KR100806750B1 - 3 dimensional dna spiral brush and tooth brush - Google Patents

Abstract

Three-dimensional DNA spiral brush and toothbrush are provided to improve removal efficiency of the foreign elements since the brush is moved in horizontal and vertical directions though a user applies a horizontal directional power to the brush. A three-dimensional DNA spiral brush teeth includes: a brush root receiving part(30) having plural brush root grooves(40) for receiving brush roots; and a three-dimensional spiral brush(10) received into the brush root receiving grooves. The brush has a spiral shape with an angle of 5 to 45 degrees. The spiral shape of the brush can be formed in a DNA right spiral shape, a DNA left spiral shape, or a mixed shape of the DNA right and left spiral shapes.

Description

3D DNA Spiral Brush and Tooth Brush

1 is a perspective view schematically showing a three-dimensional DNA left helical brush according to the present invention.

FIG. 2 is an enlarged view of a part of the brush hair according to the three-dimensional DNA left helical brush of FIG. 1. FIG.

Figure 3 is a perspective view schematically showing a three-dimensional DNA right spiral brush in accordance with the present invention.

Figure 4 is an enlarged view of the part of the brush hair according to the three-dimensional DNA right spiral brush of Figure 3;

Figure 5 is a perspective view schematically showing a three-dimensional DNA mixing spiral brush in accordance with the present invention.

FIG. 6 is a partially enlarged view of a bristle according to the three-dimensional DNA mixed helical brush of FIG. 5. FIG.

Figure 7 is a perspective view schematically showing a three-dimensional DNA left helical toothbrush in accordance with the present invention.

8 is a perspective view schematically showing a three-dimensional DNA right helical toothbrush according to the present invention.

Figure 9 is a perspective view schematically showing a three-dimensional DNA mixed spiral toothbrush according to the present invention.

10 is a plan view schematically showing an embodiment according to the three-dimensional left helical toothbrush of FIG. 7.

Figure 11 is a plan view schematically showing an embodiment according to the three-dimensional DNA right helical toothbrush of Figure 8;

Figure 12 is a plan view schematically showing an embodiment according to the three-dimensional DNA mixed helical toothbrush of Figure 9;

    <Brief description of reference numerals for the main parts of the drawings>

1: three-dimensional DNA left helical brush 2: three-dimensional DNA left helical brush

3: three-dimensional DNA blend helical brush 10: three-dimensional DNA left helical brush

20: 3-D DNA raised spiral hairline 30: hair root receptor

40: hair root groove 50: handle

The present invention relates to a three-dimensional DNA spiral brush and a toothbrush, and more particularly, by forming the shape of the brush hair in a three-dimensional DNA spiral, even if a force in the left and right directions to the brush hair, the brushing direction is in the vertical direction at the same time as the left and right directions Since it is moved to increase the efficiency of removing foreign matters for the same force, by using the right or left helix or a combination of the combination of the shape of the brush hair to make a brush and toothbrush, the surface and teeth containing the foreign matter The present invention relates to a three-dimensional DNA spiral brush and a toothbrush that can remove the brushing or brushing process in the vertical direction to remove foreign substances in between.

In general, brushes including cleaning devices and toothbrushes for cleaning the structures are used to remove foreign matter from surfaces and gaps containing foreign matter. In the case of toothbrushes, they are generally located in the area where the teeth and gums are in contact. The toothbrush is applied to the left and right directions about two to three teeth, and the same is applied to the chewing upper surface of the tooth, and the toothbrush is moved to the left and right directions.

However, the foreign matter could not be easily removed when it is not moved by applying a force in the vertical direction, which is an operation for removing the foreign matter according to the brushing as described above, since the hair of the brush and the toothbrush has a straight shape. The brushing method in the left and right directions had a problem such that foreign matter remained.

The present invention has been made in order to solve the above problems, by forming the shape of the brush hair in a three-dimensional DNA spiral, even if the left and right forces are applied to the brush hair, the brushing direction is moved in the vertical direction at the same time as the left and right directions The efficiency of removing the substance with respect to the force can be increased, and the shape of the bristles is formed between the right helix, the left helix, or a mixed form using the same, so that the brush and the toothbrush are sandwiched between the surface containing the foreign matter and the teeth. An object of the present invention is to provide a three-dimensional DNA spiral brush and toothbrush that can remove the brushing or brushing process in the vertical direction to remove foreign substances.

In order to achieve the object as described above, the present invention includes a hair root receiving portion in which a plurality of hair root grooves are formed to accommodate the hair root; It includes; three-dimensional DNA spiral hairs accommodated in the hair root groove.

And, the spiral shape of the bristles is characterized in that the DNA can be formed in a spiral shape.

In addition, the spiral shape of the brush hair is characterized in that it can be formed in the form of a DNA left helix.

Here, the spiral shape of the bristles may be formed by mixing a DNA right helix shape and a DNA left helix shape.

In addition, the spiral angle of the bristles is characterized in that formed at an angle of 5 ° to 45 °.

In addition, the number of bristles is characterized in that formed in the number of 50 to 1000.

In addition, the number of hair root grooves arranged in the length and width of the hair root accommodation portion is characterized in that formed between 1 to 10.

On the other hand, the hair root receiving portion is formed a plurality of hair root groove for receiving the hair root; And three-dimensional DNA helical bristles accommodated in the hair root grooves.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a three-dimensional DNA left helical brush in accordance with the present invention, Figure 2 is a partial enlarged view of the brush hair according to the three-dimensional DNA left helical brush of FIG. As shown in the figure, the three-dimensional DNA left helical brush 1 according to the present invention accommodates the hair roots so that the hair roots of the hair hair according to the three-dimensional DNA left helical brush 1 are planted. A plurality of hair root grooves 40 are formed for the purpose, and the hair root grooves 40 are formed to include a hair root accommodation portion 30.

Here, the three-dimensional DNA left helical bristle 10 accommodated in the hair root groove 40 of the hair root receiving unit 30 is formed in a DNA left helix shape, and has a spiral shape of the three dimensional DNA left helical bristle 10. The angle is formed at an angle between 5 ° and 45 ° based on the perpendicular angle in the vertical direction.

In addition, the hair root groove 40 for accommodating the hair root of the three-dimensional DNA left helical hair 10 is formed between 1 to 10 in the horizontal and vertical directions of the hair root accommodation portion 30, the hair root groove 40 Since the number of) varies in thickness depending on the type of the brush to which the three-dimensional DNA helical bristle 10 is applied, it is preferable not to exceed 10. When the thickness does not change depending on the type, it is also preferable that more than 10 planted a plurality, and according to the size of the hair root receiving portion 30, the thickness of the three-dimensional DNA spiral bristle 10 or the hair root groove 40 ) Can also be changed.

The number of the three-dimensional DNA left helical hair 10 implanted in each individual hair root groove 40 is generally applied in a predetermined number of units, but the three-dimensional implantation in each individual hair root groove 40 is performed. The number of DNA left helical bristles 10 is preferably applied in random numbers.

In addition, the number of the three-dimensional DNA left helical bristles 10 implanted in all the hair root grooves 40 of the hair root receiving portion 30 is formed in a number of 50 to 1000, the number of the hair root receiving portion 30 It is also preferable to change the size and the thickness of the three-dimensional DNA left helical bristles (10).

And, the end of the three-dimensional DNA left helical bristle 10 is preferably formed in a hemispherical shape, the shape of the end can be formed in a straight or tapered shape or the like.

At this time, the length of the three-dimensional DNA left helical bristle 10 is preferably formed to have a predetermined length, the length of the three-dimensional DNA by changing the length according to the shape of the surface on which the left helical brush (1) is used It is also preferable to form the upper surface of the left helical sole 1 in a curve so as to correspond to the shape of the surface rather than a straight shape.

3 is a perspective view schematically showing a three-dimensional DNA right helical brush in accordance with the present invention, Figure 4 is a partial enlarged view of the brush hair according to the three-dimensional DNA right helical brush of FIG. As shown in the figure, the three-dimensional DNA right helical brush 2 according to the present invention accommodates the hair roots to plant hair roots of the hair roots according to the three-dimensional DNA right helical brush 2. A plurality of hair root grooves 40 are formed for the purpose, and the hair root grooves 40 are formed to include a hair root accommodation portion 30.

Here, the three-dimensional DNA right helical bristles 20 accommodated in the hair root groove 40 of the hair root receiving unit 30 are formed in a DNA right helix shape, and the spiral shape of the three dimensional DNA right helical bristles 20 is formed. The angle is formed at an angle between 5 ° and 45 ° based on the perpendicular angle in the vertical direction.

In addition, the hair root groove 40 for accommodating the hair root of the three-dimensional DNA right helical hair brush 20 is formed between 1 to 10 in the horizontal and vertical directions of the hair root receiving portion 30, the hair root groove 40 Since the number of c) varies in thickness depending on the type of the brush to which the three-dimensional DNA spiral bristle 20 is applied, it is preferable not to exceed 10, but the number of the brush to which the three-dimensional DNA spiral bristle 10 is applied When the thickness does not change depending on the type, it is also preferable that more than 10 planted a plurality, and according to the size of the hair root receiving portion 30, the thickness of the three-dimensional DNA spiral bristle 10 or the hair root groove 40 ) Can also be changed.

In addition, the number of the three-dimensional DNA raised spiral hair 20 which is implanted in each individual hair root groove 40 is generally applied in a predetermined number of units, the three-dimensional planted in each individual hair root groove 40 The number of DNA raised spiral bristles 20 is preferably applied in random numbers.

In addition, the number of the three-dimensional DNA right helical bristles 20 implanted into all the hair root grooves 40 of the hair root accommodation portion 30 is formed in a number of 50 to 1000, the number of the hair root accommodation portion 30 It is also preferable to change the size and the thickness of the three-dimensional DNA raised spiral bristles (20).

In addition, an end portion of the three-dimensional DNA helical bristle 20 is preferably formed in a hemispherical shape, and the shape of the end portion may be formed in a straight or tapered shape.

At this time, the length of the three-dimensional DNA raised spiral bristle 20 is preferably formed to have a predetermined length, the length of the three-dimensional DNA is modified by changing the length according to the shape of the surface used the spiral brush (2) It is also preferable to form the upper surface of the right helical sole 2 in a curve so as to correspond to the shape of the surface rather than a straight shape.

5 is a perspective view schematically showing a three-dimensional DNA mixing spiral brush according to the present invention, Figure 6 is a partial enlarged view of the hair brush according to the three-dimensional DNA mixing spiral brush of FIG. As shown in the figure, the three-dimensional DNA mixed helical brush 3 is formed by alternating the three-dimensional DNA left helical brush 10 of FIG. 1 and the three-dimensional DNA right helical brush 20 of FIG. do.

The three-dimensional DNA mixing spiral brush 3 according to the present invention has a plurality of hair root grooves 40 for accommodating the hair roots so as to plant hair roots of the hair follicles according to the three-dimensional DNA mixing spiral brush 3. ) Is formed, and comprises the hair root receiving portion 30 in which the hair root groove 40 is formed.

Here, the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 which are accommodated in the hair root groove 40 of the hair root accommodation portion 30 are formed in the shape of the DNA left helix and the DNA right helix. The helical angles of the 3D DNA left helical bristle 10 and the 3D DNA right helical bristle 20 are formed at an angle between 5 ° and 45 ° based on a perpendicular angle in the vertical direction.

In addition, the hair root groove 40 for accommodating the hair roots of the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 is 1 to 10 in the horizontal and vertical directions of the hair root accommodation portion 30. The number of hair root grooves 40 is greater than 10 because the thickness varies depending on the type of the brush to which the 3D DNA left helical bristle 10 and the 3D DNA right helical bristle 20 are applied. Although not preferred, if the thickness does not change depending on the type of the brush to which the three-dimensional DNA spiral bristle 10 is applied, it is also preferable that more than 10 planted a plurality of hairs, The thickness of the three-dimensional DNA spiral hair 10 or the number of hair root grooves 40 may be changed according to the size.

In addition, the number of the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 which are implanted in each individual hair root groove 40 is generally applied in a predetermined number of units, but the individual hair roots The number of the three-dimensional DNA left helical bristles 10 and the three-dimensional DNA right helical bristles 20 implanted into the grooves 40 is preferably applied in a random number.

In addition, the number of the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 which are implanted in all hair root grooves 40 of the hair root accommodation part 30 may be formed in a number between 50 and 1000. The size of the hair root receiving portion 30 and the thickness of the three-dimensional DNA left helical bristle 10 and the three-dimensional DNA right helical bristle 20 may be changed.

And, the ends of the three-dimensional DNA left helical bristle 10 and the three-dimensional DNA right helical bristle 20 are preferably formed in a hemispherical shape, the shape of the end can be formed in a straight or tapered shape or the like.

At this time, the length of the three-dimensional DNA left helical bristle 10 and the three-dimensional DNA right helical bristle 20 are preferably formed to have a predetermined length, but the shape of the surface on which the three-dimensional DNA mixed spiral brush 3 is used. By changing the length according to the upper surface of the three-dimensional DNA mixing spiral brush (3) is also preferably formed in a curve so as to correspond to the shape of the surface rather than a linear shape.

6 is a perspective view schematically showing a three-dimensional DNA left helical toothbrush according to the present invention. As shown in the figure, the three-dimensional DNA left helical toothbrush according to the present invention is formed with a plurality of hair root grooves 40 for accommodating the hair roots so as to plant hair roots of the hair follicles. It comprises a hair root receiving portion 30, the groove 40 is formed, and a handle 50 for connecting the hair root receiving portion 30.

Here, the three-dimensional DNA left helical bristle 10 accommodated in the hair root groove 40 of the hair root receiving unit 30 is formed in a DNA left helix shape, and has a spiral shape of the three dimensional DNA left helical bristle 10. The angle is formed at an angle between 5 ° and 45 ° based on the perpendicular angle in the vertical direction.

In addition, the hair root groove 40 for accommodating the hair root of the three-dimensional DNA left helical hair 10 is formed between 1 to 10 in the horizontal and vertical directions of the hair root accommodation portion 30, the hair root groove 40 Since the number of) varies in thickness depending on the type of the brush to which the three-dimensional DNA helical bristle 10 is applied, it is preferable not to exceed 10. When the thickness does not change depending on the type, it is also preferable that more than 10 planted a plurality, and according to the size of the hair root receiving portion 30, the thickness of the three-dimensional DNA spiral bristle 10 or the hair root groove 40 ) Can also be changed.

The number of the three-dimensional DNA left helical hair 10 implanted in each individual hair root groove 40 is generally applied in a predetermined number of units, but the three-dimensional implantation in each individual hair root groove 40 is performed. The number of DNA left helical bristles 10 is preferably applied in random numbers.

In addition, the number of the three-dimensional DNA left helical bristles 10 implanted in all the hair root grooves 40 of the hair root receiving portion 30 is formed in a number of 50 to 1000, the number of the hair root receiving portion 30 It is also preferable to change the size and the thickness of the three-dimensional DNA left helical bristles (10).

And, the end of the three-dimensional DNA left helical bristle 10 is preferably formed in a hemispherical shape, the shape of the end can be formed in a straight or tapered shape or the like.

At this time, the length of the three-dimensional DNA left helical brush 10 is preferably formed to a predetermined length, the length of the three-dimensional DNA left helical toothbrush by modifying the length according to the shape of the surface used is the three-dimensional DNA left helical toothbrush. It is also preferable to form the upper surface of the curved to correspond to the shape of the surface rather than a straight shape.

7 is a perspective view schematically showing a three-dimensional DNA right helical toothbrush according to the present invention. As shown in the figure, the three-dimensional DNA raised spiral toothbrush according to the present invention is formed with a plurality of hair root grooves 40 for accommodating the hair roots so as to plant hair roots of the hair follicles. It comprises a hair root receiving portion 30, the groove 40 is formed, and a handle 50 for connecting the hair root receiving portion 30.

Here, the three-dimensional DNA right helical bristles 20 accommodated in the hair root groove 40 of the hair root receiving unit 30 are formed in a DNA right helix shape, and the spiral shape of the three dimensional DNA right helical bristles 20 is formed. The angle is formed at an angle between 5 ° and 45 ° based on the perpendicular angle in the vertical direction.

In addition, the hair root groove 40 for accommodating the hair root of the three-dimensional DNA right helical hair brush 20 is formed between 1 to 10 in the horizontal and vertical directions of the hair root receiving portion 30, the hair root groove 40 Since the number of c) varies in thickness depending on the type of the brush to which the three-dimensional DNA spiral bristle 20 is applied, it is preferable not to exceed 10, but the number of the brush to which the three-dimensional DNA spiral bristle 10 is applied When the thickness does not change depending on the type, it is also preferable that more than 10 planted a plurality, and according to the size of the hair root receiving portion 30, the thickness of the three-dimensional DNA spiral bristle 10 or the hair root groove 40 ) Can also be changed.

In addition, the number of the three-dimensional DNA raised spiral hair 20 which is implanted in each individual hair root groove 40 is generally applied in a predetermined number of units, the three-dimensional planted in each individual hair root groove 40 The number of DNA raised spiral bristles 20 is preferably applied in random numbers.

In addition, the number of the three-dimensional DNA right helical bristles 20 implanted into all the hair root grooves 40 of the hair root accommodation portion 30 is formed in a number of 50 to 1000, the number of the hair root accommodation portion 30 It is also preferable to change the size and the thickness of the three-dimensional DNA raised spiral bristles (20).

In addition, an end portion of the three-dimensional DNA helical bristle 20 is preferably formed in a hemispherical shape, and the shape of the end portion may be formed in a straight or tapered shape.

At this time, the length of the three-dimensional DNA spiral helical brush 20 is preferably formed to have a predetermined length, the length of the three-dimensional DNA spiral helical toothbrush by modifying the length according to the shape of the surface is used. It is also preferable to form the upper surface of the curved to correspond to the shape of the surface rather than a straight shape.

8 is a perspective view schematically showing a three-dimensional DNA mixed spiral toothbrush according to the present invention. As shown in the figure, the three-dimensional DNA left helical toothbrush according to the present invention is formed with a plurality of hair root grooves 40 for accommodating the hair roots so as to plant hair roots of the hair follicles. It comprises a hair root receiving portion 30, the groove 40 is formed, and a handle 50 for connecting the hair root receiving portion 30.

Here, the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 which are accommodated in the hair root groove 40 of the hair root accommodation portion 30 are formed in the shape of the DNA left helix and the DNA right helix. The helical angles of the 3D DNA left helical bristle 10 and the 3D DNA right helical bristle 20 are formed at an angle between 5 ° and 45 ° based on a perpendicular angle in the vertical direction.

In addition, the three-dimensional DNA left helical bristles 10 and the three-dimensional DNA right helical bristles 20 are formed in a row so as to be alternately arranged.

In addition, the hair root groove 40 for accommodating the hair roots of the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 is 1 to 10 in the horizontal and vertical directions of the hair root accommodation portion 30. The number of hair root grooves 40 is greater than 10 because the thickness varies depending on the type of the brush to which the 3D DNA left helical bristle 10 and the 3D DNA right helical bristle 20 are applied. Although not preferred, if the thickness does not change depending on the type of the brush to which the three-dimensional DNA spiral bristle 10 is applied, it is also preferable that more than 10 planted a plurality of hairs, The thickness of the three-dimensional DNA spiral hair 10 or the number of hair root grooves 40 may be changed according to the size.

In addition, the number of the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 which are implanted in each individual hair root groove 40 is generally applied in a predetermined number of units, but the individual hair roots The number of the three-dimensional DNA left helical bristles 10 and the three-dimensional DNA right helical bristles 20 implanted into the grooves 40 is preferably applied in a random number.

In addition, the number of the three-dimensional DNA left helical hair 10 and the three-dimensional DNA right helical hair 20 which are implanted in all hair root grooves 40 of the hair root accommodation part 30 may be formed in a number between 50 and 1000. The size of the hair root receiving portion 30 and the thickness of the three-dimensional DNA left helical bristle 10 and the three-dimensional DNA right helical bristle 20 may be changed.

And, the ends of the three-dimensional DNA left helical bristle 10 and the three-dimensional DNA right helical bristle 20 are preferably formed in a hemispherical shape, the shape of the end can be formed in a straight or tapered shape or the like.

At this time, the length of the three-dimensional DNA left helical bristle 10 and the three-dimensional DNA right helical bristle 20 is preferably formed to a predetermined length, but the length of the three-dimensional DNA left helical toothbrush according to the shape of the surface used It is also preferable to form a curved upper surface of the three-dimensional DNA left helical toothbrush to correspond to the shape of the surface rather than a linear shape by modifying.

9 is a plan view schematically showing an embodiment according to the three-dimensional left spiral toothbrush of FIG. 6. As shown in the figure, even when the three-dimensional DNA left helical toothbrush 1 according to the present invention is wiped by applying force to the left and right directions, the three-dimensional DNA left helical toothbrush 1 is left and right and up and down directions. Will indicate movement.

In addition, the direction in which the end surface of the left helix of the three-dimensional DNA left helical toothbrush 1 is in contact with the tooth with respect to the tooth can more effectively remove foreign substances.

10 is a plan view schematically showing an embodiment according to the three-dimensional DNA right helical toothbrush of FIG. 7. As shown in the figure, even when the three-dimensional DNA right spiral toothbrush 2 according to the present invention is wiped by applying a force to the left and right directions, the three-dimensional DNA right spiral toothbrush 2 is in the left and right and up and down directions. Will indicate movement.

In addition, the direction in which the end face of the right helix of the three-dimensional DNA right helical toothbrush 2 with respect to the tooth contacts the tooth can more effectively remove foreign substances.

Figure 11 is a plan view schematically showing an embodiment according to the three-dimensional DNA mixed spiral toothbrush of Figure 8. As shown in the figure, the three-dimensional DNA mixed helical toothbrush 3 according to the present invention, even when the tooth is wiped by applying the force in the left and right directions, the three-dimensional DNA mixed helical toothbrush 3 in the left and right and up and down directions Will indicate movement.

In addition, the direction in which the end surfaces of the left and right helixes of the three-dimensional DNA mixed helical toothbrush 3 are in contact with the teeth with respect to the teeth may be more effectively removed.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to such specific embodiments, and those skilled in the art are appropriate within the scope described in the claims of the present invention. It will be possible to change.

As described above, the present invention having the configuration as described above forms the shape of the brush hair in a three-dimensional DNA spiral, so that the brushing direction is moved up and down simultaneously with the left and right directions even when the force is applied to the brush hair. The efficiency of removing foreign matters with respect to force can be improved, and the shape of the bristles is made of right or left helix or a mixed type using a combination thereof, so that the brush and toothbrush are interposed between the surface and the teeth containing the foreign matter. It can be effective to remove the brushing or brushing process in the vertical direction to remove the.

Claims (8)

A hair root receiving portion in which a plurality of hair root grooves are formed to accommodate the hair root; And A three-dimensional DNA spiral hair cap housed in the hair root groove; Including, Spiral angle of the brush hair is a three-dimensional DNA spiral brush is formed at an angle of 5 ° to 45 °. The method of claim 1, The spiral shape of the brush hair DNA spiral brush, characterized in that the DNA can be formed in a spiral shape. The method of claim 1 The spiral shape of the brush hair DNA spiral brush, characterized in that it can be formed in the form of a DNA left helix. The method of claim 1, The spiral shape of the brush hair DNA spiral sole, characterized in that the DNA can be formed by mixing the spiral shape and the left spiral shape. delete The method of claim 1, DNA bristle brush is characterized in that the number of the bristles is formed between 50 and 1000. The method of claim 1, DNA helical brush, characterized in that the number of the hair root grooves arranged in the length and width of the hair root receiving portion is between 1 and 10. A hair root receiving portion in which a plurality of hair root grooves are formed to accommodate the hair root; And A three-dimensional DNA helical bristles received in the hair root groove; Including, Spiral angle of the brush head is a three-dimensional DNA spiral toothbrush is formed at an angle between 5 ° to 45 °.

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