NO870052L - NOZZLE. - Google Patents

Description

TECHNICAL AREA

The present invention relates to a mouthpiece intended for saliva suction designed as a tube cut obliquely at at least one end that can be inserted into a fixture connected to a suction pump.

BACKGROUND

The use of this type of mouthpiece in dental offices is constantly increasing. In such cases, the mouthpiece can be used both by the dentist and the dental assistant, and the mouthpiece can suck up saliva, water mist from turbine-driven drills and heavier materials such as lumps of amalgam and the like. In order to be able to suck up heavy objects such as lumps of amalgam, the nozzle must be connected to a very powerful suction pump, whose suction power cannot normally be regulated, and which must therefore be dimensioned to comply with maximally unfavorable working conditions. Consequently, the suction force in the mouthpiece is considerable, which can lead to discomfort and irritation for both the dentist and the patient. Consequently, it is not uncommon for the air flowing into the mouthpiece to cause a loud sound which is particularly irritating if the patient's cheeks are set in motion by the inflowing air.

Due to the strong suction power of the mouthpiece, there is also an imminent danger that the mouthpiece can be sucked firmly against the patient's tongue or cheek, so that the mouthpiece is thereby blocked and the suction ability ceases. It goes without saying that this can be uncomfortable for the patient and annoying for the dentist or dental assistant.

PROBLEM STATEMENT

The purpose of the present invention is thus to provide

a mouthpiece of the kind mentioned at the outset, where the mouthpiece is designed so that it improves sound comfort during dental treatment while eliminating the risk of the mouthpiece sticking.

SOLUTION

This purpose is achieved according to the invention if the mouthpiece indicated at the outset is characterized in that it has an opening in its outer surface located near the bevelled end of the mouthpiece.

In a preferred embodiment of the present invention, the opening in the circumferential direction is approximately centered in relation to a longitudinal line on the tube's outer surface, where the line starts from a point on the tube's slanted end opening which is closest to the center of the tube.

As a result of these design features, the great advantage of the mouthpiece is that, with its side facing away from the opening, without risk of being blocked, it can be used to hold the patient's cheek away during the treatment.

The object of the invention is also suitably characterized by the opening being so close to the beveled end opening of the mouthpiece that it is covered by the attachment if this end of the mouthpiece is inserted into it.

With these design features, the advantage is achieved that the nozzle, if both ends are beveled, is reversible so that in one position inserted in the fixture, the side opening is blocked, while the side opening is exposed when the opposite end of the nozzle is inserted into the fixture.

Further advantages are achieved if the object of the invention is given one or more of the characterizing features according to patent claims 4 and 5.

BRIEF DESCRIPTION OF THE ATTACHED DRAWING

The nature and aspects of the present invention will appear more clearly from the following brief description of the attached drawing and the discussion thereof.

In the attached drawing shows

fig. 1 a first embodiment of the mouthpiece according to the present invention inserted in a fixture which is shown by means of dashed lines,

fig. 2 shows the nozzle according to fig. 1 turned 90° about its longitudinal axis, and

fig. 3 shows a modified version of the nozzle, set

from the same direction as the nozzle in fig. 2.

DESCRIPTION OF THE PREFERRED EMBODIMENT

From fig. 1 it appears that the nozzle according to the present invention has the form of a mainly cylindrical tube 1,

which in at least one end 2, but preferably also in its other end 3, is obliquely cut in relation to the longitudinal axis of the pipe. In practice, the bevel cutting angle can be up to approx. 45°, but it can of course be larger or smaller as desired.

In practice, the tube 1 is made of a plastic material and it can have an outer diameter in the size range from 9 to 16 mm, while its material thickness can suitably be approx. 1 mm. The total length of the mouthpiece can be from 10 to 18 cm.

It is further apparent from the drawing that the nozzle at one end near the slanted end 2 has an opening 5 which, in the embodiment shown, is a V-shaped recess cut straight through the wall of the tube in a direction that is at right angles to the longitudinal axis of the tube. The opening 5, which is seen in fig. 1, can naturally have a cross-section different from the described V-shape, and can thus be approximately U-shaped, rectangular or even undercut in shape.

Irrespective of the design of the opening 5, it is very easy to arrange the opening by, at the same time as the pipe's one bevelled end is cut, to move a recess knife together with the cutting knife in a direction that is at right angles to the longitudinal axis of the pipe, so that the opening is thereby cut through the material of the pipe body. If in this way the recess knife has an edge whose tip in the direction of movement of the knife is closest to the pipe's center line, then the part of the pipe wall that is cut away will be bent outwards from the pipe so that the occurrence of contamination or "burrs" inside the pipe is avoided.

It appears from fig. 2 how the recess 5 cut out from the pipe across its longitudinal direction will be lens-shaped, seen in a direction that deviates by 90° from the pipe's longitudinal direction in relation to that which applies to fig. 1.

In the circumferential direction, the recess or opening 5 must be placed at the edge part 6 of the bevelled end opening 2 which is closest to the center of the tube 1. The construction should be symmetrical, so that the opening 5 is approximately centered on a line along the pipe starting from a point on the edge part 6 located closest to the center of the pipe.

In the longitudinal direction, the opening 5 is positioned in such a way that the distance to the edge part 6 is so small that the opening 5 can be masked by the attachment 4 if the end of the mouthpiece which is equipped with the opening is inserted into the attachment. The result is a nozzle which is beveled at both ends, but which is equipped with the opening 5 at only one end which can optionally be turned in the attachment so that the opening 5 is either exposed or hidden.

According to the invention, it is of course also possible to arrange the pipe 1 with openings 5 at both ends, and in such a case it is absolutely necessary that the openings 5 are placed so that they can be masked by the attachment 4.

If only one opening 5 is arranged, it is of course also possible to align this opening away from the slanted opening 2, so that it can in principle be located anywhere along the pipe 1.

Practical tests have shown that the free area of the opening 5 should not be so large that the flow pattern around the beveled end 2 of the nozzle is significantly affected. At the same time, of course, the opening 5 must be so large that, for example, the patient's cheek cannot be sucked firmly to the obliquely cut opening 2, even if this is located very close to the cheek. A suitable adaptation of the area of the opening 5 is achieved if the area is chosen in the range from 15 to 40% of the internal cross-sectional area of the pipe itself.

As indicated above, the side of the mouthpiece facing away from the opening 5 can be used, for example, to push the patient's cheek to the side. In order for the opening 5 not to be blocked or sucked firmly against the cheek in such a case, the extent of the tube in the circumferential direction and of course also the radial depth of the opening 5 are important. Naturally, matters relating to material strength come into play here, since too deep a recess 5 will of course weaken the end of the nozzle in an unacceptable way. In practice, it has been shown that the radial depth of the opening 5 as shown in fig. 1, should lie in the range between 15 and 40% of the pipe's diameter. This design also gives the opening 5 a suitable extent in the circumferential direction of the pipe.

DESCRIPTION OF MODIFIED EMBODIMENT

Fig. 3 shows a modified embodiment of the present invention where the modification lies in the opening 5 being replaced by two openings 7 placed approximately side by side along a circumferential line of the pipe. Regarding the location of these openings 7, reference is made to the description above regarding the opening 5.

Although fig. 3 only shows the use of two openings, of course a larger number can also be used, where in this case these can be placed both along lines in the pipe's circumferential direction and in the pipe's longitudinal direction. Of course, several rows of such openings 7 can be arranged. The total area of these openings should be between 15 and 40% of the pipe's internal cross-sectional area.

Naturally, it applies to all embodiments of the object of the present invention that its edges must not be sharp, and this applies to both the edges of the openings 5, 7 and the edges of the slanted openings.

As regards the profile of the end opening 2, this can be flat or straight as shown in the drawing. However, it can also be made with a toothed, wavy or bent profile. In the latter case, it is only necessary to ensure that the design is single-curved so that it can be made by means of a knife which is guided across the longitudinal axis of the tube and is used to cut the individual tubes from a longer, continuous, extruded tube body.

It should also be pointed out that the knife or cutting tool used to create the transverse opening 5 does not need to be guided at right angles to the longitudinal axis of the pipe, but it is sufficient that the knife movement is approximately across the longitudinal axis, if the longitudinal axis of the opening or recess 5 is allowed to have an angle with the pipe's longitudinal axis.

Finally, it is not necessary for the pipe to be cut off at the same time as the opening 5 is formed. Instead, these two operations can advantageously be performed at different times, i.a. to reduce material stress in the pipe during the cutting operation. Naturally, the two blades used do not have to move parallel to each other either, but their paths can form an angle with each other, even a right angle with each other, and their directions of movement can be opposite.

Further modifications of the invention can be made within the framework of the subsequent patent claims.

Claims (5)

1. Mouthpiece for saliva suction designed as a tube (1) with at least one end (2) bevelled, where the tube can be inserted into a fixture (4) connected to a suction pump, characterized in that the pipe (1) has an opening (5, 7) in its outer surface, where the opening is located near the bevelled end (2, 3). 2. Mouthpiece according to claim 1, characterized in that the opening (5, 7) in the circumferential direction of the tube (1) is positioned approximately centered in relation to a longitudinal line on the outer surface of the tube, where this line starts from a point on the beveled the edge (6) of the end opening (2, 3) which is located closest to the middle of the pipe. 3. Nozzle according to claim 1 or 2, characterized in that the opening (5, 7) is placed so close to the slanted end opening (2, 3) that it can be masked by the attachment (4) if the nozzle cooperates with said attachment with this end. 4. Nozzle according to one of the preceding claims, characterized in that the through-flow area of the opening (5, 7) is approximately 15-40% of the internal cross-sectional area of the pipe. 5. Mouthpiece according to one of the preceding claims, characterized in that the opening (5, 7) has the form of a V-shaped or U-shaped recess which, in a direction at right angles to the longitudinal axis of the tube (1), is cut through part of the pipe's outer surface, and where the radial depth of this recess is from 15 to 40% of the pipe's diameter.