JP2016093410A - Drying method of plaster tooth model - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a drying method of a plaster tooth model, the method that eliminates problems of the occurrence of deformation, deterioration or cracks and causing a deficit area due to baking, can shorten a drying time, and is secure without causing the problems even if being left for a long time and dried.SOLUTION: A tooth model wet to the inside in moisture is immersed in silica gel granules containing a B-type silica gel and is dried. Preferably, a content of the granules of the B-type silica gel in the granules of the silica gel is 90% by weight or more. Also preferably, the tooth model wet to the inside in moisture is immersed in the silica gel granules so that the silica gel granules of 1 cm or more in thickness may exist on an entire circumference of the tooth model, by wiping off moisture deposited on the surface of the wet tooth model in moisture, and dried. Further preferably, the time while the tooth model is immersed in the silica gel granules may be 20 minutes or more.SELECTED DRAWING: None

Description

  The present invention relates to a method for drying a gypsum dental model used in dental treatment or the like.

  In general, a working model for a dental technician used in dental treatment or the like has recently supported a fixing plate to which a dental model made of gypsum is fixed, a plurality of dowel pins implanted in the fixing plate, and a fixing plate. (For example, FIG. 5 and FIG. 6 of Patent Document 1 [Tooth model 4, fixing plate 2, dowel pin 3, base (support base) 1, connection hole) (Refer to (insertion hole) 5, convex part 6, concave part 7]). The base (support base) 1 is made of, for example, synthetic resin or gypsum, and a plurality of connection holes (dwell pin insertion holes) 5 and a plurality of (columnar) convex portions 6 are provided on the upper surface thereof. The connecting hole (insertion hole) 5 is disposed on the upper surface of the base (support base) 1 with a gap, and the fixing plate 2 is usually made of plaster, and the lower surface has a base ( A plurality of (columnar) concave portions 6 are provided corresponding to the plurality of (columnar) convex portions 1 provided on the upper surface of the support base 1. The above-mentioned columnar convex portions and columnar concave portions are not necessarily columnar, and appropriately shaped convex portions and concave portions are used (for example, reference numerals 13a, 13b, 23a, 23b, etc. in FIG. 3 of Patent Document 2) 14 and 15 of Patent Document 3, see 24, 26, 28, 36, 72D, 36, 38, 40, 78D, 24C, 26C, 28C, 78E, 36C, 38C, 40C, etc.), and concave and convex The portion may have a convex portion provided on the lower surface of the fixing plate and a concave portion provided on the upper surface of the base.

  In the working process of the working model, usually, a dentist or the like casts plaster on a negative tooth model (partial tooth model or full jaw model) taken from the patient's mouth and solidifies it. A dental technician or the like creates the desired prosthetic part, partial denture, full denture, etc. based on the tooth profile model of each patient. For this purpose, a dental technician or the like uses a fixing plate on which the tooth model is fixed and a base (support base) for supporting the fixing plate as described above, and on the upper surface of the fixing plate, A patient's tooth model handed over by a dentist or the like is adhered with an instantaneous adhesive or other appropriate adhesive, and set on a base (support base) for supporting a fixing plate. As shown in Fig. 3, part of the tooth model to be prosthetic is cut out with a saw blade, removed from the base as necessary, adjusted to the desired shape with a trimer, etc. This work is repeated several times while considering the degree of adjustment of the consistency with the tooth profile and the like, and the target shape is finished (see FIG. 6 of Patent Document 2 and how to use [0008] and [0027] of Patent Document 2). 1 in FIG. 1 of Patent Document 3 (cut line) 56, refer to [0047], [0048], etc. of Patent Document 3, and the chain line in FIG. 3 of Patent Document 1, and refer to [0037], FIG. .

  At this time, in adhering the gypsum patient's tooth model given by a dentist or the like to the upper surface of the fixing plate, the surplus portion of the gypsum patient's tooth model is scraped and the height (thickness) is set appropriately. A trimer that cuts the tooth model while spouting water, such as a disc-shaped trimer, is used to make it thicker or flatten the lower surface. The disc-shaped trimmer is a trimmer that cuts the tooth model while spouting water because it tends to generate frictional heat because it sharpens. Furthermore, the tooth profile model processed with the disc-shaped trimmer is washed with water, and then dried, and then the center liner or the like trims the inner and outer lines of the tooth profile model to form a clean curve.

  The patient's dentition model thus obtained is bonded to the upper surface of the fixing plate having the lower surface fixed with the dowel pin using an instantaneous adhesive or other appropriate adhesive. Next, this is set on a base (support base) as described above, and fine processing operations such as cutting with various trimmers (such as a handpiece trimmer) are performed so as to obtain the desired shape.

  In the above process, when the tooth model is shaved with a trimmer, such as a disc-shaped trimer, which spouts water, the gypsum mud and water containing water adheres to the tooth model because water is used. Next, when trimming with a center trimmer, etc., the center trimmer is in the shape of a file such as diamond powder, so gypsum mud adheres to the tooth model, or water penetrates not only to the surface but also to the inside of the tooth model. If it is, the center streamer's file eyes will be blocked and it will not be cut. Therefore, in order to remove the adhering gypsum mud etc., it is usually necessary to wash the tooth model once, wipe off the water droplets adhering to the surface with cloth or paper, etc., and then dry the absorbed moisture to the inside. is there. Further, when the tooth model after shaving with the center streamer is bonded to the upper surface of the fixing plate, it is necessary to keep the tooth model dry inside rather than wet. In other words, if only the surface of the tooth model is dry but the inside is moist, the moisture contained in the tooth model begins to penetrate after bonding the tooth model to the upper surface of the fixing plate, and a little physical This is because even if force is applied, the adhesion may be peeled off.

  The drying at this time employs a conventional method such as drying with a hair dryer, drying with a microwave oven, or drying by placing on an electric furnace.

  In addition, a conventional method that does not use a fixing plate is still in use, and this method uses a gypsum patient's dentition model handed over by a dentist or the like to scrape off the surplus portion so that the height (thickness) is appropriate. For example, a trimer such as a disc-shaped trimer that cuts the tooth model while jetting water is used. Next, in a dry state, the shape of the tooth pattern model is trimmed so that the inner and outer lines of the tooth profile model become clean curves with a center trimmer. On the lower surface of the patient's tooth model itself obtained in this way, dowel pins as described in [0002], [0003] of Patent Document 2 and the right column of pages 2 to 6 of Patent Document 4, are also described. A hole for fixing is opened with a drill or the like, a dowel pin is fixed to the hole with an adhesive, etc., and a dowel pin is directly formed on the lower surface of the tooth model, and the lower surface of the tooth model is directly shaved with a trimer or the like to form a plurality of recesses or Forming a convex part, and then fitting it with a plurality of connecting holes (dwell pin insertion holes) and the plurality of concave parts or convex parts formed on the lower surface of the tooth model as described above. Set on a base (support base) provided with a convex part or concave part, and if necessary, cut out a part of the tooth model with a saw blade and remove it from the base as necessary. Trimmer (handpiece) After adjusting the shape to the desired shape with a trimer, etc., fit it again into the base and study the adjustment of the consistency with the adjacent tooth profile, etc. In order to finish, fine processing such as shaving with various trimmers is performed.

  In the case of such a conventional method as well, since a disc-shaped trimmer is used, water is used at that time, so gypsum mud and moisture adhere to the tooth model, and moisture is absorbed even inside the tooth model. If the center trimmer is trimmed with a center trimmer, etc., the center trimmer will be in the form of a diamond powder. If the gypsum mud adheres to the tooth model or water remains, Even if the dowel pin head is inserted and the dowel pin is bonded and fixed in the hole, a hole is drilled in the lower surface of the tooth model by using a drill. Since the gypsum does not become a powder, it becomes like gypsum mud and accumulates in the hole, making it difficult to remove from the hole. Therefore, the dental model wet with gypsum mud and water is washed once with water, the gypsum mud is removed, water drops adhering to the surface of the dental model are wiped off with cloth or paper, and further dried to the inside of the dental model. It is necessary to keep. For this drying, a conventional method such as drying with a hair dryer, drying with a microwave oven, or drying by placing on an electric furnace as described above is employed. The tooth model once dried is then scraped with a streamer that does not spray water, such as a center trimer in the dry state. However, if the tooth model is dry to the inside, the shaving powder becomes a dry powder. The shaving powder adhering to the model can be removed by blowing off with an air gun or the like. Moreover, also when cutting a tooth profile model partially with a saw blade as mentioned above, if it is not dried to the inside of a tooth profile model, a sharpness will worsen or a defect | deletion part will arise.

JP 2009-100080 A JP 2004-283259 A Japanese Patent No. 5443308 JP 58-116355 A

  However, in conventional drying methods such as drying with a hair dryer as described above, drying with a microwave oven, or drying by placing on an electric furnace, the surface of the tooth model is dry, but the inside of the tooth model is inside. It is difficult to determine whether or not even the moisture soaked in can be removed to the required extent, and if there is a dry defect, the tooth profile model adhered to the upper surface of the fixed plate is in the process of working with the dental technician model as described above. There is a problem of peeling off from the fixed plate. After partial cutting with a saw blade, it is very troublesome to reposition and reattach correctly to the original position that was adhered to the fixed plate, including positioning. Work becomes impossible, and the finished dentures do not fit the patient and become defective. Even if it is removed before partial cutting with a saw blade, extra work such as re-drying, removal of the previous adhesive adhering to the adhesive surface due to re-adhesion, re-adhesion, etc., takes an individual product. For a very busy dental technician who works manually, the work efficiency is greatly reduced.

  If the inside of the tooth model is insufficiently dried, when cutting with a center streamer, the file eyes will be blocked, making it difficult to cut, and as described above, the tooth profile may be partially cut with a saw blade. If the inside of the model is not dried, there is a problem that the sharpness is deteriorated or a defective portion is generated. Furthermore, as described above, when inserting the head of the dowel pin in the conventional method and making a hole in the lower surface of the tooth model with a drill in order to adhere and fix the dowel pin in the hole, it was shaved if the inside of the tooth model was not dry. Since gypsum does not become a powder, it becomes like gypsum mud, and there is a problem that it becomes difficult to be removed from the holes.

Thus, in the conventional and commonly used heating and drying method, the surface of the tooth model is dry, but it takes 4 to 5 hours or more to dry to the inside. If the dentist is urgently raising the heating temperature, heating in a microwave oven, or inadvertently leaving on the heating source for a long time, form a tooth model. The plaster that is deformed or deteriorated by heating and drying, may be cracked, or may have a defect. The reason is not clear, but the molded and solidified gypsum is a dihydrate with a composition of CaSO ₄ · 2H ₂ O, but it is 120 to 150 ° C (some are described as 160 ° C or more depending on the literature) It is presumed that this is also due to the fact that it becomes calcined gypsum (hemihydrate) having a composition of CaSO ₄ · 1 / 2H ₂ O. In addition, the working environment is heated by heating, and there is a problem that the environment at the time of creating a prosthetic portion of a tooth that uses fine nerves or creating a denture is deteriorated.

  An object of the present invention is to provide a safe method for drying a plaster model made of gypsum without the problem of drying by heating as described above. It is another object of the present invention to provide a method for drying a plaster tooth model that does not cause a problem even if it is left to dry for a long time. In addition, the present invention provides a method for drying a gypsum tooth model that is extremely advantageous in terms of cost without greatly increasing the equipment cost due to the increase in size of the equipment even when the tooth model is dried in large quantities.

  In order to solve the above-mentioned problems, the method for drying a tooth model of the present invention is characterized in that (1) a tooth model moistened with moisture is embedded in silica gel granules containing B-type silica gel and dried. To do.

  (2) In the method for drying a tooth profile model of the present invention described in the above (1), the silica gel particles are preferably B-type silica gel particles.

  (3) In the drying method of the tooth model of the present invention described in the above item (1), the content ratio of the B-type silica gel particles in the silica gel particles is preferably 90% by weight or more.

  (4) In the method for drying a tooth model according to any one of the items (1) to (3), moisture attached to the surface of the tooth model wet with water is wiped off, and the tooth model is obtained. It is preferable that the tooth model wet with moisture is embedded in the silica gel granule and dried so that the silica gel granule having a thickness of 1 cm or more exists in the entire circumference of the silica gel.

  (5) In the method for drying a tooth profile model of the present invention according to any one of the items (1) to (4), the time for which the tooth profile model is buried in a silica gel granular material is 20 minutes or more. It is preferable that

  (1) According to the method for drying a tooth model moistened to the inside with the moisture of the present invention, the tooth model is buried in silica gel granules containing B-type silica gel and dried, so it is buried in silica gel granules. It can be dried by leaving it to stand, and compared with the usual heat drying method, it can shorten the drying time extremely, can be dried efficiently, and it tries to dry enough to the inside which is a problem of heat drying, There is a risk that the tooth model will be deformed, altered, cracked, or damaged by adopting a microwave oven or making the heating temperature too high in order to lengthen the heating time or try to dry quickly. Depending on the size of the tooth model to be dried, the minimum required drying time can be easily determined by testing. It can provide a drying method of secure dental cast never quality occurs.

  Moreover, there is no deliquescence due to moisture absorption such as calcium chloride, nor is it alkaline. Also, it reacts with water like quicklime and does not generate high temperature (hundreds of degrees), it is strongly alkaline, and when it touches the operator's skin, it becomes inflamed or inhaled like quicklime powder. It is possible to provide a safe and trouble-free method of drying a tooth model without fear of causing difficulty in breathing. In addition, the used B-type silica gel particles can be reused because they have a function of releasing absorbed moisture into the surrounding atmosphere when the ambient atmospheric humidity decreases. Furthermore, when drying a large amount of tooth model, the equipment cost due to the increase in the size of the equipment does not increase significantly, and a gypsum tooth model drying method that is extremely advantageous in terms of cost can be provided.

  (2) Further, as described in the above item (2), the silica gel particles are substantially composed only of the B-type silica gel particles, so that the relative weight of the silica gel is reduced at a high relative humidity of 90%. About 70% of moisture can be absorbed, and more reliable drying is preferable.

  (3) Further, by setting the content ratio of the B-type silica gel granules in the silica gel granules to 90% by weight or more with respect to the total weight of the silica gel granules, the moisture content of the tooth model is relatively Even if it is high, the tooth model can be efficiently dried, which is preferable.

  (4) In the case of drying the tooth model, after the moisture adhering to the surface of the tooth model wet with moisture is wiped off with cloth or paper, the tooth model wet with moisture to the inside It is preferable that the dental model is uniformly dried and uniformly dried so that the silica gel granular material having a thickness of 1 cm or more exists around the entire model and is dried.

  (5) Moreover, it is preferable that the time when the tooth model is embedded in the silica gel granular material is 20 minutes or more, so that the tooth model moistened with moisture can be almost surely dried.

  The silica gel granules used in the method for drying a tooth model moistened to the inside with the moisture of the present invention may be 100% by weight of B-type silica gel granules, and as long as the object of the present invention is not impaired, You may mix and use A type silica gel granular material. In the case of using a mixture of A-type silica gel granules, the content ratio of the B-type silica gel granules may be in a range that does not impair the purpose of the present invention, and preferably with respect to the total weight of the silica gel granules. It is preferably 90% by weight or more, particularly preferably 95% by weight or more.

  The particle diameter of the silica gel granular material to be used is not particularly limited, and is preferably about 500 μm to 7 mm, more preferably from the viewpoint of good handleability and from the viewpoint of selecting the specific surface area of the silica gel granular material not to be too low. It is about 5 mm to 6 mm, more preferably about 2 mm to 5 mm. Since the silica gel particles are almost spherical but not completely spherical, the above numerical values are values at the maximum diameter of the particles.

  In the present invention, “implanted in silica gel granular material and dried” naturally does not mean that a tooth form model moistened with moisture up to the inside is embedded in the granular material of one silica gel granular material. This means that a tooth model that has absorbed moisture is placed in a collection of objects, and the tooth model is buried in the collection of silica gel particles so that the entire periphery of the tooth model is covered with the silica gel particles.

  In the present invention, the moisture adhering to the surface of the tooth model wet with water is wiped off with cloth or paper, etc., so that the silica gel granular material having a thickness of 1 cm or more exists around the entire tooth model. It is preferable to bury the tooth model in a wet state to the inside of the silica gel granular material. By doing so, the tooth model can be surely dried without unevenness. Here, wiping moisture adhering to the surface of the tooth model wet with moisture with cloth or paper does not require wiping until the surface is dry so that there is no moisture adhering to the surface. The surface of the tooth model may be moistened if it is wiped off as described above so that no water droplets or the like remain. Water droplets etc. may be embedded in the silica gel granular material while it is attached to the surface of the tooth model and dried, but since the drying time will be longer, it is necessary to wipe off the water droplets etc. attached to the surface of the tooth model beforehand. High efficiency and preferable.

  When the tooth model is buried in silica gel granules and dried, the silica gel may be a container capable of embedding the tooth model in silica gel granules under the conditions described above, although there is no particular limitation, To prevent moisture from the surrounding environment outside the container for as long as possible, for example, “Tupperware” (trade name of Tupperware) and other plastic containers with an openable / sealable lid and other metallic containers A container can be applied. In particular, when the humidity in the surrounding environment is abnormally high, it is preferable to use a container having a lid that can be opened and closed and made of a material having a low water permeability such as polyethylene or polypropylene. Of course, the container material is not particularly limited as long as the container can contain silica gel particles and the tooth model can be embedded in the silica gel particles, and may be a container made of ceramics, porcelain or metal, and dried. If the ambient atmosphere when working is not the situation of extra high humidity that is going to be with steam, the indoor environment with normal humidity is not necessary and there is no need for a lid or a paper container may be used. . Of course, even when drying under special high humidity conditions where the surrounding atmosphere is about to be steamed, the tooth model can be dried without a lid as long as it can be dried. May be. In this case, since the silica gel particles absorb unnecessary moisture from the surrounding atmosphere, the drying efficiency tends to be lower than when the lid is covered.

  As described above, since the silica gel particles are simply put in the container, it is possible to easily increase the size and dry a large amount of the tooth model at a time as compared with the heat drying method. ), There is a merit that it is possible to keep the equipment cost very low compared to making the microwave oven large.

  And, in the present invention, the time to be buried in the silica gel granular material varies depending on the use ratio of the B-type silica gel granular material, the wetness of the tooth model, the amount of moisture absorbed inside, etc., but usually 20 minutes It is preferable that it is the above, and it can be dried almost to the inside in about 20 minutes, and it can be dried to the inside in a surprisingly short time compared to the usual drying method that heats from the outside, and the work efficiency is greatly improved. To do.

  By roughly burying the tooth model in the silica gel granule for the above-mentioned time, the inside of the tooth model can be dried without any problem, and even if it remains buried in the silica gel granule for a long time, there is no problem. Does not occur, and there is no fear that the above-described defects occur in the case of heat drying. Therefore, it can be dried with peace of mind, and even if it is inadvertently left buried in silica gel particles for a long time, no problem occurs.

  It is preferable that the silica gel granular material used for drying the tooth model is replaced with a new one when the moisture absorption performance is lowered. When using a small amount of an A-type silica gel particle having an index colored with cobalt chloride or the like, for example, when the blue A-type silica gel particle changes to pink, It becomes a standard that the moisture absorption performance tends to decrease. In addition, when using only B-type silica gel particles that are not colored, the transparency of the B-type silica gel decreases, and when it changes to white, the hygroscopic performance decreases, so replacement or regeneration (moisture absorption) This is a measure of how to recover power. The hygroscopic force can be recovered by a known hygroscopic recovery method corresponding to each of the A type silica gel and the B type silica gel and reused.

  Hereinafter, the present invention will be described by way of examples to facilitate understanding of the present invention. However, the present invention is not limited to these examples, and various modifications can be made without departing from the scope of the present invention. Or it can be modified.

Example 1
1 is a tooth profile model at a stage before being bonded to the fixing plate 6 of the partial tooth profile model 4 shown in FIGS. 1 and 2 of the first embodiment of Japanese Patent No. 5443308, which is trimmed with a disc-shaped trimmer or the like. A tooth model (hereinafter referred to as a “original tooth model”) at the stage where a non-dental dentist created by casting and solidifying a plaster model of a negative tooth model taken from the oral cavity of a patient is disclosed in Japanese Patent No. 5443308. An unnecessary gypsum having a thickness of about 1 cm is further formed on the lower portion of the partial tooth model 4 (length of about 5.5 cm) shown in FIGS. 1 and 2 of the first embodiment. Two such original partial tooth shape models were prepared, and each unnecessary portion having a thickness of about 1 cm was shaved off with a disk-shaped trimer while water was jetted, and the gypsum mud adhering to the surface was removed by washing with water. After wiping off the moisture on the surface of the tooth model with a cloth, prepare two handmade containers of cardboard with inner dimensions of width 3, 5 cm, height 4 cm, and length 7.5 cm (without lid). In one container, (a) 100% by weight of B-type silica gel granules, and in another container (b) a mixture of 90% by weight of B-type silica gel granules and 10% by weight of A-type silica gel granules. It was embedded in the silica gel granules in the container. Here, “Tokai Gel” B-type silica gel manufactured by Tokai Chemical Industry Co., Ltd. as a granular material of B-type silica gel in the above, the moisture adsorption equilibrium value (moisture absorption rate) at 25 ° C. based on JIS Z0701 is 8 at a relative humidity of 20%. "Tokai Gel" A-type silica gel manufactured by the company as a granular material of A-type silica gel, 15% by weight, 15% by weight at 50% relative humidity, 68% by weight at 90% relative humidity, particle size of about 3.1 to 3.3 mm, The moisture adsorption equilibrium value (moisture absorption rate) at 25 ° C. based on JIS Z0701 is 14% by weight at 20% relative humidity, 27% by weight at 50% relative humidity, 37% by weight at 90% relative humidity, and a particle size of about 3.1 to 3.3 mm silica gel granules were used. The tooth model in which the surface moisture is wiped off with the cloth is placed in the silica gel granule so that there is about 1 cm of silica gel in thickness around the entire circumference of the tooth model in each container. After being buried in the plate and allowed to stand for 20 minutes, the shape of the edge around the part to be bonded to the fixing plate of the tooth model was shaved with a center trimmer, and the shape was trimmed, but the eyes of the center trimmer file were blocked. I was able to cut without any problems. After the attached gypsum powder is blown off with an air gun, it is adhered to the fixing plate 6 shown in FIG. 1 and FIG. 2 of the first embodiment of Japanese Patent No. 5443308 with a cyanoacrylate instantaneous adhesive, and the above As described in Japanese Patent No. 5443308 [0047] and [0048], the cutting line 54 includes the fixing plate 6 and is cut with a saw blade. I was able to cut cleanly. After removing the tooth model of one part cut along the cutting line 54 from the remaining part together with the fixing plate 6 and the dowel pin 8, arrange the removed tooth model into the desired shape with the handpiece trimmer, and again, the foundation (support This work was repeated five times on a trial basis while considering the adjustment of the consistency with the adjacent tooth profile by fitting it into the base 10), but the tooth profile model adhered to the fixing plate 6 may be peeled off. There wasn't.

  In addition, in order to test the applicability in the conventional method without using the fixing plate, the tooth model at the stage of bonding to the fixing plate in the above is a hole for fixing the dowel pin without bonding to the fixing plate. The drilled gypsum turned into a powder, and it was easy to remove the gypsum powder from the hole, and it did not become like gypsum mud and became difficult to remove from the hole.

(Example 2)
A dentist that is not yet trimmed with a disc-shaped trimmer, etc., which is a tooth model before being bonded to the fixing plate 6C of the tooth model 4C of the entire jaw shown in FIGS. 12 and 13 of Japanese Patent No. 5443308 Is the lower part of the full denture model 4C shown in FIG. 12 of Japanese Patent No. 5443308, which is made by pouring gypsum into a negative tooth model taken from the patient's oral cavity and solidifying it. Further, unnecessary gypsum having a thickness of about 1 cm is formed. Two such original full jaw models are prepared, each of which is about 1 cm thick, and this unnecessary part is cut out with a disk-shaped trimer while spouting water, and a full jaw model with an arcuate outer circumference of about 14 cm. The adhering gypsum mud was removed by washing with water. After wiping the surface moisture with a cloth, prepare two hand-made containers of cardboard that are larger than the full jaw model in width, height, and length by about 2 cm. In the same manner as in Example 1, (a) 100% by weight of B-type silica gel granules, and (b) 90% by weight of B-type silica gel and A Type silica gel particles were embedded in silica gel granules in a container containing a mixture of 10% by weight. The same type of silica gel as used in Example 1 was used as the type B silica gel and the type A silica gel used.

  The tooth model in which the surface moisture is wiped off with the cloth is placed in the silica gel granule so that there is about 1 cm of silica gel in thickness around the entire circumference of the tooth model in each container. After being buried in the plate and allowed to stand for 20 minutes, the shape of the edge around the part to be bonded to the fixing plate of the tooth model was shaved with a center trimmer, and the shape was trimmed, but the eyes of the center trimmer file were blocked. I was able to cut without any problems. After the adhered gypsum powder is blown away by air gun, it is adhered to the fixing plate 6C with a cyanoacrylate instant adhesive as shown in FIG. 12 of the first embodiment of the patent No. 5443308. As described in Japanese Patent No. 5443308 [0062] and FIG. 13B (showing the bottom surface of the fixing plate 6C), the cutting line 74 includes the tooth model and the fixing plate 6C. Although it was cut, the inside of the tooth model was dried, so it could be cut cleanly without any problems. Remove the tooth model of one part cut along the cutting line 74 from the remaining part together with the fixing plate 6C and the dowel pin 8, arrange the removed tooth model into the desired shape with the handpiece streamer, and again, the base (support This work was repeated five times on a trial basis while considering the adjustment of the consistency with the adjacent tooth profile by fitting it into the base 10), but the tooth profile model adhered to the fixing plate 6C may be peeled off. There wasn't.

  In addition, in order to test the applicability in the conventional method without using the fixing plate, the tooth model at the stage of bonding to the fixing plate in the above is a hole for fixing the dowel pin without bonding to the fixing plate. The drilled gypsum turned into a powder, and it was easy to remove the gypsum powder from the hole, and it did not become like gypsum mud and became difficult to remove from the hole.

(Example 3)
Two substantially rectangular polypropylene containers having a height of 39 mm and vertical and horizontal dimensions of 133 mm were prepared, and one container was the same as that used in Example 1 (a) 100% by weight of B-type silica gel particles, In the other container, prepare the same container as in Example 1 (b) a mixture of 90% by weight of B-type silica gel granules and 10% by weight of A-type silica gel granules, each of which is almost filled. One partial tooth model of the type that adheres to the same fixing plate as used in Example 1 at the stage where the surface moisture was wiped off with the cloth of Examples 1 and 2 in this silica gel granular material and Separate a total of two jaw teeth models that are bonded to the same fixing plate as used in Example 2 so that the shortest approach distance between the partial teeth model and the jaw teeth model is about 2 cm. The shortest contact Even at a short distance, there are silica gel particles each having a width of about 1 cm in the shortest distance direction from the partial tooth model and a width of about 1 cm in the shortest distance direction from the full jaw model, and the partial tooth model and the full jaw model. Silica gel granular material with a width of about 2 cm in total in the direction of the shortest approach distance), one partial tooth model and one full jaw model in each container, and the entire circumference of each tooth model The same effect as in Examples 1 and 2 can be obtained when a total of two tooth models are embedded in silica gel granules so that there are at least about 1 cm of silica gel granules in thickness and left for 20 minutes. Obtained.

Example 4
As in Example 3, two substantially rectangular polypropylene containers having a height of 39 mm and vertical and horizontal dimensions of 133 mm were prepared, and one container was the same as that used in Example 1 (a) B type 100% by weight of silica gel granules, and the same mixture as in Example 1 (b) 90% by weight of B-type silica gel granules and 10% by weight of A-type silica gel granules in each container. Prepare a container filled almost to the full, and form a hole for fixing the same dowel pin as used in Example 1 in which the moisture on the surface was wiped off with the cloth of Examples 1 and 2 in this silica gel granular material. A type that can be drilled directly into the tooth profile model (a type that does not use a fixing plate) and a tie that can be directly drilled into the tooth profile model to fix a dowel pin similar to that used in Example 2 A total of two full-tooth models (one that does not use a fixing plate) are separated so that the shortest approach distance between the partial-tooth model and the full-tooth model is about 2 cm. In the same way as above, it is also possible to embed a total of two tooth models in silica gel particles so that there are at least about 1 cm of silica gel particles around the entire circumference of each tooth model and let it stand for 20 minutes. The same effects as in Examples 1 and 2 were obtained.

Claims (5)

    A method for drying a tooth profile model, comprising drying a tooth profile model moistened with moisture to the inside by immersing it in a silica gel granular material containing B-type silica gel.   2. The method for drying a tooth profile model according to claim 1, wherein the silica gel particles are B-type silica gel particles.   The method for drying a tooth model according to claim 1, wherein the content of the B-type silica gel particles in the silica gel particles is 90% by weight or more.   Wipe off the moisture adhering to the surface of the tooth model wet with moisture, and silica gel granules of the tooth model wet to the inside so that silica gel particles with a thickness of 1 cm or more exist all around the tooth model The method for drying a tooth profile model according to any one of claims 1 to 3, wherein the tooth model is buried and dried.   The method for drying a tooth profile model according to any one of claims 1 to 4, wherein a time for burying the tooth profile model in the silica gel granular material is 20 minutes or more.