KR102567891B1 - Soft mouthpiece for teeth grinding patient - Google Patents

Abstract

The present invention relates to a method of manufacturing a soft mouthpiece for patients with bruxism and a soft mouthpiece manufactured by the method. The soft mouthpiece manufacturing method includes a scanning step of scanning the patient's teeth and gums using a dental scanner; a data processing step of converting the information obtained through the scanning step into data; A tooth modeling step of implementing a three-dimensional shape of a mouthpiece corresponding to the shape of the patient's teeth on a computer based on the data obtained through the data processing step; A 3D printing step of producing a tooth-modeled mouthpiece using silicon as a material using a 3D printer; It consists of a post-processing step to remove foreign substances from the surface of the mouthpiece printed through the 3D printing step.
The soft mouthpiece for bruxism patients of the present invention, which is made as described above, has excellent dimensional precision, maintains a stable bond with the teeth, and is made of soft silicone, so it is thin, does not cause a foreign body sensation, and does not cause strain to the teeth.

Description

Soft mouthpiece for teeth grinding patient}

The present invention relates to a mouthpiece for patients suffering from bruxism. More specifically, since it is molded using a 3D printing method, it has excellent dimensional precision and maintains a stable bond with the teeth. It is made of soft silicone, so it can be manufactured thinly, and there is no foreign body sensation. It relates to a method of manufacturing a soft mouthpiece for patients with bruxism that causes little or no strain on the teeth, and to a soft mouthpiece manufactured by the method.

Bruxism, which involves grinding or clenching one's teeth without one's knowledge while sleeping, is a type of sleep disorder that has a negative impact on the teeth as well as the jaw joint. There are various causes of bruxism, and it is believed to be caused by, for example, stress, lack of nutrition, allergies, metabolic disorders, brain disease, etc.

If bruxism continues, not only will the teeth gradually wear out, but the alignment of the teeth themselves may become misaligned, which can lead to open bite or facial asymmetry, indentations may form on the inner mucous membrane of the tongue or cheek, and abnormalities may occur in the temporomandibular joint, resulting in degenerative osteoarthritis.

In addition to these problems, bruxism also produces noises that make people around you uncomfortable. For example, when several people sleep in one space, if one person grinds their teeth, the sound of teeth grinding disturbs the sleep of many people.

As a device for solving the problem of bruxism described above, a mouthpiece that is worn in the mouth during sleep is known. The mouthpiece is molded from synthetic resin and is placed on the upper and lower teeth before going to bed to protect the teeth.

However, conventional mouthpieces have the disadvantage that the manufacturing process is cumbersome and takes a long time to manufacture. (Production time usually takes more than a week.) For example, to make a mouthpiece, an impression of the patient is taken with rubber or alginate, the shape of the teeth is made with plaster using the impression, and then it is sent to a dental laboratory and made into resin. The mouthpiece must go through several stages of molding and post-processing.

In addition, conventional mouthpieces are made of hard resin and are thick, causing a large foreign body sensation and discomfort when worn. Even if children go to bed while wearing a mouthpiece, they often spit out the mouthpiece unconsciously during sleep.

As a background technology for the bruxism prevention device, Domestic Patent Publication No. 10-1713971 (Snoring and Bruxism Prevention Device) has been disclosed. The disclosed bruxism prevention device includes: a first support member having a flat upper surface and a first support portion supporting only the user's lower front teeth; a second support member formed with a second support portion supporting only the user's upper front teeth and having a flat lower surface; a first locking member protruding from the first support member to the upper side of the first support member; The second locking member protrudes from the second support member to the lower side of the second support member and catches the first locking member, and the second locking member is moved in the front or rear direction of the user to support the first support member and the second support member. It includes a spacing adjustment device that adjusts the front and rear spacing between the user's lower teeth and upper teeth, a first guide frame that is connected to the front part of the first support member and can be held by the user, and a first guide frame that is connected to the front part of the second support member so that the user can Includes a second guide frame that can be grasped.

Domestic Patent Publication No. 10-1713971 (Snoring and bruxism prevention device)

The present invention was created to solve the above problems, and provides a method for manufacturing a soft mouthpiece for patients with bruxism that maintains a stable bond with the teeth with excellent dimensional precision, is thin, does not cause foreign body sensation, and does not cause strain to the teeth, and the method for manufacturing a soft mouthpiece for patients with bruxism. The purpose is to provide soft mouthpieces manufactured by

The method of manufacturing a soft mouthpiece for patients with bruxism of the present invention as a means of solving the problem for achieving the above object includes a scanning step of scanning the patient's teeth and gums using a dental scanner; a data processing step of converting the information obtained through the scanning step into data; A tooth modeling step of implementing a three-dimensional shape of a mouthpiece corresponding to the shape of the patient's teeth on a computer based on the data obtained through the data processing step; A 3D printing step of producing a tooth-modeled mouthpiece using silicon as a material using a 3D printer; It includes a post-processing step to remove foreign substances from the surface of the mouthpiece printed through the 3D printing step.

Additionally, the mouthpiece is; An upper tooth cover that includes wall portions in contact with the inner and outer surfaces of the upper teeth and provides a space portion for accommodating the upper teeth, and a lower tooth cover that has wall portions in contact with the inner and outer surfaces of the lower teeth and provides a space portion that accommodates the lower teeth. , As a process that takes place between the tooth modeling step and the 3D printing step, a gum cover portion that is integrated with the end of the wall portion and can cover the gums when worn is added on the computer, and a gum cover portion is added to the printed mouthpiece. A gum modeling step to form is further included.

In addition, the soft mouthpiece for patients with bruxism of the present invention as a means of solving the problem for achieving the above object includes a scanning step of scanning the patient's teeth and gums using a dental scanner; a data processing step of converting the information obtained through the scanning step into data; A tooth modeling step of implementing a three-dimensional shape of a mouthpiece corresponding to the shape of the patient's teeth on a computer based on the data obtained through the data processing step; A 3D printing step of producing a tooth-modeled mouthpiece using silicon as a material using a 3D printer; It is produced through a post-processing step that removes foreign substances from the surface of the mouthpiece printed through the 3D printing step.

In addition, the soft mouthpiece for bruxism patients of the present invention as a means of solving the problem for achieving the above object has a wall portion in contact with the inner and outer surfaces of the upper teeth, provides a space for accommodating teeth, and is made of silicone through a 3D printer. The manufactured upper tooth cover; It has wall parts in contact with the inner and outer surfaces of the lower teeth, provides a space for accommodating the teeth, and includes a lower tooth cover made of silicone through a 3D printer, and the wall parts of the upper and lower tooth covers have the patient's gums when worn. A gum cover portion that can be adhered to is further formed.

In addition, an excision notch is further formed between the wall portion and the gum cover portion for use when cutting the gum cover portion from the wall portion.

The soft mouthpiece for bruxism patients of the present invention, which is made as described above, has excellent dimensional precision, maintains a stable bond with the teeth, and is made of soft silicone, so it is thin, does not cause a foreign body sensation, and does not cause strain to the teeth.

Figure 1 is a block diagram for explaining a method of manufacturing a soft mouthpiece for patients with bruxism according to an embodiment of the present invention.
Figure 2 is a partially cut perspective view of a soft mouthpiece manufactured using the manufacturing method shown in Figure 1.
FIG. 3A is a cross-sectional view taken along line AA of FIG. 2.
FIG. 3B is a cross-sectional view taken along line BB of FIG. 2.
Figure 4 is a cross-sectional view showing a modified example of a soft mouthpiece according to an embodiment of the present invention.
Figure 5 is a diagram for explaining the operation of a soft mouthpiece according to an embodiment of the present invention.

Hereinafter, one embodiment according to the present invention will be described in more detail with reference to the attached drawings.

Basically, the mouthpiece of the present invention is made by 3D printing silicone, so it is thin and soft. Because it is thin, there is less foreign body sensation, and because it is soft, there is less burden on the teeth.

In the case of the previous mouthpiece made of resin, the mouthpiece itself was thick and hard, so the mouthpiece could not accommodate the movement of the teeth, so there was a burden on the teeth during use and the masticatory muscles often felt tired. Additionally, if the mouthpiece is worn only on the upper or lower teeth, the teeth may rub against the mouthpiece, causing the mouthpiece to break or scratch.

Figure 1 is a block diagram for explaining a method of manufacturing a soft mouthpiece for patients with bruxism according to an embodiment of the present invention.

As shown, the method of manufacturing a soft mouthpiece according to this embodiment includes a scanning step (101), a data processing step (103), a tooth modeling step (105), a gum modeling step (106), and a 3D printing step (107). , including a post-processing step (109).

This manufacturing method applies 3D printing technology, so the total manufacturing time for the mouthpiece only takes a few hours. The production time, which previously took more than a week, can be greatly shortened.

The scanning step 101 is a process of scanning the patient's teeth and gums using a dental scanner. The scanner itself is a common imaging device handled by dentists. The content captured by the scanner is displayed primarily and in real time on the monitor through the software of the scanner equipment itself. Through the monitor, the doctor can check the appearance of the teeth and gums that are currently being scanned.

The data processing step 103 is a step of converting image information obtained through the scanning step into data. Through the data processing step 103, the scanned image information becomes editable by software running the 3D printer.

The tooth modeling step 105 is a process of implementing a three-dimensional shape of the mouthpiece corresponding to the shape of the patient's teeth on a computer, based on the data obtained through the data processing step 103. In other words, the shape of the mouthpiece 10 shown in FIG. 2 is implemented using modeling software. (In FIG. 2, for convenience of explanation, the lower tooth cover 30 is depicted in an excised perspective view, but in reality, it is not excised.

As shown in Figure 2, the mouthpiece 10 is composed of an upper tooth cover 20 and a lower tooth cover 30. In Figure 2, both the upper tooth cover (20) and the lower tooth cover (30) are shown, but depending on the patient's dental condition, if only the upper tooth cover (20) or only the lower tooth cover (30) is needed, that is, the upper tooth cover (20) ) or when producing only the lower tooth cover (30), model only the upper or lower tooth cover.

The 3D printer is driven by modeling software and outputs the shape exactly as it appears on the computer monitor.

The gum modeling step 106 is a process of adding gum cover parts 25 and 27 to the ends of the wall part (23a in Figure 4) displayed on the computer monitor. By adding the gum cover part to the wall, the gum cover part is formed integrally with the actual manufactured product, that is, the upper tooth cover 20 and the lower tooth cover 30.

The gum modeling step (106) is also performed in the same way as the tooth modeling step (105). In other words, the gum information obtained through the scanning step 101 is processed as data, and the data information is driven with modeling software.

The reason why the tooth modeling step (105) and the gum modeling step (106) are performed separately is because there are cases where the gum cover part is not needed depending on the patient's condition. The manufacturing step of the patient mouthpiece, which does not require the gum cover portions 25 and 27, proceeds directly to the 3D printing step (107) after the tooth modeling step (105). In contrast, in order to manufacture a mouthpiece for a patient that requires a gum cover, the tooth modeling step (105) and the gum modeling step (106) are sequentially performed, and then the 3D printing step (107) is performed. An explanation of the gum cover portion will be provided later.

The 3D printing step (107) is the process of actually manufacturing a mouthpiece using silicon as a material using a 3D printer. In particular, the mouthpiece 10 of this embodiment is made of silicone. Silicone is used as a printing raw material for 3D printers. Since silicon is used as a raw material, the thickness of the upper tooth cover (20) or lower tooth cover (30) can be manufactured thinner (at least compared to resin), providing good wearing comfort. Additionally, due to the soft properties of silicone itself, the burden on the teeth is much less (compared to a mouthpiece made of resin).

The subsequent post-processing step 109 is a process of removing foreign substances from the surface of the mouthpiece printed through the 3D printing step. For example, removing unnecessary residual parts remaining on the surface of a printed product and processing the surface to make it smooth.

FIG. 2 is a partially cut perspective view of the soft mouthpiece 10 manufactured by the manufacturing method shown in FIG. 1, FIG. 3A is a cross-sectional view taken along line A-A of FIG. 2, and FIG. 3b is a cross-sectional view taken along line B-B of FIG. 2.

As shown, the soft mouthpiece 10 according to this embodiment includes an upper tooth cover 20 and a lower tooth cover 30. The upper tooth cover (20) is placed on the patient's upper teeth, and the lower tooth cover (30) is placed on the lower teeth. These upper tooth covers 20 and lower tooth covers 30 are printed with silicone and have the elasticity of silicone itself. In other words, it is soft and goes in when bitten, and is restored to its original state when external force is removed. In addition, as shown by the arrow in FIG. 3A, the entrance portion opens when starting to wear, and narrows again after completion of wearing, thereby maintaining an elastic wearing state.

The upper tooth cover 20 includes a wall portion 23a that adheres to the inner and outer surfaces of the upper teeth, and a buffer portion 23b that is integrated with the lower end of the wall portion 23a and covers the lower surface of the upper teeth (chewing surface). has The buffer portion 23b is elastically deformed when the upper and lower teeth occlude and attenuates the impact. The upper tooth cover 20 functions by inserting the upper teeth into the space 20a of the upper tooth cover 20 having the above structure.

The lower tooth cover 30 is fitted on the patient's lower teeth and has a wall portion 33a that contacts the inner and outer surfaces of the lower teeth, and a buffer portion 33b that is integral with the upper end of the wall portion and covers the upper surface of the lower teeth. Installation of the lower tooth cover is completed by inserting the lower teeth into the space portion 30a of the lower tooth cover 30.

In the upper tooth cover 20 and the lower tooth cover 30, the thickness of the wall portions 23a and 33a and the buffer portions 23b and 33b may also be designed differently. This design application can be implemented through software during the data processing step (103) and the tooth modeling step (105).

Figure 4 is a cross-sectional view showing a modified example of the soft mouthpiece 10 according to an embodiment of the present invention.

Referring to Figure 4, it can be seen that the gum cover parts 25 and 27 are formed integrally at the top of the wall parts 23a on both sides of the upper tooth cover 20. The gum cover part 25 connected to the inner wall of the upper tooth cover (the wall in contact with the inner side of the upper teeth) is located in the direction where the palate is located, and the gum cover part 27 connected to the top of the outer wall is located in the direction toward the lips.

These gum cover parts 25 and 27 have a relatively thinner thickness than the wall part 23a and are in close contact with the gums. The gum cover parts 25 and 27 prevent air from entering the space 20a, thereby stably maintaining the installation state of the upper tooth cover 20. For example, this prevents the upper tooth cover 20 from coming off even if the user grinds his or her teeth while sleeping.

In addition, an excision notch (23e) is provided between the wall portions (23a) on both sides and the gum cover portions (25, 27). The cutting notch 23e is an cutting line for tearing off the gum covering parts 25 and 27 when the gum covering parts 25 and 27 are not needed.

In addition, a plurality of cutting notches (25a, 27a) are formed in the gum cover portions (25, 27) themselves. The resection notches (25a, 27a) are parts that are torn off to adjust the width of the gum cover portions (25, 27). In other words, if the area of the gum cover portions 25 and 27 is wider than necessary, some of the resection notches 25a and 27a are torn off to optimize the size of the patient's gums.

Although FIG. 4 illustrates that the gum cover parts 25 and 27 are applied to the upper tooth cover 20, the gum cover parts can be equally applied to the lower tooth cover 30.

Figure 5 is a diagram for explaining the operation of the soft mouthpiece 10 according to an embodiment of the present invention. Figure 5 shows only the upper tooth cover 20 installed. As explained above, depending on the patient's condition, only the lower tooth cover 30 can be installed, or both the upper tooth cover 20 and the lower tooth cover 30 can be installed.

As shown, the buffer portion 23b of the upper tooth cover 20 is interposed between the upper teeth 51 and the lower teeth 53. The upper tooth cover 20 is made of silicone and is elastically deformable, so when the patient bites his teeth hard while sleeping, the buffer portion 23b contracts in the arrow z direction, reducing the burden on the upper and lower teeth.

Mouthpieces made of conventional resin have a hard structure, so the force when the user clenches his teeth is directly transmitted to the teeth and gums. If this habit continues for a long time, temporomandibular joint disorders occur and facial muscles such as masticatory muscles lose strength. I go in. Even if you wear a mouthpiece, it becomes one thing.

Above, the present invention has been described in detail through specific embodiments, but the present invention is not limited to the above embodiments, and various modifications can be made by those skilled in the art within the scope of the technical idea of the present invention.

10: Mouthpiece 20: Upper tooth cover 20a: Space part
23a: Wall portion 23b: Buffer portion 23e: Notch for resection
25: Gum cover part 25a: Notch for excision 27: Gum cover part
27a: Notch for resection 30: Lower tooth cover 30a: Space portion
33a: Wall portion 33b: Buffer portion 51: Upper teeth
53:Lower teeth

Claims (5)

delete delete delete delete An upper tooth cover made of silicone using a 3D printer, which has wall portions in contact with the inner and outer surfaces of the upper teeth and provides a space for accommodating the teeth;
It has wall parts in contact with the inner and outer surfaces of the lower teeth, provides a space for accommodating the teeth, and includes a lower tooth cover made of silicone using a 3D printer,
A gum cover portion that can adhere to the patient's gums when worn is further formed on the wall portion of the upper and lower tooth covers,
Between the wall portion and the gum cover portion, an excision notch is further formed for use when excising the gum cover portion from the wall portion.
Soft mouthpiece for bruxism patients.

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