WO2016178286A1 - Device for manufacturing denture having denture base - Google Patents

Abstract

The present invention pertains to a device for manufacturing a denture having a denture base, the device provides, to a patient in a shorter period of time with more certainty when compared to conventional devices, a denture having a denture base and having fine conformity when being fitted. The present invention includes hybrid-type flask (F) that is a combination between a main body-side flask (F1) of which the upper surface side is an open surface and a cover-side flask (F2) of which the lower surface side is an open surface. The main body-side flask (F1) is formed of a metal that is a material having a large thermal conductivity rate, and the cover-side flask (F2) is formed of a resin or a fiber reinforced resin that is material having a small thermal conductivity rate. A check valve means (V) having an input/output path is inserted and disposed inside the hybrid-type flask (F).

Description

Equipment for making dentures with a floor

The present invention relates to an apparatus for producing a denture with a floor using a hybrid type flask composed of a combination of a main body side flask (lower flask) and a cover side flask (upper flask).

(Introduction)
Various methods have been devised in the field of dentistry and related fields regarding the manufacturing method, materials, and manufacturing equipment for “dentures with floors”, and a considerable number of patent applications have been filed. An explanatory article is also published in a specialized magazine.

(Patent Document 1)
Japanese Patent Laid-Open No. 7-31632 (Patent No. 3293250) discloses an injection-type fiber reinforced plastic (FRP) dental flask in which an acrylic resin bed denture is produced by a microwave polymerization method. Flask) and lower ring (lower flask), a gypsum supply cutout is provided at the center of the flask upper ring, and the cutout can be fixed after tightening the upper and lower rings And a dental flask characterized in that a resin inlet is provided in the frame of the upper ring of the flask.

(Patent Document 2)
In Japanese Patent Laid-Open No. 9-206316, the upper tray (upper flask) is made up of “metal upper tray 1 and resin upper tray 4”, and the middle tray 2 (intermediate flask) is made up of “metal middle tray”. The lower basin 3 (lower flask) is composed of “a lower basin made of metal in which a through-hole for allowing microwaves to permeate is formed in the bottom or whose through-hole is sealed with resin”. A denture base resin polymerization flask is shown.

(Patent Document 3)
Japanese Patent Laid-Open No. 7-80006 (Patent No. 3287372) discloses an injection type fiber reinforced plastic (FRP) dental flask for producing dentures of an acrylic resin bed by a microwave polymerization method. Flask) and a lower ring (lower flask). A gypsum supply cutout is provided at the center of the flask upper ring, and a convex frame is provided on the outer periphery of the cutout. Shown is a dental fiber reinforced plastic flask characterized in that the resin inlet can be fixed.

(Patent Document 4)
The invention disclosed in Japanese Patent Application Laid-Open No. 2008-73229 relates to a pressure polymerizer for technical use used in preparing a resin denture. This document describes a pressure control valve to prevent overpressurization of the polymerization vessel. A coupler with a built-in check valve (a safety valve for a polymerization vessel (pressure cooker) connected by piping with two male and female couplers) There is also a reference. However, the coupler is intended to prevent compressed air from escaping from the pressure vessel or the piping passage when the coupler is removed due to an operation error or the like.

(Patent Document 5)
The invention disclosed in Japanese Patent Application Laid-Open No. 2008-167810 relates to a dewaxing method used in a method for producing a synthetic resin denture base. In the paragraph 0047, there is a description that it is preferable to use a check valve as the relief valve 53, and there is a description that a small-diameter hole discharge nozzle can be used instead of the relief valve. In addition, the relief valve and the check valve in this document are for releasing water vapor at the time of dewaxing.

(Patent Document 6)
The invention of JP-A-11-253464 relates to a denture preparation method by gas injection, in which a denture base resin composition is injected into a mold and the polymerization reaction is completed in the mold.
In the paragraph 0011 (before and after correction), the resin composition is placed in a plaster mold (a sprue is planted at the bottom and a vent is provided at the top) made in accordance with the chin (jaw) mold. There is a description about injecting an inert gas into the inside of a cocoon-like viscous resin composition (denture base) and maintaining the pressure in the course of injecting and proceeding the polymerization.
In Example 1 of paragraph 0013, argon gas was injected into the inside of the resin composition from the sprue portion through a rubber stopper using an injection cylinder equipped with a backflow prevention valve, and the flask was kept at 50 ° C. while maintaining the pressure as it was. There is also a description that after being immersed in a water bath, it was gradually cooled to room temperature.

JP-A-7-31632 (Japanese Patent No. 3293250) JP-A-9-206316 JP 7-80006 (Patent No. 3287372) JP 2008-73229 A JP2008-167810A JP-A-11-253464

(Regarding Patent Documents 1 to 3)
The inventions described in Patent Documents 1 to 3 are as described above, and some of the contrivances of those inventions are still in use today, but the demands are more severe than those at that time. Nowadays, further technological development in this field is desired.

(Regarding Patent Documents 4 and 5)
In Patent Documents 4 and 5, there is a reference to a “check valve” in relation to a denture or a denture base, but it relates to a safety valve for a pressure vessel or a pressurizer, and it is difficult to find a relationship with the present invention.

(Regarding Patent Document 6)
In Patent Document 6, as in Example 1 of the claims and paragraph 0013, a powder liquid mixture of resin powder and liquid vinyl monomer is pressed into a mold in a flask with a pressure injector, After a predetermined time has elapsed since the injection part was retained, argon gas was injected into the resin composition from the sprue part through the rubber stopper using a syringe with a backflow prevention valve, and the pressure was maintained as it was After immersing the flask in a 50 ° C. water bath, the flask is gradually cooled to room temperature.
Although Patent Document 6 describes “holding pressure by gas injection” as described above, its technical idea is fundamentally different from the present invention.

(Object of the present invention)
-1-
There are an extremely large number of patients using dentures, and the higher the age, the higher the denture wearing rate. According to the published 2011 2011 survey of dental diseases, the proportion of partial denture wearers over 65 years old is 43%, and the percentage of complete denture wearers over 65 years old is 26%. Yes, about 70% of people over the age of 65 are wearing either partial or full dentures.
In order for a patient to live a comfortable daily life, it is strongly required to provide a denture with a floor that is suitable for fitting in the mouth and therefore has no sense of incongruity.
-2-
Under such circumstances, the present invention provides a “denture manufacturing apparatus with a floor” that has not been implemented or proposed in the past, thereby enriching the technology in this field and meeting the above requirements. It is for the purpose.
-3-
The concept of the present invention is that a complicated and expensive polymerization apparatus is made by devising the material on the flask on the main body side and the flask on the cover side and devising the means for supplying the bowl-shaped resin to the gap formed by both flasks. It is an object of the present invention to provide a device capable of producing a denture with a floor that is well-suited when a patient wears it, even though it is not used.
The object of the present invention is expressed as “apparatus”, but the “apparatus” includes nuances close to a system or a kit.

The device for producing a denture with a floor according to the present invention comprises:
It consists of a hybrid-type flask (F) comprising a combination of a tray-shaped main body side flask (F1) whose upper surface is an open surface and a tray-shaped cover-side flask (F2) whose lower surface is an open surface. ,
Here, the main body side flask (F1) is made of a metal having a high thermal conductivity, and the cover side flask (F2) is made of a resin having a low thermal conductivity or a fiber reinforced resin. That
The main body side flask (F1) has a gypsum model (G) with a separately prepared wax denture (WD) installed in the recessed portion on the upper surface side through a buried gypsum filling layer (g1). On the other hand, the cover-side flask (F2) is configured so that the gypsum model (G) with the wax denture (WD) is inserted from above the gypsum model layer (g2) for burial. To be used to cover,
Furthermore, as a member for exerting the three functions of supplying the cage-like resin (R) to the void generated by the flowing wax operation for removing the wax from the above state, holding pressure, and preventing the backflow, the above hybrid type Comprising check valve means (V) with an inlet / outlet path to be inserted into the flask (F);
It is characterized by.

If a denture with a floor is produced by using the production apparatus of the present invention, a denture with a floor having a better compatibility at the time of wearing can be provided to a patient more reliably and in a shorter time than conventional ones.

It is explanatory drawing which showed the use condition of the hybrid type flask (F) of this invention which consists of a combination of a main body side flask (F1) and a cover side flask (F2). It is explanatory drawing for showing the structure and effect | action of the non-return valve means (V) for supplying a bowl-shaped resin (R) in a flask (F). It is explanatory drawing which showed the single-sided heating state in a flask (F) when the hybrid type flask (F) of FIG. 1 is used. It is the schematic of a main body side flask (F1) and a cover side flask (F2) when a hybrid type flask (F) is opened among the manufacturing apparatuses of the dentures with a floor of this invention.

Hereinafter, the present invention will be described in detail.

(Hybrid type flask (F))
-1-
The hybrid flask (F) in the present invention comprises a combination of a tray-shaped main body side flask (F1) whose upper surface is an open surface and a tray-shaped cover-side flask (F2) whose lower surface is an open surface.
-2-
Here, the said main body side flask (F1) is comprised with the metal which is a raw material with large heat conductivity.
Aluminum or aluminum alloy is particularly preferable as a material of the main-side flask (F1) of the present invention because it is light and hardly rusts and has an extremely high thermal conductivity (for example, the thermal conductivity of aluminum is 236 W / mK). .
In addition, as a main body side flask (F1), it is also possible to use the thing made from brass (brass), for example. This is because, in the case of a partial denture having a small number of dentures, the flask can be made small, so even if it is made of brass, it is not so heavy.
Incidentally, the thermal conductivity (W / mK) of other general-purpose metals is about 50 to 70 for tin, about 70 to 80 for iron, about 90 for nickel, and about 120 for zinc.
-3-
On the other hand, the cover side flask (F2) is made of a resin having a low thermal conductivity or a fiber reinforced resin (that is, FRP). When the resin and FRP are compared, FRP having a remarkably large strength is optimal for the purpose of the present invention.
The thermal conductivity of FRP is, for example, 0.26 W / mK, which is only about 1/900 of the thermal conductivity of the above aluminum.

(Usage and role of main body side flask (F1) and cover side flask (F2))
-1-
In the denture production process, after taking the mold in the oral cavity (after taking an impression), a gypsum model (G) is produced based on the impression, and then a wax is applied to the gypsum model (G). The wax denture which is the prototype of the denture, that is, a wax denture (WD) is produced.
-2-
The plaster model (G) with the wax denture (WD) is placed in the concave portion on the upper surface side of the main flask (F1), and the operation of applying the gypsum (g2) to the gap is performed several times. The wax denture (WD) formed on the gypsum model (G) is covered with a gypsum (g2) layer, and the cover side flask (F2) is covered from above.
-3-
In this way, after the gypsum (g1) and (g2) wrapping the wax denture (WD) from above and below is hardened, the wax denture (WD) is liquefied and washed away by heating the entire sideways. I do.
By this flowing wax operation, the portion occupied by the wax denture (WD) becomes a cavity. Next, a cage-shaped resin (a mixture of acrylic polymer powder and acrylic monomer liquid prepared separately) ) And heat polymerization is performed.
The heating at this time requires some special contrivance because the polymerization by heating from the main flask (F1) must proceed promptly.
-4-
Therefore, in the present invention, as described above, the main-side flask (F1) is made of a metal having a very high thermal conductivity, while the cover-side flask (F2) is a resin or fiber having a low thermal conductivity. Special measures were taken to use reinforced resin.
-5
As described above, the main-side flask (F1) has a large thermal conductivity, while the cover-side flask (F2) has a low thermal conductivity. Therefore, a hybrid-type flask (F) made of a combination thereof has a bowl-shaped resin ( When the one filled with R) is heated from the main flask (F1), the following special effects are exhibited.
1: From the side of the main flask (F1) having a high thermal conductivity, as shown by the thick arrow pointing upward in FIG. 3, the heating is efficiently performed and the polymerization proceeds promptly, and the polymerization from the mucosal surface of the denture Progresses and the compatibility of the denture (the compatibility between the model surface and the denture mucosa surface) is improved.
2: On the other hand , from the side of the cover side flask (F1) having a low thermal conductivity, the heating slowly proceeds as shown by a thin arrow pointing downward in FIG. The injection pressure of R) is maintained.
3: As a result, polymerization starts from the mucosal surface of the denture, and the compatibility of the denture (compatibility between the model surface and the denture mucosa surface) is improved.

(Check valve means with entry / exit (V))
-1-
In the production apparatus of the present invention, in addition, in order to exert the three functions of supplying the cage-like resin (R) to the void generated by the flowing wax operation for removing the wax from the above state, holding pressure and preventing backflow. As a member, there is provided a check valve means (V) with an inlet / outlet passage which is inserted and arranged from the outside toward the inside of the hybrid flask (F).
The check valve means (V) with an inlet / outlet path is preferably made of a material having a low thermal conductivity in order to delay the polymerization of the sprue part due to heat from the gypsum of the main body side flask (F1).
-2-
As the check valve means (V), for example, those of various mechanisms such as a ball valve in which a ball closes the inlet of the flow path or leaves from the inlet of the flow path depending on the flow direction can be used. The material of the ball in the case of the ball valve is arbitrary, such as plastics, glass, and metal.
-3-
Another example of the check valve means (V) is a door type valve (a flaky valve blocks the flow from one side, but the valve opens for the flow from the opposite direction), with a notch This is a triangular hat-shaped valve (which prevents the flow from the outside of the hat toward the top of the hat but allows the flow from the wide mouth of the hat to the top of the hat through the inside of the hat).
-4-
Among the check valve means (V) illustrated above, the ball valve type is easy to use when comprehensive consideration is given to the simplicity of the structure and the reliability that does not depend on the use condition such as the inclination of the flow path. it can.
-5
Note that the check valve means (V) described above is usually disposable after one use.
-6-
The inlet / outlet path of the check valve means (V) with the inlet / outlet path is usually a tube, but since it serves as a path for the bowl-shaped resin (R), the thermal conductivity is small and It is desirable to have appropriate flexibility, for example, a resin or an elastomer. (If the thermal conductivity is low, the polymerization of the cage resin in the check valve becomes slow, and the polymerization shrinkage can be compensated.)
Examples of resins are polyolefin and polyvinyl chloride, and examples of elastomers are natural rubber, isoprene rubber, chloroprene rubber, nitrile rubber, butyl rubber, ethylene-propylene rubber, acrylic rubber, urethane rubber, silicone rubber, fluorine rubber, etc. is there.

(Principle of check valve means (V) when ball valve is used)
-1-
The principle when the “ball valve” mechanism is adopted as the check valve means (V) is shown in FIGS.
-2-
The meanings of the symbols in FIG. 2 (a) are as follows.
(V1) is a tube-shaped entrance / exit.
(V2) is the ball of the ball valve.
Although (v3) is drawn with a dotted line on the drawing, it is a stopper composed of one bar. Even a single rod can fully serve as a stopper.
The thick line shown inside the entrance / exit (v1) is a short tubular insertion tube (v4). This insertion tube (v4) is a member that plays a role of narrowing the inner diameter of the pipe line that is the tube-like inlet / outlet path (v1).
-3-
In FIG. 2 (a), the flow of the bowl-shaped resin (R) sent from the right side to the left side as indicated by a thick line with an arrow in the tube of the entry / exit path (v1) is caused by a ball-shaped stopper ( v3), the ball (v2) is pushed leftward from the distal end side of the short tubular insertion tube (v4), and there is a gap between the distal end side of the short tubular insertion tube (v4). Occurs.
As a result, the flow path shown by the arc-shaped arrow in FIG. 2A is opened, and the bowl-shaped resin (R) starts to flow as shown in FIG.
-4-
FIG.2 (b) is a case where the cage-shaped resin (R) fills the space | gap part in a flask, and the pressure of the site | part on the left side of FIG.2 (b) increases. At this time, as a result of the force that pushes the ball (v2) to the right side of the figure as shown by the white arrow in the pipe of the entrance / exit (v1), the ball (v2) is opened at the left end of the short tubular insertion tube (v4). The supply of the hook-shaped resin (R) automatically stops.

(Injection pressure and internal pressure)
-1-
In the experiment without the check valve means (V), when the injection pressure is set to about 0.35 MPa, the internal pressure is about 3.5 to 4.0 MPa, and the injection pressure is set to about 0.40 MPa. In such a case, the internal pressure is about 4.3 to 5.0 MPa.
The internal pressure after dehumidification drops to about 2.0 MPa at a stretch and then decreases to about 1 MPa 60 minutes after dewetting.

(Influence of check valve)
-3-
However, in the experiment in which the check valve means (V) is provided, when the injection pressure is set to about 0.35 MPa, the internal pressure becomes a constant value of about 4.3 MPa, and the internal pressure after dehumidification is slow. And about 3.5 MPa. The decline rate is only about 20%.

(Effect of hybrid flask)
-4-
When the hybrid flask in which the rod-shaped resin is injected is immersed in boiling water, the temperature reaches about 70 ° C. where the temperature polymerization of the gypsum model embedded in the metal flask starts about 6 minutes later. The temperature of the filled gypsum was still about 34 ° C., and a temperature difference of about 36 ° C. was subtracted. This is caused by the difference in thermal conductivity between the metal and FRP. It can be seen that polymerization starts from the model side, and is one of the factors that improve the compatibility of the prepared denture.

-5
When the hybrid flask in which the rod-shaped resin is injected is immersed in boiling water for 20 minutes, the gap (compatibility) between the denture base and the model is about 100 μm on average, which is lower than that of general polymerization systems and polymerization methods. The gap between the floor and the model was about 1/2 to 1/4, and the compatibility was excellent.
The improved compatibility of the manufactured denture is due to the synergistic effect of the hybrid flask (F), which is a combination of the cover side flask (F2) and the main body side flask (F1) with different thermal conductivity, and the check valve means (V). Is attributed.

The apparatus for producing a denture with a floor according to the present invention is extremely useful for a patient who needs a complete denture or a partial denture, a dentist, a dental technician, a dental hygienist, and a family of patients. is there.

(F) ... Hybrid type flask (F1) ... Main body side flask (F2) ... Cover side flask (G) ... Gypsum model (WD) ... Wax denture
(V) ... check valve means (R) ... bowl-shaped resin (g1) ... gypsum (g2) ... gypsum (v1) ... (tube-like) entry / exit path (v2) ... (ball valve) ball (v3 ) ... Stopper (v4) ... Insertion tube (U) ... U-shaped groove

Claims (3)

1. It consists of a hybrid-type flask (F) comprising a combination of a tray-shaped main body side flask (F1) whose upper surface is an open surface and a tray-shaped cover-side flask (F2) whose lower surface is an open surface. ,
   Here, the main body side flask (F1) is made of a metal having a high thermal conductivity, and the cover side flask (F2) is made of a resin having a low thermal conductivity or a fiber reinforced resin. That
   The main body side flask (F1) has a gypsum model (G) with a separately prepared wax denture (WD) installed in the recessed portion on the upper surface side through a buried gypsum filling layer (g1). And
   On the other hand, the cover-side flask (F2) is used to cover the gypsum model (G) with the wax denture (WD) from the upper side through the buried gypsum filling layer (g2). Being
   Furthermore, as a member for exerting the three functions of supplying the cage-like resin (R) to the void generated by the flowing wax operation for removing the wax from the above state, holding pressure, and preventing the backflow, the above hybrid type Comprising check valve means (V) with an inlet / outlet path to be inserted into the flask (F);
   A device for producing dentures with a floor.
2. 2. The device for producing a denture with a floor according to claim 1, wherein the check valve means (V) has a check valve mechanism in which a flow path is opened and closed by a ball (v2).
3. A U-shaped groove (d) through which the inlet side of the check valve means (V) with the inlet / outlet passage passes through a portion where the side wall of the main body side flask (F1) and the side wall of the cover side flask (F2) overlap. The device for producing a denture with a floor according to claim 1, wherein: (d) is formed.
   

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