CS270271B1 - Device for the protection of blower blowers with a pipe entering the liquid tank - Google Patents

Abstract

The device consists of a cleaning air pipe on the blower side, to which is connected an elbow, under which the cleaning air pipe on the filter side continues, which creates a gradient from the filters towards the column and thus allows the water to drain from this pipe into the pipe. The pipe is connected below the elbow and opens into a tank with liquid. When the blowers are running, the level in the pipe decreases to a value corresponding to the nominal pressure of the blowers. If there is a sudden increase in pressure in the discharge pipe of the blowers on the filter side caused by some fault and if this increased pressure is higher than the pressure for which the length of the pipe was designed, this increased pressure compresses the level in the pipe to its maximum length and the compressed air escapes through the pipe into the tank with liquid and the protection of the entire system against overload is ensured. When the blowers are switched off, the liquid level in the pipe nn rises to the level of the liquid level in the tank and the drain from the washing air pipe ns on the filter side is enabled through the pipe to the liquid tank.

Description

The invention relates to the protection of washing air blowers against the ingress of, in particular, washing water when washing filters.

Currently, the washing air blowers are protected against the ingress of washing water by a safety loop, the height of which depends on the pressure of the washing water, or by non-return valves in front of the washing air blowers. The height of the safety loop on the washing air pipe is limited by the height of the building and, in the case of washing filters from the washing water tank, determines its position, limiting the maximum level in the washing water tank. If it is necessary to place the washing water tank, due to geological conditions and thus the maximum level of the tank above the level of the washing air safety loop, there is a risk of washing water overflowing into the washing air blowers. When washing the filter with water and air, washing water always penetrates the washing air pipe, up to the safety loop on the washing air pipe. The blowers must displace this column of water when restarted. To prevent water from leaking from the filters into the washing air pipe through the filter caps, which would have nowhere to drain, the washing air pipe should be placed above the maximum water level in the filter, which leads to a higher floor at the filters.

The above-mentioned shortcomings are eliminated by a device for protecting the washing air blowers with a pipe opening into a tank with liquid, the essence of which is that the washing air pipe on the blower side is connected to an elbow, below which the washing air pipe on the filter side continues, with an inclination towards the tank with liquid, and a pipe that opens into the tank with liquid. The length of the pipe from the liquid level in the tank to the end of the pipe corresponds to the nominal pressure of the blowers, converted into meters of water column and increased by a safety margin to prevent the escape of compressed air when the washing air blowers are operating through the pipe into the tank with liquid. In the event of any penetration of dirt or seepage of water into the washing air pipe on the filter side, this sloping pipe allows the free outflow of the penetrated water through the pipe into the tank with liquid, while the elbow further secures the washing air pipe on the blower side against any possible overflow of the penetrated water over the pipe. When the washing air blowers are running, the air pressure pushes a column of liquid corresponding to the nominal pressure of the washing air blowers from the pipe into the tank, and the difference in levels in the pipe compared to the liquid level in the tank stabilizes at a value corresponding to the nominal pressure of the washing air blowers converted to meters of water column.

When using a washing air pipe on the blower side, an elbow, a pipe, a liquid tank and a washing air pipe on the filter side, the washing air pipe, especially on the filter side, can be routed at any height relative to the level of the filters and any water leaks into this pipe flow freely through this sloping washing air pipe on the filter side into the pipe and further into the liquid tank. The device for protecting washing air blowers with a pipe opening into the liquid tank does not limit the pressure of the washing water, and thus the placement of the washing water tank at any height relative to the filters, it does not limit the maximum level in the water tank, which allows the use of the washing water tank with a minimum built-up space. At the beginning of filter washing, when the washing air blowers start up, the washing air blowers do not have to push out the water that has seeped through the filter caps into the washing air pipes on the blower side and the washing water that has remained in the washing air pipes on the filter side after the last filter washing. The pipes that would form a safety loop on the washing air pipes are no longer needed.

The protection of the washing air blowers with a pipe leading into the liquid tank is schematically shown in the attached drawing, where the technological diagram is shown.

The washing air pipe 1 on the side of the blowers 6 is provided with an elbow _3, to which a pipe _£ is connected, which has an outlet in the tank 5 with liquid and a safety overflow 9. The washing air pipe 2 on the side of the filters 7 is connected to the pipe 4 below the elbow 3, '

CS 270 721 Bl which is sloped from the filters to the tank 5 with liquid. The length of the pipe 4, related to the liquid level in the tank J5 to the end of the pipe j4, depends on the nominal pressure of the blowers 6 and is increased by a safety margin. The washing water for the filters 7 is provided from the water tank Ji.

After the blowers 6 are switched on, the compressed air passes through the cleaning air pipe 1 on the blowers side _6, into the elbow_3, through the cleaning air pipe 2 on the filter side JZ, into the filters 7 and then into the pipe where it compresses the level. The difference in levels in the pipe 4 and the tank_5 with the liquid stabilizes at a value that corresponds to the nominal pressure of the cleaning air blowers 6. When dirt or seeped water penetrates the cleaning air pipe 2 on the filter side 7, the water flows through this sloping pipe_2 on the filter side 7 into the pipe 4 and then into the tank 5 with the liquid, while when the level in the tank 5 rises to the level of the safety overflow_9, the water flows through this safety overflow_9. The elbow_3 prevents any overflow of dirt or seeped water through the pipe 4 into the pipe 1 on the blowers side 6.

The invention can be used in particular to protect the washing air blowers 6 in water treatment plants and purification plants. The function of the tank 5 can be fulfilled, for example, by the accumulation of clean water or a pumping sump. In general, the invention can be used wherever the blowers 6 need to be protected from the ingress of any liquid with which the compressed air from the blowers 6 comes into contact. The invention can also serve as protection against pressure overload of the discharge pipe of blowers, compressors, or any device that comes into contact with compressed air. It can therefore functionally replace in some cases the safety valve on the pipes of devices producing compressed air, while the invention is not dependent on any mechanical parts, unlike the safety valve, which reduces the possibility of failure and simplifies production.

Claims (1)

A device for protecting washing air blowers with a pipe opening into a tank with liquid, characterized in that the washing air pipe (1) on the blower side (6) is connected to an elbow (3), below which the washing air pipe (2) on the filter side (7) and the pipe (4) which opens into a tank (5) with liquid are connected.