JP6858363B2 - Dental syringe - Google Patents

Description

The present invention relates to a dental syringe. More specifically, the present invention relates to a dental syringe suitable for filling a dental viscous material exemplified in a dental photopolymerizable paste material.

Dental as a container for dental viscous materials exemplified as dental photopolymerizable paste-like materials such as dental photopolymerizable composite resin used for filling caries of teeth and dental photopolymerized hard resin for crown bridge. A syringe is used.
The dental viscous material here includes those in a low-viscosity state to a high-viscosity state.
Examples of the dental syringe containing the viscous material for dentistry include those having a structure as shown in FIG. 7 using a screw type extrusion rod.
The dental syringe 41 shown in FIG. 7 is a male formed in substantially the entire length of the first female screw 42a of the screw lid 42 having the first female screw 42a and the second female screw 42b having the same axis as the first female screw 42a and the pressing rod 43. The screw 43a is screwed, and the second female screw 42b of the screw lid 42 and the male screw 44a for fixing the screw lid formed on the outer peripheral surface of the base end portion of the cylinder 44 are screwed to fix the screw lid 42 to the cylinder 44. By manually rotating the knob 43b connected to the pressing rod 43, the pressing rod 43 is rotated to advance the inside of the cylinder 44, and the middle plate 45 attached to the tip of the pressing rod 43 enters the cylinder 44. The contained dental viscous material P is extruded from the opening of the nozzle 44b at the tip of the cylinder 44.
As shown in FIG. 7B, when the dental viscous material P is extruded from the opening of the nozzle 44b, the cap 46 detachably attached to the nozzle 44b is removed.
A dental syringe using such a screw-type pressing rod can extrude an amount of dental viscous material from a nozzle according to the number of rotations of the pressing rod, so that a required amount of dental viscous material can be taken out. It is suitable and is often used, among other things, in dental syringes that contain highly viscous dental viscous materials.
As the dental syringe, for example, the one described in Patent Document 1 is known.

Japanese Unexamined Patent Publication No. 2010-11907

The dental syringe shown in FIG. 7 requires five parts such as a cylinder, a screw lid, a pressing rod, an inner plate, and a cap. All of these parts are usually obtained by injection molding a thermoplastic synthetic resin, and it is necessary to manufacture a number of molding dies corresponding to these parts, which is costly. It takes time and effort to manufacture each part by injection molding the melted thermoplastic synthetic resin into the molding mold of each obtained part, and the total heat energy used for injection molding is also increased. Since resins such as runners generated when each part is manufactured by molding may be discarded, the amount of resin to be discarded also increases, which increases the environmental load. Moreover, since the number of parts is large, it takes time and effort to manage the parts and assemble the dental syringe. For these reasons, the dental syringe shown in FIG. 7 leads to high cost. In addition, the screw lid of this dental syringe may loosen during use, and if the screw lid is loosened, it may not be possible to extrude the viscous dental material unless it is retightened. Be careful and complicated.

This invention was devised as a result of diligent research in view of the above circumstances, and reduces the number of parts, reduces the manufacturing process of parts, reduces the total thermal energy required for manufacturing, and suppresses waste generation. As a result, the environmental load can be reduced, and the purpose is to provide a dental syringe that is easy to assemble and hassle-free at low cost.

In order to solve the above problems, the present invention: (1) screw the male threaded portion of the pressing rod and the female threaded portion of the cylinder, rotate the pressing rod to advance the inside of the cylinder, and obtain the pressing rod. A dental syringe in which a dental viscous material contained in a main body of the cylinder is extruded from an opening at the tip of the cylinder by a middle plate portion at the tip, and the cylinder accommodates the dental viscous material. A female screw portion having an inner diameter slightly larger than the inner diameter of the main body portion extends from the rear of the main body portion, and the pressing rod and the cylinder are both integrally molded of synthetic resin. To do.
(2) In the above (1), it is preferable that both the pressing rod and the cylinder are made of a thermoplastic synthetic resin.
(3) In the above (2), it is preferable that both the pressing rod and the cylinder are molded by injection molding of a thermoplastic synthetic resin.
(4) In the above (1), (2) or (3), it is preferable that a cap attached to the tip of the cylinder is provided, and the pressing rod, the cylinder, and the cap have a light-shielding property.
(5) In the above (1), (2), (3) or (4), it is preferable that the diameter of the inner dish portion is substantially the same as the inner diameter of the main body portion of the cylinder.

Since the present invention is configured as described above, the present invention has the effects described below.
That is,
According to (1) above, the pressing rod is integrally molded with synthetic resin as having a male screw portion and a middle plate portion, and the cylinder is integrally molded with synthetic resin as having a female screw portion. Therefore, since the number of parts can be reduced as compared with the conventional dental syringe, the manufacturing process of parts can be reduced, the total heat energy required for manufacturing can be reduced, and the generation of waste can be suppressed, which is an environmental load. In addition, it is easy to manage and assemble parts, and it does not take time and effort, and by extension, dental syringes can be provided at low cost. Further, since the cylinder has a female screw portion as an integral part, there is no risk of loosening during use unlike the screw lid of a conventional dental syringe.
According to the above (2), since the pressing rod and the cylinder are made of a thermoplastic synthetic resin, these can be provided inexpensively, and thus a dental syringe can be provided inexpensively.
According to (3) above, the pressing rod is integrally molded by injection molding of a thermoplastic synthetic resin as having a male screw portion and a middle plate portion, and the cylinder is thermoplasticly synthesized as having a female screw portion. It is integrally molded by injection molding of resin, so the number of parts is reduced compared to conventional dental syringes, that is, thermoplastic synthetic resin is injection molded into molding molds for pressing rods and cylinders, respectively. By doing so, it is possible to reduce the manufacturing cost of the molding mold, reduce the injection molding process of parts, reduce the total heat energy required for injection molding, and suppress the generation of waste (for example, runner). This makes it possible to reduce the environmental load, and it is easy to manage and assemble parts, which saves time and effort, and by extension, dental syringes can be provided at low cost.
According to (4) above, when the dental viscous material contained in the main body of the syringe is photopolymerizable, the photocuring reaction can be suppressed, deterioration of the dental viscous material is prevented, and the dental viscous material is prevented from deteriorating for a long period of time. Stable quality can be maintained.

An embodiment of a dental syringe in the present invention is shown, (a) is a partially broken disassembled front view, and (b) is a left side view of a pressing rod. It is a partially broken front view which shows the state which the dental syringe shown in FIG. 1 is assembled. A partially broken front view of a state in which a dental viscous material is contained in the dental syringe shown in FIG. 1, (a) is a state before the start of use, (b) is a state in use, and (c) is a dental state. Indicates the finished state of extruding the viscous material. It is a partially cutaway front view which shows the other embodiment of the dental syringe of this invention. It is a partially cutaway front view which shows still another embodiment of the dental syringe of this invention. It is a partially cutaway front view which shows still another embodiment of the dental syringe of this invention. A conventional dental syringe is shown, (a) is a partially broken disassembled front view, and (b) is a partially broken front view showing an assembled state.

Hereinafter, embodiments for carrying out the present invention will be described in more detail. Of course, the present invention is not limited to the following embodiments.
As is clear from FIGS. 1 to 3, the dental syringe 1 according to the embodiment of the present invention is made of a thermoplastic synthetic resin, and is generally a male screw portion 2a of the pressing rod 2 and a female screw of the cylinder 3. The portion 3a is screwed, the pressing rod 2 is rotated to advance the inside of the cylinder 3, and the dental viscous material contained in the main body portion 3b of the cylinder 3 by the middle plate portion 2b at the tip of the pressing rod 2 is the cylinder 3 It is designed to be pushed out from the tip opening of the cylinder.

Hereinafter, a more specific description will be given.
The cylinder 3 has a main body portion 3b and a female screw portion 3a integrally molded by injecting a thermoplastic synthetic resin into the cavity of a molding die for the cylinder, and is a main body portion for accommodating a dental viscous material. A female screw portion 3a having an inner diameter slightly larger than the inner diameter of the main body portion 3b extends from the rear of the 3b, and the tip portion of the main body portion 3b is a cap mounting portion 3c having an outer diameter slightly smaller than the outer diameter of the main body portion 3b. It is a thing. The main body portion 3b and the female screw portion 3a have the same axis. The outer diameter of the female screw portion 3a is determined in consideration of the strength of the cylinder 3, the ease of gripping, the operability of the dental syringe 1, and the like, and has an outer diameter slightly larger than that of the main body portion 3b. Further, a taper shape is formed from the middle of the main body portion 3b to the female screw portion 3a to improve the reinforcement of the main body portion 3b, the ease of gripping the cylinder 3, the operability of the dental syringe 1, and the like. ..

The cap 4 is molded by injecting a thermoplastic synthetic resin into the cavity of the molding die for the cap, and can be detachably mounted on the cap mounting portion 3c, and the inner diameter of the cap 4 is the cap. It is substantially the same as the outer diameter of the mounting portion 3c.

By injecting a thermoplastic synthetic resin into the cavity of the molding die for the pressing rod, the pressing rod 2 integrates the middle plate portion 2b, the front rod portion 2c, the male screw portion 2a, the rear rod portion 2d, and the knob 2e. It has a middle plate portion 2b at the tip of the front rod portion 2c, a male screw portion 2a screwed with the female screw portion 3a at the rear end of the front rod portion 2c, and a male screw portion 2a. A rear rod portion 2d extends from the rear end, and a plate-shaped knob 2e is continuously provided at the rear end of the rear rod portion 2d.
The diameter of the inner plate portion 2b is substantially the same as the inner diameter of the main body portion 3b of the cylinder 3, and the diameter of the front rod portion 2c is slightly smaller than the diameter of the inner plate portion 2b. The diameter of the rear rod portion 2d is slightly smaller than the inner diameter of the female screw portion 3a. The middle dish portion 2b, the front rod portion 2c, the male screw portion 2a, and the rear rod portion 2d have the same axis.
As shown in FIG. 1B, notches 2f, 2f, 2f, and 2f having a slight depth at four positions separated by approximately 90 degrees are in the axial direction of the pressing rod 2 at the side surface positions of the inner dish portion 2b. It is formed along parallel directions.
These notches 2f rotate the pressing rod 2 to advance the inside of the cylinder 3, and the dental viscous material contained in the main body portion 3b of the cylinder 3 by the middle plate portion 2b at the tip of the pressing rod 2 is used in the cylinder 3. If air is present between the inner pan 2b and the dental viscous material when extruded from the tip opening, it is useful for allowing air to escape to the anterior rod portion 2c side. The notch 2f is not limited to four places, but the size is determined so that the dental viscous material does not leak from the notch 2f to the front rod portion 2c side.

The parts of the dental syringe 1 shown in FIG. 1 may be three points of a pressing rod 2, a cylinder 3, and a cap 4, and are parts as compared with a conventional dental syringe composed of five parts as shown in FIG. The number of points can be reduced. For example, if a molding die for three parts is prepared, the manufacturing cost of the molding die can be suppressed, and molding by injecting a thermoplastic synthetic resin into these molding dies. The process is good, the labor of injection molding can be reduced, the total heat energy required for injection molding can be reduced, the generation of waste such as runners can be suppressed, the environmental load is small, and parts management and assembly are easy. It will be less troublesome, and by extension, dental syringes can be provided at low cost. Further, since the cylinder 3 has the female screw portion 3a as an integral body, there is no risk of loosening during use unlike the screw lid of a conventional dental syringe.

Examples of the thermoplastic synthetic resin used for injection molding of the cylinder 3, the pressing rod 2, and the cap 4 include, but are not limited to, polypropylene, polyethylene, polyamide, polyacetal, and the like.
Of these thermoplastic synthetic resins, polypropylene has an appropriate oxygen permeability, so that it has an oxygen polymerization inhibitory effect and can maintain the state of the dental viscous material stably for a long period of time, and is necessary for dental syringes. It has mechanical strength and is inexpensive, so it is suitable as a material for dental syringes.
When the dental viscous material P contained in the main body 3b of the cylinder 3 is photocurable, for example, a dental photopolymerizable composite resin, the dental syringe 1, that is, the pressing rod 2, the cylinder 3, and the cap 4 The light-shielding property is preferable because the photocuring reaction can be suppressed, deterioration of the dental viscous material P can be prevented, and stable quality can be maintained for a long period of time. For that purpose, for example, each may be integrally molded by injection molding a thermoplastic synthetic resin mixed with carbon black, a light-shielding pigment, or the like. Of course, a transparent thermoplastic synthetic resin having no light-shielding property, for example, may be injection-molded and then coated with a light-shielding material to provide the light-shielding property.
When the dental viscous material P does not have photocurability, the dental syringe 1 does not need to be light-shielding.

The cylinder 3 and the pressing rod 2 are formed by inserting the pressing rod 2 into the cylinder 3 from the middle plate portion 2b side and manually rotating the knob 2e so that the male screw portion 2a is screwed into the female screw portion 3a. The pressing rod 2 can be advanced and assembled.

In FIG. 3A, the inner plate portion 2b of the pressing rod 2 slightly enters the main body portion 3b of the cylinder 3 and comes into contact with the dental viscous material P in which the front surface of the inner plate portion 2b is housed. The male screw portion 2a is screwed with the rear portion of the female screw portion 3a of the cylinder 3, and the cap 4 is removed to show the state before the start of use. The dental viscous material P is housed up to the tip opening of the main body 3b.
From this state, by rotating the knob 2e by hand to advance the pressing rod 2, the middle dish portion 2b presses the dental viscous material P of the main body portion 3b from behind, and the pressing rod 2 advances according to the amount of advancement. , The dental viscous material P is extruded from the tip opening.
The extruded dental viscous material P may be separated and used by an instrument (not shown) such as a dental spatula.
When the dental viscous material P is a photopolymerizable composite resin or the like, it can be polymerized and cured by applying it to a dental restoration site of a patient and then irradiating it with light for polymerization.
If it is not used continuously, the cap 4 may be attached.
With the cap 4 removed, the knob 2e is manually rotated to advance the pressing rod 2, and the required amount of the dental viscous material P is extruded from the tip opening (see FIG. 3B), and the extruded dentistry. By repeating the operation of separating the viscous material P for use by an instrument, the state before the start of use shown in FIG. 3 (a) is changed to the finished state in which all the viscous dental materials shown in FIG. 3 (c) are extruded. .. In this state, the tip of the male screw portion 2a of the pressing rod 2 reaches the tip of the female screw portion 3a of the cylinder 3, the rotation of the pressing rod 2 is blocked, and the middle dish portion 2b reaches the tip of the main body portion 3b. ..
The length R of the main body portion 3b of the cylinder 3 is set to be substantially equal to the length L from the tip of the middle plate portion 2b of the pressing rod 2 to the rear end of the front rod portion 2c (that is, the tip of the male screw portion 2a). Is preferable. Further, the length S of the female screw portion 3a of the cylinder 3 is set to be longer than the length L from the tip of the middle plate portion 2b of the pressing rod 2 to the rear end of the front rod portion 2c.

In order to accommodate the dental viscous material P in the dental syringe 1, a pipe for supplying the dental viscous material is inserted into the main body 3b from the tip opening side of the cylinder 3, or the main body is inserted from the female screw portion 3a side. This may be done by inserting the dental viscous material P into the portion 3b and supplying a predetermined amount of the dental viscous material P into the main body portion 3b from the pipe.

FIG. 4 shows another embodiment of the dental syringe of the present invention.
In the dental syringe 11 shown in FIG. 4, the tip of the main body 13b of the cylinder 13 does not have a small diameter like the cap mounting 3c of the main body 3b of the cylinder 3 shown in FIG. It is different from the dental syringe 1 shown in FIG. 1 in that the inner diameter of the cap 14 matches the outer diameter of the cap mounting portion 13c. Others are the same as the dental syringe 1 shown in FIG. 1, and therefore detailed description thereof will be omitted. Further, since the operation of pushing out the dental viscous material from the tip opening of the cylinder 13 is the same as that of the dental syringe 1 shown in FIG. 1, detailed description thereof will be omitted.

FIG. 5 shows yet another embodiment of the dental syringe of the present invention.
The dental syringe 21 shown in FIG. 5 is a separate body of the knob 23, and the knob 23 is detachable from the rear rod portion 22d of the pressing rod 22. Therefore, the rear portion of the rear rod portion 22d is a prismatic portion 22g, and the knob 23 is formed with a prismatic recess 23a that fits therewith. Others are the same as the dental syringe 1 shown in FIG. 1, and therefore detailed description thereof will be omitted. Further, since the operation of pushing out the dental viscous material from the tip opening of the cylinder 3 of the dental syringe 21 is the same as that of the dental syringe 1 shown in FIG. 1, detailed description thereof will be omitted.

FIG. 6 shows yet another embodiment of the dental syringe of the present invention.
In the dental syringe 31 shown in FIG. 6, the male screw portion 32a of the pressing rod 32 is extended to the knob 32e. That is, the male screw portion 32a is used instead of the rear rod portion 2d of the pressing rod 2 shown in FIG. Others are the same as the dental syringe 1 shown in FIG. 1, and therefore detailed description thereof will be omitted. Further, since the operation of pushing out the dental viscous material from the tip opening of the cylinder 3 of the dental syringe 31 is the same as that of the dental syringe 1 shown in FIG. 1, detailed description thereof will be omitted.

In the above, the dental syringe has been described as using an extrusion rod, a cylinder, and a cap obtained by injection molding a thermoplastic synthetic resin, but the present invention is not limited to this, and the extrusion rod, by three-dimensional molding, is used. It may be a molded cylinder or cap.
The fused deposition modeling method, stereolithography method, inkjet method, and projection method can be adopted for molding the extrusion rod, cylinder, and cap by three-dimensional modeling.
According to this, since a molding die is not required, the cost of the molding die is low, the heat energy required for manufacturing is small, the amount of waste of unnecessary resin, etc. is small, and the environmental load can be reduced. Moreover, it is easy to assemble and does not require much effort.

The dental syringe has been described above as being made of a thermoplastic synthetic resin, but the present invention is not limited to this, and any synthetic resin may be used, and a thermosetting synthetic resin may be used.

1 Dental Syringe 2 Pressing Rod 3 Cylinder 4 Cap

Claims (5)

The male screw portion of the pressing rod and the female screw portion of the cylinder are screwed together, the pressing rod is rotated to advance the inside of the cylinder, and the middle plate portion at the tip of the pressing rod accommodates the inside of the main body portion of the cylinder. A dental syringe in which a dental viscous material is extruded from the tip opening of the cylinder.
The cylinder has a female threaded portion having an inner diameter slightly larger than the inner diameter of the main body extending from the rear of the main body for accommodating the dental viscous material .
A dental syringe characterized in that both the pressing rod and the cylinder are integrally molded with a synthetic resin. The dental syringe according to claim 1, wherein both the pressing rod and the cylinder are made of a thermoplastic synthetic resin. The dental syringe according to claim 2, wherein both the pressing rod and the cylinder are injection-molded from a thermoplastic synthetic resin. The dental syringe according to claim 1, 2 or 3, further comprising a cap attached to a tip end portion of the cylinder, wherein the pressing rod, the cylinder, and the cap have a light-shielding property. The dental syringe according to claim 1, 2, 3 or 4, wherein the diameter of the inner dish portion is substantially the same as the inner diameter of the main body portion of the cylinder.

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