The present invention belongs to the field of oral care products, in particular to a toothbrush and a method of preparing the same.
Toothbrush is a commonly used oral nursing material. As shown in
In order to solve one or more of the above-mentioned problems, the present invention provides a toothbrush and a method of making the same.
According to an aspect of the present invention, a toothbrush is provided, comprising a handle and a cleaning member, the handle comprising a handheld portion and a brush head portion, the handheld portion being connected with the brush head portion, and the cleaning member being fixedly connected with the brush head portion, wherein the cleaning member comprises a plurality of bristles and a bristle plate, the bristle plate being formed by means of integral melting of the bottom of the plurality of the bristles, and the bristle plate being fixedly connected with the brush head portion.
Since a plurality of bristles is closely arranged and the bottom thereof is integrally melted into a bristle plate, that is, the bottom of the bristles is melted into a flat surface, and the unmelted portions are erected on the bristle plate, the adhesion of the overall bristles is enhanced. Even if the bristles are small in diameter, the bristles will not be easy to fall off. At the same time, the number of bristles on a brush head of the same size is increased, thereby increasing the cleaning area of the surface between the bristles and the teeth, which is conducive to tooth cleaning. In addition, the toothbrush can be made by a simple process with low cost.
In some embodiments, the brush head portion comprises a bottom plate and a raised portion fixed to the periphery of the bottom plate. The bottom plate forms an accommodating space with the raised portion, and the bottom of the bristle plate is placed in the accommodating space and fixedly connected with the bottom plate. Thus, the bottom plate and the raised portion form an accommodating space in which the cleaning member is placed, which facilitates the placement and fixation of the entire cleaning member.
In some embodiments, the brush head portion comprises a bottom plate and a raised portion, a neck is provided in the middle of the raised portion, with which the peripheral edge of the bristle plate can be engaged, and the bottom of the bristle plate is fixedly connected with the bottom plate. Since a neck is provided in the middle of the raised portion, the entire cleaning member will not be detached easily after the peripheral edge of the bristle plate is fitted with the neck. The bottom of the bristle plate is further fixedly connected with the bottom plate, which can further strengthen the fixing between the cleaning member and the brush head and prevent the cleaning member from detachment which will reduce the service life of the toothbrush.
In some embodiments, the thickness of the bristle plate is 0.1-2.0 mm, and the height of the accommodating space is equal to the thickness of the bristle plate. Since the bristle plate is melted and bonded from the bottom of the bristles, the thickness of the bristle plate makes the bristles strong in adhesion, and filament breakage is not easy to occur. A bigger thickness will render filament breakage occurring frequently. The height of the accommodating space being equal to the thickness of the bristles can facilitate the placement of the cleaning member. If the height of the accommodating space is larger than the thickness of the bristle plate, a certain space may readily present in the accommodating space, which cause ponding and increasing of bacterial growth. If the height of the accommodating space is smaller than the thickness of the bristle plate, the bristle plate will protrude outside the accommodating space and affect the appearance.
In some embodiments, the bristles may have a diameter of 0.05-0.25 mm, which provides softer bristles than the existing bristle diameter and make user comfortable in cleaning the teeth. It is therefore more conducive to the use of children, pregnant women and patients with oral diseases having bleeding gingiva under friction. Under the premise of effectively preventing gingiva bleeding and gingiva damage, the toothbrush made of bristles having such a diameter has the greatest degree of cleaning of the teeth.
According to another aspect of the present invention, a method for making a toothbrush is provided, comprising:
vertically placing a plurality of bristles having a diameter of 0.05-0.25 mm in a metal mold and heating the same to 230-500° C., wherein the bottom of the bristles is integrally melted into a bristle plate in the metal mold, and the bristles and the bristle plate integrally form a cleaning member; and
preparing a handle comprising a handheld portion and a brush head portion, the handheld portion is connected with the brush head portion, and the bottom of the bristle plate is fixed to the brush head portion.
Since a plurality of bristles is closely arranged and the bottom thereof is melted into an integral bristle plate and the unmelted portions are erected on the bristle plate, the overall adhesion of the bristles is enhanced. Even if the bristles are small in diameter, the bristles will not be fall off easily. Meanwhile, the number of bristles on a brush head of the same size is increased, thereby increasing the cleaning area of the interface between the bristles and the teeth, which is conducive to tooth cleaning. Since the diameter of the bristles is 0.05-0.25 mm, it is softer than the existing bristle diameter, which can make user comfortable when cleaning the teeth, thus is more conducive to the use of children, pregnant women and those with bleeding gingiva.
In some embodiments, the thickness of the bristle plate is 0.1-2.0 mm. Since the bristle plate is melted and bonded from the bottom of the bristles, the adhesion force of the bristles is the strongest when the thickness of the bristle plate is 0.1-2.0 mm, and filament breakage is not readily to occur. A bigger thickness will render filament breakage occurring frequently.
In some embodiments, the bristles are placed vertically in the metal mold and heated to 400° C. Since the bristle plate is melted and bonded from the bottom of the bristles, the bristles exhibit the strongest adhesion when the heating temperature is 400° C., and filament breakage is not readily to occur. A lower or higher temperature will render filament breakage occur frequently.
In some embodiments, the brush head portion comprises a bottom plate and a raised portion fixed to the periphery of the bottom plate. The bottom plate forms an accommodating space with the raised portion, and the cleaning member is placed in the accommodating space. The bottom of the bristle plate is bonded to the bottom plate with an adhesive or fixed to the bottom plate by ultrasonic welding.
In some embodiments, the brush head portion comprises a bottom plate and a raised portion, a neck is provided in the middle of the raised portion, the peripheral edge of the bristle plate is embedded in the neck, and the bottom of the bristle plate is injection-bonded to the bottom plate.
The toothbrush made according to the present invention has a large number of bristles and good bristle softness. The bristle plate and the bristles are integrally implanted into the brush head by melt-bonding the bottom of the bristles to form the bristle plate. The entire process does not require any metal sheet, thus reducing the occurrence of metal contamination. Meanwhile, the toothbrush has better cleanliness while providing effectively preventing gingiva bleeding and gingiva damage.
A toothbrush and a method of making the same in the present invention will be further described below in detail with reference to
Referring to
As shown in
The thickness of the bristle plate 102 is 0.1-2.0 mm. The height of the accommodating space 2013 is equal to the thickness of the bristle plate 102. Since the bristle plate 102 is melt-bonded from the bottom of the bristles 101, when the thickness of the bristle plate 102 is 0.1-2.0 mm, the bristles 101 have a strong adhesive force and are not easily broken. The height of the accommodating space 2013 being equal to the thickness of the bristle plate 102 can facilitate the placement of the cleaning member 1. If the height of the accommodating space 2013 is greater than the thickness of the bristle plate 102, the accommodating space 2013 will have certain space which renders foreign matter remaining and water accumulated, thus increasing bacterial growth. If the height of the accommodating space 2013 is smaller than the thickness of the bristle plate 102, the bristle plate 102 will protrude outside the accommodating space 2013, which makes appearance deteriorate.
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In summary, since the toothbrush of the present invention has an integral structure of the bristles 101 and the bristle plate 102 of the cleaning member 1 and the thickness of the bristle plate 102 is small, the overall thickness of the cleaning member 1 is small. When it is combined with the brush head portion 201, the brush head portion 201 need not be thick. Thus, the toothbrush has good operability in the oral cavity, and improves the ability of the bristle plate 102 to reach a dangerous part of a dental patient and the ability to remove the tartar from therefrom. In addition, the bristle plate 102 has a smaller diameter and is more likely to enter narrow portions between the interdental portion, the teeth and the gingiva. Therefore, compared with a conventional toothbrush, the removal effect of tartar or the like can be improved, the cleaning performance is excellent, and the comfort is good.
The method for making a toothbrush comprises the following steps.
A plurality of bristles 101 having a diameter of 0.05-0.25 mm are placed vertically in a metal mold and heated to 230-500° C. The bottom of the bristles 101 is integrally melted into a bristle plate 102 in the metal mold. The thickness of the bristle plate 102 is 0.1-2.0 mm. At this time, the bristles 101 and the bristle plate 102 integrally form a cleaning member 1. Since the bristle plate 102 is melt-bonded with the bottom of the bristles 101, the bonding force of the bristles 101 is strong when the heating temperature is 400° C., and filament breakage is less likely to occur. A lower or higher temperature will cause a more obvious filament breakage or detachment.
A handle 2 is prepared, including a handheld portion 202 and a brush head portion 201. The handheld portion 202 is connected with the brush head portion 201. The bottom of the bristle plate 102 is fixed to the brush head portion 201. The brush head portion 201 includes a bottom plate 2011 and a raised portion 2012 fixed to the periphery of the bottom plate 2011. The bottom plate 2011 is integrally injection molded with the raised portion 2012 and forms an accommodating space 2013. The cleaning member 1 is placed in the accommodating space 2013. The bottom of the bristle plate 102 is directly injection-bonded to the bottom plate 2011 by placing into a mold or bonded to the bottom plate 2011 through an adhesive, or is fixed to the bottom plate 2011 by ultrasonic welding.
In order to further strengthen the bonding force, the brush head portion 201 includes a bottom plate 2011 and a raised portion 2012. A neck 2014 is provided in the middle of the raised portion 2012. The peripheral edge of the bristle plate 102 is embedded in the neck 2014. The bottom of the bristle plate 102 is injection molded and bonded to the bottom plate 2011.
Since the plurality of bristles 101 is closely arranged and the bottom thereof is integrally melted into the bristle plate 102 and the unmelted portions are erected on the bristle plate 102, thus the overall adhesion of the bristles 101 is enhanced. Even if the bristles 101 are small in diameter, it is not readily to suffer from bristle detachment. Meanwhile, the number of bristles 101 is increased on a brush head of the same size, thereby increasing the direct cleaning area of the bristles 101 and the teeth, which is beneficial to the cleaning of the teeth. In addition, the diameter of the bristles 101 is 0.05-0.25 mm, which is softer than the bristles 101 of an existing diameter, and can provide comfort to the user while cleaning the teeth, and is more beneficial to children, pregnant women and patients with oral diseases having bleeding gingiva under friction.
The strength and performance of toothbrushes formed from bristles of different diameters are evaluated below.
Bristles are placed in a metal mold and the bottom thereof is heated to 400° C. and melted into a bristle plate. The thickness of the bristle plate is the same, the length of each bristle protruding on the bristle plate is equal, and the diameter of the bristles is as shown in Table 1.
Test method: the brush head of the toothbrush is fixed, a pulling force is applied with the same equipment, and the force is recorded when the bristles are pulled to break or pulled off, that is, their strength.
Test method: 10 subjects brush their teeth for 3 minutes in the same manner using various toothbrushes, and the amount of spot adhesion before and after brushing of the full-mouth tooth surface is measured. The conventional methods are as follows: first, dental plaque recording before brushing is made: before brushing, the subject first rinses with clean water, coats the tooth surface with a cotton swab having a volume fraction of 2% basic magenta, rinses mouth after stagnation for 1 minute, and then checks and fills in a plaque record card. The recording method is as follows: four surfaces of the tooth under test (lip side, lingual side, mesial side, and distal side) are recorded. The tooth surface showing the presence of dental plaque can be indicated by “-” in the space of a corresponding part of the record card. Secondly, plaque recording after brushing: after the brushing of each group is done: the same examiner checks the dental plaque of the tooth surface of the subject, and fills in the dental plaque record card. Then, statistical processing is performed to calculate the removal rate (%), where: dental plaque percentage=dental plaque tooth surface/total tooth surface number □×100%; dental plaque removal rate=1−percentage of plaque after brushing/percentage of plaque before brushing on the tooth surface; the results are shown in Table 1.
Test method: 10 subjects brush their teeth with various toothbrushes for 3 minutes, and then the comfortable sensation of the toothbrushes is evaluated by their sensory.
There are 30 brush holes in the head of the toothbrush, there are generally 50 filaments inside each brush hole, the total number of bristles of the toothbrush is 1500 filaments, and the diameter of the filament is 0.30 mm.
The above only gives some embodiments of the present invention. Other variations and modifications may be made by those skilled in the art without departing from the inventive concept, which is within the scope of the present invention.
Number | Date | Country | Kind |
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2016103266858 | May 2016 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2016/086977 | 6/24/2016 | WO | 00 |