DE29616636U1 - Device set for determining the degree of contamination of oil and fat separators in sewage systems - Google Patents

Description

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Equipment set for determining the degree of contamination of oil and grease separators in wastewater systems

The invention relates to a device set for determining the sedimentation layer thickness and the oil layer thickness of oil and grease separators in wastewater systems of industrial and commercial enterprises, in particular petrol stations, vehicle washing areas and vehicle washing lines.

Such devices are required to monitor the functionality of oil and grease separators and to carry out maintenance and disposal work on oil and grease separators at reasonable intervals.

It is known to push a rod through the sedimentation layer to the bottom of an oil and grease separator and to feel the resistance that begins when the tip of the rod is placed on the sedimentation layer and to estimate the thickness of the layer down to the bottom of the oil and grease separator. To determine the thickness of the oil layer deposited on the liquid surface of the oil and grease separator, this rod or another rod is coated with a reaction paste approximately in the immersion area of the rod and over a length of the assumed oil layer thickness. This reaction paste then indicates the thickness of the oil layer when the rod is removed from the liquid by the discoloration of the paste.

The use of such devices is too imprecise and too subjective for determining the thickness of the sedimentation layer. Likewise, measuring the thickness of the oil layer using a reaction paste is very complex. It therefore does not meet the requirements of rational operational management and environmental protection regulations.

A stationary device is also known for measuring the thickness of the sedimentation layer in settling tanks for suspensions whose solids are intended for further processing. In this device, a floating body is equipped with a sensor for the sediment surface and the measured values are processed and evaluated electronically. The cost of such a device is not appropriate for oil and grease separators in smaller commercial operations (DE 32 08 167).

A stationary device is also known for determining the thickness of a scum layer in wastewater treatment plants using a lowerable measuring body, a camera and a computer for evaluating the measurement results. The measurement results are often distorted due to contamination of the optical devices. Such a device is also not suitable for oil and grease separators for reasons of profitability (DB 32 48 244).

Furthermore, a stationary device is known, according to which the energy consumption of the drive motor for a stirrer lowered into the settling tank is measured and from the measured values calculations are made on the

Sedimentation layer thickness and oil layer thickness can be adjusted. This device is also not suitable for oil and grease separators due to the complexity involved (DB 37 33 701).

With another known stationary device, a hydrostatic pressure sensor is lowered into the settling tank and the thickness of the sedimentation layer is calculated from the measured values of pressure and lowering distance of the pressure sensor. This device is not suitable for oil and grease separators because of the density or the strength of the sedimentation layer (DB 44 12 479).

The problem of the invention is to create a mobile device set for determining the degree of contamination of oil and grease separators in wastewater treatment plants, which allows the thickness of the sedimentation layer and the thickness of the oil layer in oil and grease separators to be determined sufficiently accurately with little technical and personnel expenditure.

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According to the invention, the problem is solved as stated in the claims.

The advantages of the invention are that the handling of the device set is very simple and easy to learn, can be implemented without sufficient technical effort and the measurement results can be

can be read directly from the device set with sufficient accuracy. The device is light and portable. Official inspectors can carry it in their luggage and use it on site. The method according to the invention avoids the use of chemicals such as the reaction paste. Bs can therefore be used in an environmentally friendly manner.

The invention is explained in more detail below using an exemplary embodiment.

In the accompanying drawing, Fig. 1 shows a sedimentation dipstick and Fig. 2 shows an oil and fat foam measuring rod.

The device set consists of the probe for measuring the sedimentation layer thickness in oil and grease separators as shown in Fig. 1 and the probe for determining the oil layer thickness in oil and grease separators as shown in Fig. 2.

The probe for measuring the sedimentation layer thickness is designed as a telescope, with the telescopic rod 5 located in the telescopic tube 2, being removable from it and being lockable relative to it. The handle 1, designed as a locking ring, is arranged at the free end of the telescopic tube 2. The cord 3 is arranged parallel to the telescopic tube 2 and the telescopic rod 5, with one end near the

Handle 1 is attached to the telescopic tube 2 and the other end reaches close to the free end of the telescopic rod 2. Central to the telescopic rod 5, the impact plate 6 with its central opening is loosely and easily movable and is attached to the telescopic rod 5 with a fork in the cord 3 so that it swings in balance. The cord guide 4 is also located on the telescopic tube 2. To measure the thickness of the sedimentation layer in the oil and grease separator, the telescopic tube 2 and the telescopic rod 5 are first pulled apart and locked against each other at the desired extension length, with the impact plate 6 being positioned at about the middle of the probe. The probe is then inserted vertically through an upper opening in the sand and sludge trap of an oil and grease separator and the free end or tip of the telescopic rod is pushed through the sedimentation layer to the bottom of the sand and sludge trap in the oil and grease separator. The impact plate 6, which is positioned approximately at the middle height of the probe, is now lowered on the cord 3 until it sinks through the liquid and rests on the top of the sedimentation layer. In this position, the cord 3 is locked to the telescopic tube 2 and the probe is removed from the oil and grease separator. The difference between the end of the telescopic rod 5 and the position of the impact plate 6 locked by the cord 3 corresponds to the thickness of the sedimentation layer.

The probe for determining the oil layer thickness in the oil and grease separator consists of the rod 11, at one upper end of which the handle I ₅ is designed as a locking ring, and at the other lower end

the same the closure plug 9 for the oil and fat foam measuring glass is located. The telescopic tube 7 is slidably connected to the rod 11, at the lower end of which the cylindrical oil and fat foam measuring glass 8 is arranged centrally. The small air outlet opening 10 is located in the upper area of the oil and fat foam measuring glass 8. To determine the thickness of the oil layer in the oil and fat separator, the telescopic rod 11 with the telescopic tube 7 and the oil and fat foam measuring glass 8 is lowered vertically into an oil and fat separator through an upper opening until the closure plug 9 is approximately at the level of the liquid level in the oil and fat separator. The oil and fat foam measuring glass 8 is then removed from the closure plug 9 and thus opened by axial relative movement of the telescopic rod 11 against the telescopic tube 7. When the oil and fat foam measuring glass 8 is slowly lowered further, the liquid penetrates into it approximately in its layering , whereby the air in the oil and fat foam measuring glass 8 escapes through the air outlet opening 10. As soon as the air outlet opening 10 is approximately at the level of the liquid during this process, the oil and fat foam measuring glass 8 is closed by means of a plug 9 by relative movement of the telescopic rod 11 against the telescopic tube 7 and the probe on the telescopic rod 11 is pulled out of the opening of the oil and fat separator. The thickness of the oil layer in the oil and fat separator can be measured by the layering of oil and water. It can be read off using a scale on the oil and fat foam measuring glass.

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List of reference symbols used

1 Handle (locking ring) 2 Telescopic tube 3 line 4 Line guide 5 Telescopic rod 6 Baffle plate 7 Telescopic tube 8th oil and fat foam measuring glass 9 Plug 10 Air outlet opening 11 Rod

Claims (5)

Protection claims 1. Device set for determining the degree of contamination of oil and grease separators in sewage systems by measuring the sedimentation layer thickness and the oil layer thickness, characterized in that it consists of a rod (2) and an oil and grease foam measuring glass (8), the rod (2) is designed like a telescope and a flat body, specifically heavier than water, is designed as a baffle plate (6) with a central opening larger than the diameter of the rod (2), the baffle plate (6) being arranged with its opening on the rod (2) so that it can slide thereon and is fastened to the rod (2) by means of the cord (3) which is forked near the baffle plate (6), and can be moved up and down in an approximately horizontal plane. 2. Device set according to claim 1, characterized in that the rod (2) and/or the cord (3) have length measurement markings. 3. Measuring set according to claim 1, characterized in that the oil and fat foam measuring glass (8) is attached centrally to the telescopic tube (7) with its upper lid and the stopper (9) is arranged on the rod (2) moved in the telescopic tube (7). 4. Device set according to claim 3, characterized in that an air outlet opening (10) is arranged in the lid of the oil and fat foam measuring glass (8) or in the cylinder near the lid. 5. Device set according to claim 3 and 4, characterized in that the air outlet opening (10) can be closed by means of a float valve that can be actuated by the liquid filling in the oil and fat foam measuring glass (8).