JP7055308B1 - Dental treatment wastewater treatment system and its wastewater treatment method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently recover metal from wastewater of dental treatment by increasing the sedimentation efficiency of metal without reducing the flow velocity of wastewater of dental treatment, and easily to a unit of a wastewater treatment system for dental treatment. It can be attached and detached freely. SOLUTION: A vacuum tip 53 for sucking wastewater containing tooth, metal powder, resin cuttings, saliva, blood, meat pieces, filth such as chemicals, and washing water generated during dental treatment by a dental suction device 55. About the wastewater and air sucked by the vacuum tip 53, the flow is changed to a downward spiral shape, and the metal powder and tooth fragments contained in the wastewater are settled and separated to be recovered. With respect to the wastewater sucked by the sedimentation separation / recovery device 11, the separator 56 that separates sludge into the wastewater contained in the metal powder that has not been sedimented and separated, and the metal that recovers the metal powder from the wastewater separated by the separator 56. It was equipped with a collector 59. [Selection diagram] Fig. 3

Description

The present invention relates to a dental treatment wastewater treatment system that separates filth and wastewater generated during dental treatment and recovers metal from the wastewater, and a wastewater treatment method thereof.

As shown in the schematic configuration diagram of FIG. 10, the dental chair unit 51 includes a spitton (mouthwash) 52 that gargles in the oral cavity, tooth pieces, metal powder, cooling spray water, saliva, etc. generated during tooth treatment. A vacuum tip (suction device) 53 for sucking the gargle and an extraoral vacuum 54 for sucking the scattered matter to the outside of the oral cavity at the time of treatment are provided. The spitton 52, the vacuum tip 53, and the extraoral vacuum 54 suck in filth consisting of cuttings, tooth pieces, saliva, blood, meat pieces, chemicals, washing water, etc., which are generated during dental treatment.

In the vacuum tip 53, a suction device to be inserted into the oral cavity is connected to a dental suction device (pump) 55 via a hose, a filter, a waste water separator, etc. It is a device that sucks and discharges blood and various germs existing in the oral cavity. As a pollution prevention measure, large particles such as cuttings are captured and removed by a filter, gas and water are separated by a separator 56 and a vacuum motor 57, and discharged to a drain pipe 58. It may be discharged after cleaning with a purification device before discharging to the drain pipe 58.

The tooth pieces and metal powder sucked from the vacuum tip 53 contain expensive precious metals such as platinum, gold, silver, palladium, and titanium, which are tooth encapsulants. In the past, this was discarded together with tooth pieces, etc., but now, from the viewpoint of wasting resources, precious metals are mainly collected. Therefore, a technique for recovering a precious metal from a cutting material generated during such dental treatment has been proposed. For example, an oral suction terminal device for sucking sewage generated during dental treatment in the oral cavity, such as Japanese Patent Application Laid-Open No. 2006-15557 “Tooth Treatment Sewage Treatment System and Hedro Reservoir”, and an oral suction terminal. It is a hedro storage device to be attached to the tooth treatment generation filth treatment system, which consists of a discharge part that sends out the filth generated during tooth treatment that was sucked in by the device to a purification device or sewage, and is set at the attachment site of the tooth treatment generation filth treatment system. Of the container body for storing the sewage, the introduction port provided on the upper side of the container body for introducing the filth generated during tooth treatment into the container body, and the filth stored in the container body. A hedro storage device has been proposed, which comprises a discharge port for discharging sewage excluding the sewage, and removes and collects the sewage from the attachment site of the sewage treatment system for dental treatment while the sewage is stored and stored in the container body.

Japanese Unexamined Patent Publication No. 2006-15557

According to the above-mentioned "dental treatment sludge treatment system and sludge storage device" of Patent Document 1, sludge of sludge such as cuttings, tooth pieces, saliva, blood, meat pieces, chemicals, and washing water can be taken out. However, this sludge is taken out in a state where it contains noble metal, and has a problem that it is difficult to visually determine how much noble metal is recovered in this sludge storage device.

In addition, sludge includes those that are not easily separated from the precious metals such as resin, hard resin, and ceramic used in the treatment, and it may be difficult to efficiently extract only the precious metal from this sludge. rice field. A system including a metal recovery device 59 for recovering metals (metal powder) after the separator 56 has also been proposed. However, in the conventional metal recovery device 59, the metal powder is settled and recovered, but when the flow velocity is increased, the settling rate of the metal powder decreases, and the metal powder is drained before it is sufficiently settled. On the contrary, when the flow velocity is slowed down, the sedimentation rate of the metal powder increases, but there is a problem that the processing amount decreases.

The present invention has been devised to solve such a problem. That is, an object of the present invention is to increase the sedimentation efficiency of metal without reducing the flow velocity of the wastewater for dental treatment, thereby efficiently recovering the metal from the wastewater for dental treatment, and the wastewater treatment system for dental treatment. It is an object of the present invention to provide a dental treatment wastewater treatment system that can be easily attached to and detached from the unit.

The dental treatment wastewater treatment system of the present invention is a dental treatment wastewater treatment system that recovers metal powder from filth and washing water generated during dental treatment in the dental chair unit (51).
A vacuum tip (53) that sucks waste water containing teeth, metal powder, resin cuttings, saliva, blood, meat pieces, filth such as chemicals, and washing water generated during dental treatment with a dental suction device (55).
With respect to the wastewater and air sucked by the vacuum tip (53), the flow is changed into a downward spiral shape, and the metal powder and tooth fragments contained in the wastewater are settled and separated for recovery . A bottle (12) for sedimentation and recovery, a hemispherical cap portion (13) detachably attached to the upper part of the bottle (12), and an intake port attached to the cap portion (13) for taking in wastewater. (14), the discharge port (15) to be discharged, and the wastewater flowing in from the intake (14) hit with the air, and the flow direction is changed at the upper part of the bottle (12). ), A baffle plate (16) attached at an angle in the horizontal direction with respect to the axial direction in the inflow direction, and a sediment sedimentation separation / recovery device (11).
With respect to the wastewater sucked by the sediment sedimentation separation / recovery device (11), a separator (56) that separates sludge into wastewater contained in metal powder that has not been separated by sedimentation.
It is characterized by comprising a metal recovery device (59) for recovering metal powder from the wastewater separated by the separator (56).

For example, the bottom of the bottle (12) is provided with an opening / closing lid (17) for taking out the deposit deposited therein.
A guide ridge (18) that regulates the flow of wastewater and air is formed on the intake (14) side of the baffle plate (16).
The baffle plate (16) can also be formed so as to be curved so as to project toward the discharge port (15).

The wastewater treatment method of the present invention is a dental treatment wastewater treatment method for recovering metal powder from filth and washing water generated during dental treatment in the dental chair unit (51).
A hemispherical cap with an inlet (14) and an outlet (15) for wastewater containing tooth, metal, resin cuttings, saliva, blood, meat pieces, filth such as chemicals, and washing water generated during dental treatment. The portion (13) is sucked into the bottle (12) provided at the top, and the portion (13) is sucked into the bottle (12).
This wastewater is made to collide with air with an obstacle plate (16) provided in the cap portion (13) and inclined horizontally with respect to the axial direction of the inflow direction of the intake (14). , Change the flow of this wastewater into a downward spiral shape and guide it,
This wastewater is separated into filth and solid matter such as metal powder in the bottle (12) by prolonging the residence time from the intake port (14) of the cap portion (13) to the discharge port (15). The solid matter is settled , and the wastewater containing the filth and the washing water is discharged from the discharge port (15) .

In the dental treatment wastewater treatment system of the present invention, the sediment sedimentation separation / recovery device (11) mounted between the vacuum tip (53) and the separator (56) spirals the suctioned wastewater and air flow downward. The sedimentation separation distance (time) can be lengthened to form. As a result, the separation efficiency between the filth that flows as it is and the metal powder that settles becomes high. Expensive precious metals such as platinum, gold, silver, palladium, and titanium can be efficiently recovered from this sediment. Since the sediment sedimentation separation / recovery device (11) has a compact structure, it can be easily retrofitted by assembling to the separator (56) and can be easily incorporated into an existing drainage facility.
When solid matter such as metal powder accumulates in the bottle (12), remove this bottle (12) from the cap portion (13), discard the wastewater in it, and remove the solid matter accumulated on the opening / closing lid (17). to recover. At this time, human hands do not come into direct contact with the wastewater, so it can be handled hygienically. It is possible to contribute to the control of infectious diseases.

The obstruction plate (16) installed in an inclined manner in the hemispherical cap portion (13) forms a downward spiral of wastewater and air flow, so that the settling separation distance (time) of wastewater becomes long. , Separation efficiency can be improved.

Since the bottle (12) is provided with an opening / closing lid (17) for taking out the precipitate deposited on the bottom thereof, the precipitate can be easily collected.
In the case where the guide ridge (18) that regulates the flow of wastewater and air is formed on the obstruction plate (16), the wastewater and air flowing in from the intake (14) are inclined in the cap portion (13). It hits the guide ridge (18) of the attached obstruction plate (16), flows downward and along the direction of the guide ridge (18), tends to be formed in a spiral shape, and has a long settling separation distance (time). Separation efficiency is high.
The curved baffle plate (16) can prevent the generation of turbulence in the flow of wastewater and air, and its separation efficiency is improved.

In the dental treatment wastewater treatment system of the present invention, since the wastewater and the air flow are formed in a downward spiral shape, the sedimentation separation distance (time) becomes long and the separation efficiency becomes high. A large amount of wastewater can be treated quickly, and metals and precious metals can be efficiently recovered from the wastewater.

It is a schematic block diagram which shows the dental treatment wastewater treatment system and the dental chair unit of Example 1. FIG. It is a front view which shows the sediment sedimentation separation collector. It is a vertical sectional view which shows the sediment sedimentation separation collector. It is a top view of the cap part. It is a bottom view of a cap part. It is explanatory perspective view explaining the flow of the wastewater of the sediment sedimentation separation and recovery device. It is an explanatory diagram about the flow and treatment state of wastewater, (a) is a state where wastewater is flowing, (b) is a state where the flow of wastewater is stopped, and (c) is a state where the bottle and the opening / closing lid are removed. be. It is a vertical cross-sectional view of a cap part which shows the state which the guide ridge which regulates the flow of wastewater is formed in the obstruction plate of the modification 1. It is a vertical cross-sectional view of the cap part which shows the state which formed the obstruction plate of the modification 2 in a curved shape. It is a schematic block diagram which shows the conventional dental treatment wastewater treatment system.

The dental treatment wastewater treatment system of the present invention is a system that separates filth and wastewater generated during dental treatment and recovers metal from the wastewater.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
<Configuration of dental treatment wastewater treatment system>
FIG. 1 is a schematic configuration diagram showing a dental treatment wastewater treatment system and a dental chair unit according to the first embodiment.
The dental chair unit 51 includes a chair on which the patient sits, a foot switch for operating this chair with his / her feet, an auxiliary table for placing instruments, medicines, etc. In addition, it is equipped with cleaning water, cooling water, and drainage pipe equipment. The dental treatment wastewater treatment system of the present invention is a device provided in this wastewater facility.

The dental treatment wastewater treatment system of Example 1 produces metal powder, tooth fragments, and other deposits by changing the flow of the vacuum tip 53 used for dental treatment and the wastewater sucked by the vacuum tip 53 downward. A separator 56 that separates the sediment sedimentation separation / recovery device 11 that is separated by sedimentation and the wastewater sucked by the sedimentation sedimentation separation / recovery device 11 into sludge and wastewater contained in the metal powder that has not been sedimented and separated. And a metal recovery device 59 for recovering metal from the wastewater separated by the separator 56. The metal powder contained in the wastewater is recovered in two stages of the sediment sedimentation separation / recovery device 11, the separator 56, and the metal recovery device 59.

The vacuum tip 53 is used by placing it in the patient's oral cavity to suck in tooth, metal, resin cuttings, saliva, blood, meat pieces, chemicals, and filth of washing water generated during dental treatment. This suction uses a dental suction device 55.

The separator 56 is a liquid containing sludge and metal powder for filth such as tooth, metal, resin cuttings, saliva, blood, meat pieces, chemicals and cleaning water generated during dental treatment sucked by the vacuum tip 53. It is a device that separates wastewater). The operation of the separator 56 is performed by the vacuum motor 57.

The metal recovery device 59 is a device for recovering metal from the wastewater separated by the separator 56. This is a device for recovering metal powder that could not be recovered by the sediment sedimentation separation / recovery device 11. Although not shown, the metal recovery device 59 is composed of a recovery device main body and a lid body, and the recovery device main body 12 is a housing having an opening at the upper side. The lid 13 is a member that detachably closes the opening of the collector body 12.

<Structure of sediment sediment separation and recovery device>
FIG. 2 is a vertical cross-sectional view showing a sediment sedimentation separation and recovery device. FIG. 3 is a plan sectional view showing a sediment sedimentation separation and recovery device.
The sediment sediment separation and recovery device 11 is detachably attached between the vacuum tip 53 and the separator 56. The sediment sedimentation separation / recovery device 11 is a device provided with a bottle 12 for sedimentation / recovery of a sediment containing metal powder, and a hemispherical cap portion 13 detachably attached to the upper portion of the bottle 12. The vacuum chip 53 is connected to the upstream side, and the separator 56 is connected to the downstream side. Each connecting means can be easily and detachably connected. It can be retrofitted to conventional dental treatment wastewater treatment systems.

The cap portion 13 is provided with an intake port 14 for taking in wastewater, a discharge port 15 for discharging wastewater, and an obstacle plate 16. The baffle plate 16 has a function of changing the flow direction of the wastewater flowing from the intake port 14 against the air.

The bottle 12 is a cylindrical temporary collection container. As will be described later, the bottle 12 is preferably cylindrical so that the wastewater forms a spiral shape in order to prolong the residence time of the wastewater, that is, the sedimentation separation time. Further, a transparent material is preferable so that the internal state can be confirmed from the outside.

An opening / closing lid 17 is provided at the bottom of the bottle 12. The opening / closing lid 17 can be removed to take out the deposited sediment.

<Structure of cap part>
FIG. 4 is a plan view showing the cap portion. FIG. 5 is a bottom view showing the cap portion.
The cap portion 13 is provided with an intake port 14 for taking in wastewater and air on one side of the hemispherical shape, and an outlet 15 for discharging wastewater and air on the opposite side. The intake 14 is connected to the downstream side of the vacuum tip 53. The discharge port 15 is connected to the upstream side of the separator 56. This connection can be easily and detachably connected.

A baffle plate 16 is attached to the cap portion 16 so that the wastewater flowing from the intake port 14 and the air hit the cap portion 16 and change the flow direction thereof. As shown in the cross-sectional view of FIG. 3, the baffle plate 16 has a semicircular plate material attached to the hemispherical cap portion 13. From the lower side of the obstruction plate 16, the wastewater taken in from the intake 14 is dropped into the bottle 12.

The baffle plate 16 is attached so as to be inclined in the horizontal direction with respect to the axial direction in the inflow direction of the intake port 14. The baffle plate 16 attached at such an inclination has a function of changing the wastewater and air that hit the baffle plate 16 into a downward spiral flow in the bottle 12. It does not simply drop wastewater from top to bottom in the cylindrical bottle 12, but has a function of converting wastewater and air into a spiral flow and slowing down the flow velocity in the cylindrical bottle 12. In other words, the distance of the wastewater flow path becomes long. As a result, the sedimentation separation distance (time) becomes long, so that the separation efficiency between the filth and the solid matter such as metal powder can be improved.

For example, as shown in FIG. 5, the baffle plate 16 is arranged in the cap portion 13 at an angle of 45 degrees in the horizontal direction. The reason why the arrangement is inclined in this way is to prevent the wastewater and the air flowing straight in from hitting the obstacle plate 16 and bouncing back. It is also to form a downward spiral of wastewater flow with air.

This tilt angle is not limited to this 45 degrees as long as the baffle plate 16 can form the flow of wastewater in a downward spiral shape. It suffices as long as the course direction can be changed while the straight-moving wastewater and air do not disrupt the laminar flow. This angle can be changed as appropriate. Further, although not shown, it is also possible to variably mount the baffle plate 16 in the cap portion 13 in the horizontal direction as needed. As a matter of course, it is necessary to adjust the angle within a range that does not interfere with the intake port 14 and the discharge port 15.

<Explanation of sediment sedimentation separation and recovery device>
FIG. 6 is an explanatory perspective view illustrating the flow of wastewater in the sediment sedimentation separation / recovery device.
(1) The wastewater flowing into the intake 14 of the sediment sedimentation separation / recovery device 11 configured in this way is like teeth, metal powder, resin cuttings, saliva, blood, meat pieces, and drugs generated during dental treatment. Wastewater containing clean filth and wash water. At this time, as shown in the figure, the wastewater sucked into the separator 56 flows down in the pipe, and air is sucked up above it at the same time. The wastewater and air that have flowed into the intake 14 hit the obstruction plate 16 in the cap portion 13.
(2) The baffle plate 16 is arranged at an angle inclined in the horizontal direction with respect to the axial direction of the inflow direction of the intake port 14. The flow direction of the wastewater and air that hit the obstacle plate 16 can be changed.
(3) Wastewater is guided into a cylindrical bottle 12 at the bottom of the cap portion 13. In the cylindrical bottle 12, the wastewater contains the solid matter and the flow direction is changed, so that the wastewater changes into a spiral flow downward. At this time, the flow direction of the air is also changed, so that the wastewater tends to have a spiral flow.
(4) In the wastewater that has changed into a spiral flow, solid matter such as metal powder and tooth fragments having a large specific density settles and is deposited on the opening / closing lid 17 as it is.
(5) When the deposit reaches a predetermined amount in the bottle 12, the bottle 12 is removed from the cap portion 13 and the wastewater in the bottle 12 is discarded. Human hands do not come into direct contact with wastewater. The opening / closing lid 17 is removed from the bottle 12 and a solid substance containing metal powder is taken out.
Wastewater containing sludge and the like having a small specific density is discharged from the discharge port 15.
(6) The bottle 12 is removed from the cap portion 13 and the wastewater in the bottle 12 is discarded. Next, when collecting the solid matter accumulated on the opening / closing lid 17, human hands do not come into direct contact with the wastewater, so that it can be handled hygienically. It is possible to contribute to the control of infectious diseases.

FIG. 7 is an explanatory diagram of the flow and treatment state of wastewater, (a) is a state in which wastewater is flowing, (b) is a state in which the flow of wastewater is stopped, and (c) is a state in which the bottle and the opening / closing lid are removed. It is in a state of being.
When wastewater is sucked and flowed into the sediment sedimentation separation / recovery device 11, it flows into the cap portion 13 and the bottle 12 as shown in FIG. 7A. At this time, the water surface of the wastewater is at a height slightly below the opening of the bottle 12. This is because the wastewater sucked into the separator 56 flows under the pipe of the intake port 14, and air is sucked and flows above the pipe at the same time.
As shown in FIG. 6, as for the wastewater passing through the bottle 12, the wastewater having a large specific density is settled, and the wastewater having a small specific density is discharged to the discharge port 15 as it is.

Next, when the suction is stopped, as shown in FIG. 7B, the water surface of the wastewater becomes a height slightly below the opening of the bottle 12. Wastewater is only in the bottle 12. Even if the bottle 12 is removed from the cap portion 13 in this state, the wastewater in the bottle 12 does not spill, and the wastewater can be treated hygienically.

Finally, as shown in FIG. 7 (c), if the opening / closing lid 17 is removed after discarding the wastewater in the bottle 12, the deposit containing the precious metal deposited therein can be easily recovered. At this time as well, the precipitate can be recovered hygienically.

<Modification example 1 of the baffle plate of the sediment sedimentation separation and recovery device>
FIG. 8 is a vertical cross-sectional view of a cap portion showing a state in which a guide ridge that regulates the flow of wastewater and air is formed on the baffle plate of the first modification.
The baffle plate 16 of the first modification is formed with guide ridges 18 that regulate the flow of wastewater and air. By forming the guide ridges 18 in this way, the wastewater and air flowing in from the intake 14 hit the guide ridges 18 of the obstruction plate 16 attached at an inclination in the cap portion 13, and the guide ridges 18 are lowered and the guide protrusions thereof. It becomes easier to flow along the direction of the strip 18, and wastewater tends to be formed in a spiral shape. As a result, the sedimentation separation distance (time) becomes long and the separation efficiency becomes high.

<Deformation example 2 of the baffle plate of the sediment sedimentation separation and recovery device>
FIG. 9 is a vertical cross-sectional view of a cap portion showing a state in which the baffle plate of Modification 2 is curved and formed.
The obstruction plate 16 of the second modification is a curved shape of the obstruction plate 16 itself. By forming the obstruction plate 16 in a curved manner in this way, the wastewater and air flowing in from the intake port 14 hit the curved obstruction plate 16 and are bent along this shape and flow downward to be smooth in a spiral shape. It becomes easy to flow to.

According to the present invention, the metal can be efficiently recovered from the wastewater of dental treatment by increasing the sedimentation efficiency of the metal without reducing the flow velocity of the wastewater of dental treatment, and the unit of the wastewater treatment system for dental treatment can be efficiently recovered. As long as it can be easily attached to and detached from 51, it is not limited to the above-described embodiment of the invention, and it is needless to say that various changes can be made without departing from the gist of the present invention.

The dental treatment wastewater treatment system and its wastewater treatment method of the present invention are not limited to the recovery of metals generated during dental treatment, and this system and method can be used even when accessory processing using precious metals and when precious metals are contained in wastewater. It can be used.

11 Sedimentation sediment separation and recovery device 12 Bottle 13 Cap part 14 Intake port 15 Discharge port 16 Obstacle plate 17 Opening and closing lid 18 Guide ridge 51 Dental chair unit 53 Vacuum tip 55 Dental suction device 56 Separator 59 Metal recovery device

Claims (5)

A dental treatment wastewater treatment system that recovers metal powder from filth and washing water generated during dental treatment in the dental chair unit (51).
A vacuum tip (53) that sucks waste water containing teeth, metal powder, resin cuttings, saliva, blood, meat pieces, filth such as chemicals, and washing water generated during dental treatment with a dental suction device (55).
With respect to the wastewater and air sucked by the vacuum tip (53), the flow is changed into a downward spiral shape, and the metal powder and tooth fragments contained in the wastewater are settled and separated for recovery . A bottle (12) for sedimentation and recovery, a hemispherical cap portion (13) detachably attached to the upper part of the bottle (12), and an intake port attached to the cap portion (13) for taking in wastewater. (14), the discharge port (15) to be discharged, and the wastewater flowing in from the intake (14) hit with the air, and the flow direction is changed at the upper part of the bottle (12). ), A baffle plate (16) attached at an angle in the horizontal direction with respect to the axial direction in the inflow direction, and a sediment sedimentation separation / recovery device (11).
With respect to the wastewater sucked by the sediment sedimentation separation / recovery device (11), a separator (56) that separates sludge into wastewater contained in metal powder that has not been separated by sedimentation.
A dental treatment wastewater treatment system comprising a metal recovery device (59) for recovering metal powder from the wastewater separated by the separator (56). The dental treatment wastewater treatment system according to claim 1, wherein an opening / closing lid (17) for taking out the sediment deposited therein is provided at the bottom of the bottle (12). The sediment recovery system according to claim 1 or 2, wherein a guide ridge (18) for regulating the flow of wastewater and air is formed on the intake (14) side of the baffle plate (16). .. The sediment recovery system according to claim 1 or 2, wherein the baffle plate (16) is formed so as to be curved so as to project toward the discharge port (15). It is a dental treatment wastewater treatment method for recovering metal powder from filth and washing water generated during dental treatment in the dental chair unit (51).
A hemispherical cap with an inlet (14) and an outlet (15) for wastewater containing tooth, metal, resin cuttings, saliva, blood, meat pieces, filth such as chemicals, and washing water generated during dental treatment. The portion (13) is sucked into the bottle (12) provided at the top, and the portion (13) is sucked into the bottle (12).
This wastewater is made to collide with air with an obstacle plate (16) provided in the cap portion (13) and inclined horizontally with respect to the axial direction of the inflow direction of the intake (14). , Change the flow of this wastewater into a downward spiral shape and guide it,
This wastewater is separated into filth and solid matter such as metal powder in the bottle (12) by prolonging the residence time from the intake port (14) of the cap portion (13) to the discharge port (15). , A dental treatment wastewater treatment method, characterized in that solid matter is settled and wastewater containing filth and washing water is discharged from a discharge port (15) .

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