reference is made to the claims section.

The arrangement method according to the invention Suction apparatus includes one with a regulating and control unit equipped central unit; one with feeder provided master pipe system, from one Master pipe system and assigned to the supply connections consisting of ten branch pipes; and a suction unit for Generating negative pressure in the main pipe system. Invention accordingly, there is a tax at the end of the trunk pipe system erable valve such that it is possible the stem pipe at intervals with a large, through the Ven to flush the amount of air introduced.

In one embodiment, the trunk sits Pipe system consisting of two or more branches together, at the end of each trunk tube branch a flush valve is provided. It is also possible that one valve in each section of the intake manifold system is built, which is larger than the part of the intake manifold system with the smallest cross section.

The valve is advantageously a pneuma table actuator, with a compressed air source to open NEN and closing the valve connected. One uses with advantage as a valve, a sliding valve that  easy and simple with the help of a pneumatic Ven can open and close tils. The compressed air source can be related to the central unit and the Suction unit are placed, especially if in ver binding with the suction unit compressed air, for example Cleaning filters is needed.

In a favorable embodiment of the inven the valve is a pneumatic actuator that with the help of the negative pressure in the branch pipe branch ter can be opened. In such a case it is an advantage a mechanical with the pneumatic actuator Spring connected, with the help of which it is done Rinsing process is closed.

In one embodiment of the invention Aspirator a central vacuum, and the feed connections are then sockets. In a second out management form of the invention is the suction apparatus industrial mass transport system, then the Feed connections z. B. bulk supply container or tray are.

The system according to the invention has previously known technology over the advantage that it ge manages to keep the intake manifold system clean and that to maintain the best suction power and that you can stop Avoiding the pipe system, the cumbersome and costly measures to eliminate the same could leave.

In the following the invention is described in detail with Described on the attached drawing, wherein

Fig. 1 is a schematic image of a suction device according to the invention and

Fig. 2 is a schematic representation of a second application version of the valve.

Fig. 1 schematically shows a central vacuum cleaner system again, in which a suction pipe system 3 is connected to a suction unit 6 , which consists of a trunk pipe system 4 and a plurality of branch pipes 5 connected to it, the latter having suction sockets 2 at their ends. In this embodiment, the trunk pipe system is composed of two trunk pipe branches 8 .

A valve 7 is provided at the ends of the two main pipe branches 8 . In connection with the suction unit 6 includes a central unit 1 with a control unit 11 for the valves and a monitoring unit 12 for the sockets 2 . A compressed air source 9 also belongs in the vicinity of the suction unit 6, with the aid of which the filters in the suction unit can be cleaned as required.

The valve control unit 11 is electrically connected to the valves 7 , while the compressed air source 9 is pneumatically connected to the valves 7 to open them by means of compressed air. The monitoring unit 12 for the suction sockets is electrically connected to all the suction sockets 2 .

According to the invention, the apparatus shown works as follows. If one or more of the suction cans 2 are in operation, ie open, this is monitored by the monitoring unit 12 in the central unit 1 , as a result of which the suction unit 6 runs and sucks air through these opened suction sockets. When the use of the device is ended and also the last operating suction socket is closed, the suction unit 6 continues with its function, and the valve 7 at the end of a branch pipe branch opens by control of the valve control unit 11 z. B. for a duration of 20 seconds. It is then closed and the valve at the end of the other fuselage branch is opened accordingly.

It is essential for the com valves that the pipe end to full width open, d. H. that you have the largest possible airflow achieved in the pipe system that effectively cuts the pipe system from  possibly remaining impurities free.

The central unit 1 is advantageously arranged and programmed so that the functions set out above are carried out automatically and the control coming from outside only consists of the signals that are caused by the opening or closing of the sockets. It is of course possible within the scope of the invention to also clean the necessary pipes manually.

It is also possible that the above Pipe systems not rinsed every time after use the apparatus takes place, whereas they z. B. with the help of a clock device provided in the control unit in given time intervals, e.g. B. happens once a day. One can in the apparatus described above various components known per se and Apply control procedures with which the described functions can be performed. Therefore, they do not become in this context described in more detail.

In Fig. 2, a second embodiment is shown ge, in which the opening of the valve 10 at the end of the main pipe branch 8 without a separate compressed air source, it follows. In this embodiment, a valve actuated with a pneumatic actuator 13 is connected to the valve, which is connected by a pipe 14 to the main pipe branch 8 behind the valve 10 . Furthermore, a control valve 15 is inserted in the tube 14 , which receives its control from the valve control unit 11 .

The apparatus works as follows. When the sockets 2 have closed, the negative pressure in the main pipe branch 8 begins to rise sharply. Now when the valve 15 opens due to electrical control, the negative pressure through the tube 14 excites the actuator 13 , which brings the valve into the open position. The branch 8 is then flushed in by a strong air stream. On the valve 10 , a mechanical resetting member is also provided, a spring that closes the valve as soon as the opening effect of the actuator is suspended on the valve.

In the foregoing, the invention is exemplary moderately explained with the enclosed drawing been, however, various embodiments of the Invention within the scope of the patent bounded inventive idea are possible.

Claims (9)

1. An arrangement in a suction apparatus for solids, comprising a central unit ( 1 ) provided with regulating and control devices; a trunk pipe system ( 4 ) provided with supply connections ( 2 ) and branch pipes ( 5 ) individually assigned to the supply connections; and a suction unit ( 6 ) for generating negative pressure in the intake manifold system, characterized in that at the end of the intake manifold system ( 4 ) there is a controllable valve ( 7 ) such that it is possible to use a large amount of the main pipe at prescribed times to flush the amount of air introduced through the valve. 2. Arrangement according to claim 1, characterized in that the suction pipe system ( 4 ) is composed of at least two trunk pipe branches ( 8 ), the end of each trunk pipe branch being provided with a flushing valve ( 7 ). 3. Arrangement according to claim 1 or 2, characterized in that a valve ( 7 ) is used in each pipe system section, which is larger than the part of the pipe system with the smallest cross section. 4. Arrangement according to any one of claims 1-3, characterized in that the valve ( 7 ) is a pneumatic actuator which is connected to a compressed air source ( 9 ) for opening and / or closing the valve. 5. Arrangement according to claim 4, characterized in that the compressed air source ( 9 ) in connection with the central unit ( 1 ) and the suction unit ( 6 ) is placed. 6. Arrangement according to any one of claims 1-3, characterized in that the valve ( 10 ) is a pneumatic actuator which can be opened with the help of the negative pressure in the branch pipe branch behind. 7. Arrangement according to claim 6, characterized characterized in that to the pneumatic actuator heard a spring to close it. 8. Arrangement according to any of the Claims 1-7, characterized in that the Saugap paratur is a central vacuum cleaner, the supply connections are sockets. 9. Arrangement according to any of the Claims 1-7, characterized in that the Saugap paratur a mass transport system in industrial Is use, the feed ports being industrial Mass transportation system is, with the supply connections Bulk feed containers or funnels.