DE2054728C3 - Automatic control device for hydraulically operated flap weirs - Google Patents

Description

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The invention is therefore based on the object of addressing the disadvantages of the known control devices remove. This object is achieved according to the invention in that a Impeller is provided, which is provided in a channel provided in a side wall of the weir structure is arranged. This channel connects the water space on the upstream side with the one on the Underwater rope .: of the weir. The inlet opening of the Canal on the upstream side can be closed with a slide that is inserted into a cylinder movably arranged manure is controlled. A compression spring acts on one side of this piston and a: if the other side, the pressure medium of the pressure medium source, in such a way that the Slide closes the inlet opening of the channel when the pressure of the pressure medium source has a predetermined value Value exceeds that it opens it but under the pressure of the said spring when the pressure of the pressure medium source drops below a certain value.

The invention is explained in more detail with reference to the schematic drawing.

The storage flap 1, which can be rotated about an axis 2, is operated via a cable 3 or via a pivot rod or the like. Transmission means through the piston rod 4 of a piston 5. which is arranged in a cylinder 6, panned. A line 7 is connected to the cylinder 6 through which the pressure medium source 8 Pressure medium, in particular oil, is supplied via lines 9, 10 and U when the valve 12 is open.

The line 7 is connected to an oil reservoir 15 via a valve 13 and a line 14 aitch, so that at open valve 13 and closed valve 12 oil can flow from the cylinder 6 into the reservoir 15.

The valves 12 and 13 are via a linkage 16 of a float device 17, which is located on the Located on the upper water side, controlled in such a way that when the upper water level falls below a certain level the valve 12 is opened and the valve 13 is closed, while when the increases When the upper water level is above a certain higher level, the valve 13 is opened and the valve 12 is closed. The functions of valves 12 and 13 can also be performed by a four-way three-position valve be effected.

If the upper water falls below the first mentioned lower level, then the oil is released from the pressure medium source 8 via lines 9 and 10, via valve 12, which is open in this case, and lines 11 and 7 flow to the cylinder 6, which is indicated by the arrows 31. The piston 5 is then with the Piston rod 4 moved to the right, whereby the damper 1 is pivoted to the right and the upper water is jammed higher.

But if the upper water rises above the predetermined higher level, then the valve 13 is through the Float device 17 opened so that oil from cylinder 6 via line 7, valve 13 and line 14 in the reservoir 15 can flow, which is indicated by the arrows 32. As a result, the flap 1 is through the water pressure exerted on its upstream side

swiveled to the left so that water can shdmen over the lowered damper 1 on the underwater side.

This control device works well as long as the pressure medium source 8 has enough oil under one can deliver certain pressure. But if the piston S 5 one or more times by the Float device 17 has been pushed back and forth via the associated valves controlled oil the oil under the required high pressure must be consumed or diverted to the reservoir 15. Around There is always enough oil available to the specific high pressure in the pressure medium source 8 a pump 18 is provided which is connected via a line 19 to the reservoir 15 and oil via a Non-return valve 20, a line 21 and lines 10 and 9 can convey into the pressure medium source 8. the Pressure medium source 8 consists, for. B. from a container with a diaphragm 22. on one side of the Diaphragm 22 the oil and on the other side a gas. ζ. B. nitrogen, under high pressure of e.g. B.! 00 to 200 atmospheres is introduced.

The pump 23 pumps oil into the container of the pressure medium source 8 until the gas passes over the diaphragm 22 to the predetermined maximum pressure of z. B. is compressed 200 atmospheres. ij

According to the invention, this pump 18 is now driven via a delay gear 23 by a paddle wheel 24 which is arranged in a channel 25 arranged in a side wall of the weir structure. This channel 25 connects the water space on de ^r inflow side with that on the downstream face of the weir. The inlet opening of the channel 25 on the upstream side can be closed with a slide 26 which is controlled by a piston 28 movably arranged in a cylinder. A compression spring 29 acts on this piston 28 on one side and the oil from the pressure medium source 8 acts on the other side. in such a way that the slide 26 closes the inlet opening of the channel 25 when the pressure of the pressure medium source 8 exceeds the predetermined high value, but that it opens it under the pressure of the spring 29 when the pressure of the pressure medium source 8 falls below a certain value .

The slide 26 is positively connected to the piston 28 by a linkage 27.

When the pressure medium source 8 is charged, the pressure of the oil at the top of the piston 28 must be so large that that the piston 28 against the pressure of the spring 29 in its lower, the closed position of the slide 26 corresponding position is pressed.

The pressure of the oil drops so that the spring 29 the Piston 28 and thus the slide 26 moved upwards, that is to say in the open position, then water can enter the Channel 25 flow, so that the impeller 24 is driven and the pump 18 is put into operation.

The pump 18 now sucks in oil from the reservoir 15 through the line 19 and conveys it through the lines 21, 10 and 9 in the container of the pressure medium source 8, as indicated by the arrows 34.

When the predetermined high pressure is reached in the container of the pressure medium source 8, the piston 28 becomes pressed down, whereby the slide 26 is closed. This brings the paddle wheel 24 and the pump 18 to a standstill. The oil flows back into the pump 18 through the check valve 20 prevented.

By closing the valve 35, the automatic control can be put out of operation. Then the Storage flap 1 can be operated by means of the hand pump 36.

With the invention, in particular, the advantage is achieved that for the operation of the automatic The control and especially the oil pressure pump are not foreign, usually over long distances and thus an energy source that is prone to failure and requires maintenance is required, that rather one on site located in the weir system, directly coupled to the weir system and therefore always and safely available stationary energy source that does not require any special maintenance, namely a water paddle wheel in one Auxiliary channel of the weir system, is provided.

1 sheet of drawings

Claims (1)

Patent claims: Automatic control device for hydraulically operated weirs in the form of flaps. to the Regulation of the water level in a river or canal by means of a depending on the head water level working float device, which when the upper water level falls below a certain Level establishes a connection between a pressure medium source and the hydraulic drive of the weir and when the headwater rises above a certain level, the hydraulic power unit with it a pressure medium reservoir connects, so that the delivery flap in when the upper water level has fallen a steeper position, but when the headwater level rises it is brought into a flatter position, whereby the pressure medium source automatically from a driven pump to the required pressure is held, characterized. that the pump (18) from a paddle wheel (24) is driven, which is in a provided in a side wall of the weir structure channel (25) is arranged that this channel the water space on the upstream side with the one on the The lower water side of the weir connects the inlet opening of the canal on the upper water side can be closed with a slide (26). this slide by one in a cylinder movably arranged piston (28) is controlled. on one side by a compression spring (29) and is loaded on the other hand by the pressure medium of the pressure medium source (8), so that the Slide closes the inlet opening of the channel (25) when the pressure of the pressure medium source (8) is above a certain value, but it opens under the pressure of the spring (29) when the pressure of the Pressure medium source (8) drops below a certain value. 4 ° The invention relates to an automatic control device for hydraulically moved weirs in the form of Damming flaps for regulating the water level in a river or canal by means of a depending on the Upper water level working float device, which when the upper water level falls below a certain level a connection of a pressure medium source with the hydraulic drive mechanism of the damper and the hydraulic power unit when the headwater rises above a certain level a pressure medium reservoir connects, so that the weir flap when the upper water level has fallen in a steeper position, but when the upper water level rises it is brought into a flatter position, whereby the Pressure medium source is held automatically by a driven pump at the required pressure. Such, through the French patent specification 83 173 and the German utility model 75 091 known control devices have the particular disadvantage that for driving the Pressure medium pump from an external energy source, e.g. B. from an electrical overland network, fed Electric motor or an internal combustion engine are required. In the case of an electric motor, this means that Installation and maintenance of mostly long, expensive and lossy connection lines or in the case an internal combustion engine. Storage and supervision of the necessary for the operation of the engine necessary fuel. These disadvantages are serious because such weir systems are mostly located in remote areas Localities distant places are built