SE427988B - Arrangement for separating of heavy metals from drain water, preferably in dental offices - Google Patents

Abstract

The problem intended to be solved involves separation of heavy metals from the drain water. This problem is solved with an arrangement in which forced sedimentation is accomplished by centrifuging. The described arrangement contains a rotary vessel 1 with essentially circular cross section. The upper open end of the vessel is configured with an edge 2 projecting radially inward for a certain distance. The inward radial extent of the edge determines the quantity of water contained in the vessel upon rotation. Furthermore, elements 9 are arranged to supply the drain water at the upper end of the vessel and a motor 30 is arranged to rotate the vessel for centrifuging of the drain water. The invention is primarily intended for dental use. <IMAGE>

Description

7902109-3 10 20 Evaporation is impractical as it sometimes involves amounts of water of up to 5 liters / treatment room and minute to be evaporated. An average minute volume should be 3 liters.

Sedimentation is in principle simple, but requires that the sedimentation vessel hold relatively large amounts of water.

The method therefore becomes somewhat impractical.

When purifying wastewater by filtration, the filters must be relatively fine-mesh¿: they will therefore clog quickly, even if they have a relatively large active surface. The reason for the clogging is not primarily amalgam and mercury waste, but mucin, protein, blood, bone remains, etc. that are found in the wastewater of dental practice. Changing filters has also proven to be a somewhat "snazzy" work step. It is perceived as extremely disgusting and unhygienic by those who have to perform this task. Such a filter can of course have a longer service life if the wastewater is forced through the pump or suction through the filter, even then the filter becomes clogged relatively quickly.

Filtration thus entails significant disadvantages and if a disposable type filter is used, this entails an extra cost.

The object of the present invention is to provide a device for complete purification of waste water, whereby the above-mentioned disadvantages are avoided.

This effect is achieved with a device initially provided. - 9 types with the characteristics specified in claim_l.

The construction according to the invention is based on the fact that in a dental practice one has a relatively heavy waste or sediment in relatively small amounts. 10 20 25 30 7902109-3 The radial extent of the edge at the upper end of the vessel determines the thickness of the water layer in the vessel during the centrifugation, in which water layer the sediment is located.

According to an advantageous embodiment, holes are formed through the edge, next to the vessel wall, or through the vessel wall, just below the edge through these holes, residual water will then be emptied when the supply of wastewater ceases so that a substantially dry sediment is obtained.

According to a further, advantageous embodiment of the device according to the invention, a round-shaped carrier is arranged to rotate with the vessel, which carrier is dimensioned so that a free space is formed between the outer edge of the carrier and the inside of the vessel. Thus, when the residual water is drained and the centrifugation has ceased, the substantially dry sediment will all through the said space down to the bottom of the centrifugation vessel, which is suitably funnel-shaped and formed with holes for emptying the sediment.

For more efficient function of the carrier, this can be fitted with radial strips on the upper side.

The waste water is suitably supplied at the upper end of the vessel, near its center, and at the upper edge of the vessel means are arranged to trap and divert the purified water which is discharged from the vessel during the centrifugation. Said means for capturing and discharging the purified water comprises, according to an advantageous embodiment, a cake-like device enclosing the upper edge of the vessel, from which device a pipe leads for discharging trapped water.

According to yet another advantageous embodiment of the invention, means are provided for electrolysis of mercury dissolved in the waste water.

According to another advantageous embodiment, a pre-filter, of the water trap type or of the sedimentation tank type, is arranged in the means for supplying waste water.

An exemplary embodiment of the device according to the invention will now be described in more detail with reference to the accompanying drawings, in which Fig. 1 schematically shows the device according to the invention, Fig. 2 the device in Fig. 1 function with continuous supply of wastewater, Fig. 3 the device in Fig. 1 when the supply of wastewater has ceased and residual water in the vessel is being drained, and Fig. 4 the device in Fig. 1, when the centrifugation has ceased and the sediment is emptied.

The device according to the invention comprises a vessel 1 with a substantially circular cross-section. At the upper open end of the vessel an edge 2 is formed, which extends radially inwards a piece and also has a radially outwardly directed projection.

Inwardly extending the edge determines the thickness of the layer of residual water 14 present in the vessel during centrifugation with continuous supply of waste water. after the supply of wastewater has ceased, see Fig. 3. The holes are evenly distributed around the edge near or tangential to the inner wall 16 of the vessel.

Alternatively, the holes 18 may be formed in a radial direction through the side wall of the vessel 1. In this case, the holes are suitably arranged in a ring around the vessel.

In the lower part of the vessel 1 a carrier 5 is arranged to rotate with the vessel during the centrifugation. The carrier is round-shaped with a radius which is slightly smaller than the inner radius of the vessel, so that a passage 20 is formed between the outer edge of the carrier 5 and the inside of the vessel. 10 20 25 30 7902109-3 Through this passage the sediment 22 falls after the centrifugation, see fig. 4.

Radial strips 6 can be arranged on the upper side of the carrier 5 to make the centrifugation more efficient.

The bottom 24 of the rotating vessel 1 is suitably funnel-shaped with holes 7, evenly distributed in a ring around the funnel-shaped bottom. These holes 7 lie well inside the inner boundary 26 of the edge 2 at the upper end of the vessel 1. Sediment 22 which, after centrifugation, falls through the passage 20 will fall further out of the bottom 24 and out through the bottom holes 7. Below the bottom holes a container 8, which may be of disposable type, is placed for collecting the sediment.

To drive the vessel 1, it is attached at the center of the bottom, at 28, to a substantially vertically extending shaft 3 from a motor 30. At the same shaft, the carrier 5 is also attached to the at asattrouuaræd vessel. A rotational speed of the order of a few thousand rpm provides efficient separation of heavy sediment from supplied wastewater.

Sewage is supplied through a line 9, which opens at the upper end of the vessel 1, near its center - In order to catch the purified water which is discharged from the vessel 1 during the operation of the device partly past the hole 4,78 mentioned after the edge 2 (after the supply of wastewater has ceased, water is discharged only through said hole as described above) is a cake-like device 11 arranged around the upper edge 2 of the vessel 1. The water thus captured by this device is diverted via a pipe 12. and partly through the inlet line 9 can a pre-filter 10 may be provided.

It can be of the water trap type or a device of the sedimentation tank type.

In the supply line 9 a valve 13 should also be arranged, so that the waste water can be diverted directly in the usual way, the device according to the invention for some reason does not work.

In addition to particles of varying sizes, the wastewater also contains colloidal mercury and mercury in ionic form. Mercury in ionic form has an affinity for zinc, so the vessel 1 is suitably made of galvanized brass. Mercury dissolved in the wastewater can also be precipitated with electrolyte.

For this purpose, electrodes connected to a direct voltage source can be placed in the pipe 12, whereby the waste water in the pipe forms the electrolyte. By fitting the holes 4 or 18 in the upper edge 2 or in the vessel wall in a suitable manner, the device according to the invention can also be captured by centrifugation by colloidal mercury, which cannot be separated by electrolysis or zinc granules and is difficult to precipitate with normal sediment. - mentoring.

With the device according to the invention, the sediment of heavy metals is thus separated each time the centrifugation is stopped, the sediment being separated in a substantially dry state after residual water in the vessel 1 has been discharged through the holes 4, 18.

According to another embodiment, bottom holes and any carriers can be eliminated. The sediment then accumulates in vessel 1 which is emptied when needed.

The device according to the invention is primarily intended for dental use in a dental practice. Since this is a relatively small amount of heavy sediment, the device according to the invention can run all day and only be switched off in the evening to empty sediment separated by the centrifugation.

Claims (9)

7902109-3 Patent claims Device for separating, by centrifugation, heavy metals from wastewater, preferably in dental practice, which device comprises a rotatable, motor-driven vessel (1) with a substantially circular cross-section and a, at its upper open end, a certain piece radially inwards sliding edge (2), and means (9) for supplying at the upper end of the vessel waste water to be centrifuged, characterized in that holes (4, 18) are formed through said edge (2), adjacent to the wall of the vessel (1) , or through the vessel wall, just below the edge, and that a cake-like device (II) encloses the upper edge of the vessel for trapping water which during centrifugation protrudes through said hole, from which device a pipe (12) leads for drainage of trapped water, and electrodes are placed in said pipes, which electrodes are connected to a direct current source for electrolysis of mercury dissolved in the waste water. Device according to claim 1, characterized in that the holes (4, 18) are evenly distributed around said edge (2), or evenly distributed in a ring around the side wall of the vessel (1). Device according to one of Claims 1 or 2, characterized in that a disc-shaped carrier (5) is arranged in the lower part of the vessel (11) for rotation with the vessel, which carrier is dimensioned so that a passage (20) formed between the outer edge of the carrier and the inside of the vessel (16). Device according to claim 3, characterized in that radial strips (6) are arranged on the upper side of the carrier (5). Device according to any one of claims 1-4, characterized in that the vessel (1) is formed with a funnel-shaped bottom (24), in which holes (7) are formed for emptying separated metals (22), when the vessel ceases to rotate. .79o21o9-3 Device according to claim 5, characterized in that said bottom hole (7) is evenly distributed in a ring around the funnel-shaped bottom (24), the outer edge of the holes lying inside the inner boundary (26) of the edge (2) at the vessel (l) upper end. Device according to any one of claims 1-6, characterized in that said means (9) for supplying waste water are arranged to supply the waste water at the upper end of the vessel (1), near its center. I '. Device according to one of Claims 1 to 7, characterized in that the vessel (1) consists of galvanized brass. Device according to any one of claims 1-8, characterized in that in said means (9) for supplying wastewater a pre-filter (10) of the water trap type or of a type of sedimentation tank is arranged.