CH701083B1 - Device for the simultaneous détartage and teeth whitening. - Google Patents

Abstract

The invention relates to a device (10) for simultaneous descaling and whitening of teeth under pressure. This device comprises an elongated body (11), equipped at one end with a dispensing pipe (12) of solid descaling and bleaching particles, and closed by a removable plug (13). The elongate body (11) is arranged to contain a descaling and bleaching cartridge (14). The descaling and bleaching cartridge (14) is an independent, interchangeable and disposable element that can be designed for single use or repeated use. It contains a liquid reservoir, for example deionized water or hydrogen peroxide, a tank of solid descaling and bleaching particles, and a source of gas under pressure, called propellant gas. The aspiration of the solid particles from their tank before their projection under pressure in an outlet channel is obtained by a Venturi type element.

Description

       

  The present invention relates to a device for the simultaneous descaling and whitening of teeth, comprising a solid particle reservoir, means for projecting these solid particles in the form of a jet on the teeth and means for generating a jet of liquid in the same zone and substantially in the same direction as the jet of solid particles.

  

Many facilities are known to allow professionals, including dentists, to perform a descaling treatment of the teeth of their patients. In particular, there are devices with rotating brushes that the dentist uses with a special paste containing abrasive particles. There are other devices that have a nozzle to project a mixture of water and abrasive particles on the teeth. One of the displayed features of these equipments is to be able to project a jet of stripping particles, generally mixed with a jet of liquid such as water, in all directions, so as to allow the dentist to reach all the surfaces of the teeth.

   All these devices are fixed stations, connected to water supplies, under pressure from the dental office. Most of these devices have powder supply failures when the practitioner wishes to operate the device in all directions to reach hidden parts of a patient's dentition. In addition, these devices are intended for professional use and no device of this type is suitable for domestic use and is for the general public. They are used by a practitioner for whom the constraints are quite specific such as space, autonomy, supply of powder, water, propellant and electricity as well as the safety of use, maintenance, ease of use and cost.

  

The present invention proposes to overcome the disadvantages of known devices by providing a device suitable for home use and meeting the corresponding specific requirements, that is to say, allowing use by any person at home, having a small footprint, can operate in all directions and is completely autonomous. In addition, this device must require a minimum of maintenance and specialized knowledge, be of a price known as the general public and be easily used while meeting the basic functions, namely effective scaling teeth and their bleaching in a very short time with professional quality while guaranteeing the safety of the user.

  

This object is achieved by the descaling device and the simultaneous whitening of the teeth according to the invention as defined in the preamble and characterized in that the means for projecting the solid particles comprise a reservoir containing a predetermined quantity of these solid particles. , suction means for sucking said solid particles and directing them to a first outlet channel, a source of pressurized gas for sucking and propelling the solid particles of descaling and bleaching under pressure to said first outlet channel, a reservoir containing a liquid, and means for generating a jet of this liquid through a second outlet channel.

  

According to a preferred embodiment of the device of the invention, said first output channel and said second output channel are substantially adjacent and arranged to form a combined jet under pressure of solid particles and liquid.

  

Advantageously, said solid particle reservoir, said source of pressurized gas and said reservoir containing a liquid are mounted in the same housing constituting a disposable descaling and bleaching cartridge.

  

According to the preferred embodiment of the device, said descaling and bleaching cartridge is of the single dose type and contains a dose of solid particles, a liquid dose and a dose of gas under pressure sufficient to perform a descaling treatment.

  

[0008] Advantageously, said descaling and bleaching cartridge is of the single dose type and may contain a dose of stabilized peroxide sufficient to carry out a bleaching treatment.

  

Advantageously, the device comprises a control button arranged to put in communication said source of pressurized gas with a chamber of gas expansion means.

  

Preferably, said chamber of the gas expansion means is defined by a piston movable axially and biased by a return spring.

  

Advantageously, said liquid reservoir comprises a piston which defines a rear chamber connected to the gas source, under pressure through said gas expansion means.

  

According to a first advantageous embodiment, the tank of solid particles of descaling and bleaching comprises a suction tip whose open end is associated with a flyweight, these components being housed in said tank.

  

According to a second advantageous embodiment, the tank of solid particles of descaling and bleaching is associated with a baffled distribution element provided with a suction nozzle.

  

In all embodiments, said suction nozzle is connected to a Venturi type suction element, said Venturi type element being arranged to cause the destabilization of a peroxide.

  

In an alternative embodiment, said element of the Venturi type is integral with the cartridge.

  

Advantageously, the device comprises means arranged to empty the cartridge into said device before its replacement.

  

The present invention and its advantages will be better understood on reading the detailed description of preferred embodiments of the invention, with reference to the accompanying drawings given by way of non-limiting indication, in which:
<tb> fig. 1 <sep> is an exploded perspective view showing the device according to the invention,


  <tb> fig. 2 <sep> is a longitudinal sectional view of the device according to the invention as shown in FIG. 1


  <tb> fig. 3 <sep> is an enlarged axial sectional view of the front part of the device according to the invention, as shown in FIG. 2, in its rest position,


  <tb> fig. 4 <sep> is an enlarged axial sectional view of the front part of the device according to the invention, as shown in FIG. 2, in his working position,


  <tb> fig. 5 <sep> is a cross-sectional view of the device according to the invention illustrating the control button,


  <tb> fig. 6 <sep> is a longitudinal sectional view of an alternative embodiment of the descaling and bleaching cartridge of the device according to the invention,


  <tb> fig. 7 <sep> is a partial view of an alternative embodiment of the device according to the invention equipped with a distribution element regulating solid particles of descaling, and


  <tb> fig. 8 <sep> represents a sectional view of the closure cap of the device according to the invention.

  

With reference to FIGS. 1 and 2, the device 10 according to the invention comprises an elongated body 11, of tubular shape, equipped at its distal end with a distribution pipe 12 for solid particles of descaling and bleaching and at its proximal end with a plug of closure 13, arranged to contain a descaling and bleaching cartridge 14 which will be described in more detail below. The elongated body 11 also contains a connection block 15 which makes it possible to couple the descaling and bleaching cartridge 14 with the distribution tubing 12.

   It will be noted that the descaling and bleaching cartridge 14 is an independent, interchangeable and disposable element that can be designed for a single use or for repeated uses, depending on the capacity that is given to the tanks respectively containing the solid particles of descaling bleaching substances, compressed gas and liquid. This descaling and bleaching cartridge 14 is set up very simply. It slips linearly into the elongate body 11 of the device 10 after the prior removal of the closure cap 13.

   After unitary or multiple use depending on the configuration, the support cap is unscrewed, which causes the disconnection of the power supplies and in particular that of the high pressure, the descaling and bleaching cartridge 14 can be replaced and the device 10 is ready for at least one new descaling operation.

  

The descaling and bleaching cartridge 14, described in more detail with reference to FIG. 2, comprises:
a liquid reservoir 16, for example deionized water or hydrogen peroxide,
a tank of solid descaling and bleaching particles 17, for example sodium bicarbonate powder mixed with a stabilized peroxide, and
a source of pressurized gas 18 which may be called a propellant and which may be carbon dioxide, nitrogen-type neutral gas or a mixture of these gases.

  

In the embodiment shown, the tank of solid particles of descaling 17 and possibly bleaching, contains a suction tip 21 whose open end is associated with a flyweight, having for example the shape of a sphere 22, this nozzle being connected to a suction pipe 23 which conveys the solid descaling particles, for example in the form of a powder or relatively fine granules (100 microns) in the direction of a first channel 24 housed in the dispensing tubing 12. The function of the sphere 22 is to position the end of the suction nozzle 21 in the zone of the tank of solid particles of descaling and bleaching 17 and bleaching, in which is the powder, which whatever the position and inclination of device 10.

   For this purpose, said suction nozzle 21 is flexible, which allows it to adopt all possible orientations under the action of the force of gravity. The suction is obtained by a Venturi type element 25, which will be described later, through the suction pipe 23 which conveys the solid descaling 17 and bleaching particles.

  

This liquid reservoir 16 is equipped with a movable piston 16a, of substantially cylindrical shape, which can slide axially inside this liquid reservoir and which delimits a rear chamber 36. The displacement of the movable piston 16a s by the pressure of gas from the pressurized gas source 18. As a result of this pressure, the movable piston 16a moves by displacing, at a calculated speed, a part of the liquid contained in the reservoir 16 to through a conduit 19 which opens into a second outlet channel 20 housed in the distribution manifold 12.

  

The displacement of the piston 16a, which causes the propulsion of the liquid, is effected under the effect of the pressure exerted by pressurized gas introduced into a chamber 36 formed in the liquid reservoir 16, at the rear of the piston 16a via a conduit 37. The liquid 16 contained in the reservoir may be water, for example deionized water or a mixture of water and peroxides that produce native oxygen at the moment this mixture is propelled on the teeth to cause bleaching or to contribute to bleaching simultaneously with the descaling and bleaching particles which may also contain peroxides having the same function.

  

The element of the Venturi type 25, which in the embodiment illustrated in FIG. 2, is integral with the connection block 15, communicates with the suction pipe 23 which conveys the solid particles of descaling and bleaching, in this case powders, from the tank of solid particles of descaling and bleaching 17. These solid particles are sucked by the Venturi effect and projected by a jet of gas under pressure through said first channel 24. The suction effect by Venturi effect promotes the formation of native oxygen by decomposition of peroxides.

  

The connection block 15 is shown in more detail in FIGS. 3, 4 and 5. It comprises a control button 26 mounted at the end of a rod 27, transverse to the elongated body 11 and which cooperates with a return spring 28 to ensure the return of the control knob 26 after a phase of use of the device 10. The control button 26 is arranged to control the arrival of pressurized gas from the pressurized gas source 18 in a chamber 29 of gas expansion means that may be under in the form of a Carnot nozzle or an expander 30. The chamber 29 is delimited, on one of its faces, by a piston 31 movable axially, biased by a spiral spring 32 which tends to push it towards the right (on Figures 3 and 4).

   When a user presses the control button 26, pressurized gas enters the chamber 29 of the expander 30 and pushes the piston 31 against the force exerted by the return spring 32, to bring the expander 30 from its position of rest (Fig. 3) in its working position (Fig. 4). The supply of pressurized gas is carried out through a piercer-connector 33 which is engaged in a connecting block 34 of a gas cartridge which constitutes the source of gas under pressure 18. This piercer-connector 33 makes it possible to open the gas capsule tightly under high pressure. It is connected to a central tubing 35 which passes through the piston 31 and opens into the chamber 29 of the expander 30. This expansion valve 30 also allows the low-pressure gas (2.5 bar) to be supplied to the Venturi-type element 25 and the rear chamber 36.

  

The device 10 operates as follows: a user presses the control button 26 to allow the pressurized gas to enter the chamber 29 of the expander 30. The expanded gas pushes the piston 16a so that the liquid contained in the reservoir 16 can be ejected through the second channel 20. In the same manner, pressurized gas passes through the Venturi element which sucks solid particles of descaling and bleaching to propel them through the first channel 24. The powder contained in the reservoir 17 is sucked regardless of the position and orientation of the device 10. Note that the operation of this device is fully controlled from the control button 26 and it stops instantly as soon as the user stop pushing this button, thanks to the return spring 28.

   The thruster that activates all functions is the pressurized gas contained in the pressurized gas source 18.

  

In an alternative embodiment of the descaling and bleaching cartridge 14 of the device 10, shown in FIG. 6, the Venturi element 25, connected to the ducts 19 and 21 is integral with said descaling and bleaching cartridge 14. This variant allows to renew this element for each use and to ensure its operation against any risk of fouling.

  

Although the device comprising the sphere 22 works well and meets the requirements imposed, namely a reliable operation regardless of the orientation of the device 10, a variant is proposed which provides another embodiment of solid particle distribution. descaling and bleaching, that is to say, powders or grains. This variant is illustrated in FIG. 7 which essentially represents a reservoir 50 of solid descaling and bleaching particles and a baffled distribution element 51 whose output is connected by a suction nozzle 52 to a Venturi type element 53 mounted in an identical connection block 54 to the connection block 15 described above.

   The baffled distribution element 51 comprises a double series of partitions 55 offset from each other constituting cells completely or partially filled with solid particles of descaling and bleaching continuously supplying the device, by suction of the element of the Venturi type 53.

  

Fig. 8 shows a sectional view of the closure cap 13 of the device 10 according to the invention. This plug has a thread 13a arranged to cooperate with a corresponding thread of the body 11 of the device 10. It is also provided with a central circular bore 13b arranged to cooperate by clipping with a finger 14a formed on the rear face of the cartridge 14. When the cap 13 is put in place, it is screwed onto the elongate body 11 and is clipped on the finger 14a of the descaling and bleaching cartridge 14 which then bears on its connections and thus ensures its tight connection with the means for relaxing the gas. Simultaneously the source of pressurized gas 18 is opened by the piercer-connector 33 in a sealed manner.

   This embodiment also makes it possible to secure the device by avoiding a sudden retreat of the descaling and bleaching cartridge in the event of withdrawal of the closure cap under the effect of a residual pressure in the pressurized gas cartridge. The central bore 13b holds the stopper on the descaling and bleaching cartridge 14 during its unscrewing allowing the latter to retreat, which has the effect of disengaging the connections of the pressurized gas cartridge which can be emptied freely. inside the body 11 of the device safely regardless of the residual pressure of the gas cartridge.

  

This embodiment of the device absolutely guarantees the supply of particles of descaling and bleaching, regardless of the position and orientation of the device.


    

Claims (15)

1. Device (10) for simultaneous descaling and whitening of teeth, comprising a tank of solid particles for descaling and bleaching in the form of divided dry particles, means for projecting these solid particles in the form of a jet on the teeth , and means for generating a jet of liquid in the same zone and substantially in the same direction as the jet of solid descaling particles, characterized in that the means for projecting the solid descaling and bleaching particles comprise a reservoir (17 ;  50) containing a predetermined quantity of said particles, suction means for sucking said solid particles and directing them to a first outlet channel (24), a source of pressurized gas (18) for propelling the solid particles of descaling and pressure bleaching device to said first outlet channel (24), a reservoir (16) containing a liquid and means for generating a jet of this liquid through a second outlet channel (20). 2. Device according to claim 1, characterized in that said first outlet channel (24) and said second outlet channel (20) are substantially adjacent and arranged to form a combined jet under pressure of solid particles of descaling, bleaching and of liquid. 3. Device according to claim 1, characterized in that said tank of solid particles of descaling and bleaching (17; 50), said source of pressurized gas (18) and said liquid reservoir (16) are mounted in a same housing constituting a disposable descaling and bleaching cartridge (14). 4. Device according to claim 3, characterized in that said descaling and bleaching cartridge (14) is of the single dose type and contains a dose of solid descaling particles, a dose of liquid and a dose of gas under pressure sufficient to perform a descaling treatment. 5. Device according to claim 3, characterized in that said descaling and bleaching cartridge (14) is of the single dose type and contains a liquid dose sufficient to perform a descaling treatment. 6. Device according to claim 3, characterized in that said descaling and bleaching cartridge (14) is of the single dose type and contains a dose of gas under pressure sufficient to perform a descaling treatment. 7. Device according to claim 3, characterized in that said descaling and bleaching cartridge (14) is of the single dose type and contains a dose of stabilized peroxide sufficient to perform a bleaching treatment. 8. Device according to claim 1, characterized in that it comprises a control button (26) arranged to put in communication said source of gas under pressure (18) with a chamber (29) of gas expansion means (30). ). 9. Device according to claim 8, characterized in that said chamber (29) of the gas expansion means is defined by a piston (31) movable axially and biased by a return spring (32). 10. Device according to claims 1 and 8, characterized in that said liquid reservoir (16) comprises a movable piston (16a) which delimits a rear chamber (36) connected to the source of gas under pressure (18) by the intermediate of said gas expansion means (30). 11. Device according to claim 1, characterized in that the tank of solid descaling and bleaching particles (17) comprises a suction tip (21) whose open end is associated with a gravity weight (22), these components being housed in said tank. 12. Device according to claim 1, characterized in that the tank of solid descaling and bleaching particles (50) is associated with a baffled distribution element (51) provided with a suction nozzle (52). 13. Device according to claims 11 and 12, characterized in that said suction nozzle (21; 52) is connected to a suction element of the Venturi type (25; 53). said Venturi element being arranged to cause the destabilization of a peroxide. 14. Device according to claim 13, characterized in that the Venturi-type element (25) is integral with the descaling and bleaching cartridge (14). 15. Device according to claim 3, characterized in that it comprises means arranged to empty the cartridge (14) in said device (10) before its replacement.