JP2013081581A - Dental syringe - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dental syringe capable of being miniaturized and reduced in weight and cost while reducing the injection labor of an anesthetic by a dentist or the like and capable of being easily sterilized.SOLUTION: The dental syringe 1 includes a cartridge holding part 3 for holding a cartridge 2 in which an anesthetic is sealed, a piston 11 for discharging the anesthetic from an injection needle 4 inserted in the cartridge holding part 3 by moving the rubber plug 9 of the cartridge 2, and a cylinder 12 through which the piston 11 is reciprocated. A compressed air supply hole 16c and a through-hole 16d are formed in the cylinder 12 on the other side becoming a side opposite to the projection side of the piston 11. When the through-hole 16d is closed in this dental syringe 1, the piston 11 is moved by the compressed air supplied from the supply hole 16c to discharge the anesthetic from an injection needle 4.

Description

  The present invention relates to a dental syringe used when injecting an anesthetic in dental treatment.

  When injecting an anesthetic in dental treatment, a manual syringe is generally used. However, since the injection needle of a syringe used in dental treatment is thin and it is necessary to inject an anesthetic into the affected area such as the gums and jawbones, a large force is required when operating the syringe, and the injection is performed. It takes a lot of labor for doctors. Therefore, conventionally, in order to reduce labor when injecting an anesthetic in dental treatment, an electric syringe that discharges the anesthetic from the injection needle using a motor has been proposed (see, for example, Patent Documents 1 and 2). ).

  In the syringes described in Patent Documents 1 and 2, the power of the motor is transmitted to the plunger through the rack and pinion and the reduction gear train, and the plunger is a rubber of the cartridge in which the anesthetic is enclosed by the power transmitted from the motor. Push the stopper to move it. When the rubber stopper is moved by being pushed by the plunger, the anesthetic in the cartridge is discharged from the injection needle and the anesthetic is injected into the affected area.

JP 2004-130005 A JP 2006-230701 A

  However, since the syringes described in Patent Documents 1 and 2 have a built-in motor and a motor drive circuit, the syringe is large, heavy, and expensive. Moreover, since this syringe has a built-in motor and drive circuit, it is difficult to sterilize the syringe such as steam sterilization, which may cause nosocomial infection.

  Therefore, an object of the present invention is to reduce the labor when an injecting person such as a dentist injects an anesthetic, while making it possible to reduce the size, weight and cost, and to sterilize easily. It is to provide a dental syringe capable of this.

  In order to solve the above problems, a dental syringe according to the present invention includes a cartridge holding unit that holds a cartridge in which an anesthetic is sealed, and an anesthesia from an injection needle that is attached to the cartridge holding unit by moving a rubber stopper of the cartridge. Provided with a piston for discharging medicine and a cylinder in which the piston reciprocates, a compressed air supply hole and a through hole are provided on one end side of the cylinder on the protruding side of the piston or on the other side opposite to the one end side. When the through hole is closed, the piston moves by compressed air supplied from the supply hole, and the anesthetic is discharged from the injection needle.

  In the dental syringe of the present invention, a compressed air supply hole and a through hole are formed in the cylinder, and when the through hole is closed, the piston is moved by the compressed air supplied from the supply hole and anesthesia is performed from the injection needle. The medicine is discharged. That is, in the dental syringe of the present invention, the anesthetic is discharged from the injection needle using compressed air. Therefore, it is not necessary for the person performing the injection to manually push the piston to discharge the anesthetic from the injection needle. Therefore, in this invention, it becomes possible to reduce the effort at the time of injecting an anesthetic by the person who performs injection. Moreover, in this invention, since the piston is moved using the compressed air supplied from a supply hole, it is not necessary to incorporate drive sources, such as a motor, in a dental syringe. Therefore, according to the present invention, the dental syringe can be reduced in size, weight, and cost. In the present invention, since the dental syringe does not include a drive source such as a motor, the entire dental syringe can be easily sterilized by steam sterilization or the like.

  In the present invention, the dental syringe is preferably provided with a lever member for opening and closing the through hole, and the lever member is preferably rotatably attached to the cylinder. If comprised in this way, it will become possible to open and close a through-hole with a comparatively simple structure.

  In the present invention, a supply hole and a through hole are formed in the end face on the other end side of the cylinder, the outer peripheral surface of the cylinder is a grip part of a dental syringe, and the lever member is an opening / closing part that opens and closes the through hole And an operating portion arranged on the outer peripheral side of the cylinder, and is preferably rotatably attached to the outer peripheral surface on the other end side of the cylinder with the direction orthogonal to the moving direction of the piston as the axial direction. If comprised in this way, since the operation part of a lever member will be arrange | positioned near the outer peripheral surface of the cylinder used as the grip part of a dental syringe, it will become easy to operate an operation part. Therefore, the lever member can be easily operated. Also, with this configuration, it is possible to increase the force with which the piston pushes the rubber plug of the cartridge, compared to the case where the supply hole and the through hole are formed on the end surface on one end side of the cylinder from which the piston protrudes. become.

  In the present invention, the dental syringe preferably includes an urging member that urges the lever member in a direction in which the through hole is opened. If comprised in this way, unless the person who performs injections, such as a dentist, operates a lever member against the biasing force of a biasing member, a loophole will not be blocked. That is, with this configuration, the anesthetic is not discharged from the injection needle unless the person performing the injection operates the lever member against the urging force of the urging member. Therefore, it is possible to prevent the anesthetic from being injected into the affected area due to an operation error when injecting the anesthetic.

  In the present invention, the supply hole is preferably connected to a compressed air supply source mounted on a dental unit including a treatment chair where a patient sits. Since the dental unit is usually equipped with a compressed air supply source to which an air turbine or the like for cutting a patient's teeth is connected, the compressed air supply source for moving the piston is configured in this way. There is no need to provide it separately.

  As described above, in the present invention, it is possible to reduce the size, weight, and cost of a dental syringe while reducing labor when an anesthetic is injected by an injecting person such as a dentist. The sterilization of the dental syringe can be easily performed.

It is a perspective view of the dental syringe concerning embodiment of this invention, (A) is a figure which shows the state before an anesthetic is injected, (B) is a figure which shows the state after an anesthetic is injected It is. It is sectional drawing of the dental syringe shown in FIG. 1, (A) is a figure which shows the state before an anesthetic is injected, (B) is a figure which shows the state after an anesthetic is injected. It is a block diagram for demonstrating schematic structure of the dental unit to which the dental syringe shown in FIG. 1 is connected. It is the schematic for demonstrating the structure of the cylinder part concerning other embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Configuration of dental syringe)
FIG. 1 is a perspective view of a dental syringe 1 according to an embodiment of the present invention, in which (A) shows a state before an anesthetic is injected, and (B) is after an anesthetic is injected. It is a figure which shows the state of. 2 is a cross-sectional view of the dental syringe 1 shown in FIG. 1, (A) shows a state before the anesthetic is injected, and (B) shows a state after the anesthetic is injected. FIG. FIG. 3 is a block diagram for explaining a schematic configuration of the dental unit 21 to which the dental syringe 1 shown in FIG. 1 is connected.

  The dental syringe 1 of this embodiment (hereinafter referred to as “injector 1”) is a syringe used when injecting an anesthetic (specifically, a local anesthetic) into an affected area of a patient in dental treatment. . The syringe 1 includes a cartridge holding unit 3 that holds a cartridge 2 in which an anesthetic is sealed, and a cylinder portion 5 and a lever member 6 for discharging the anesthetic from the injection needle 4. In the following description, the X1 direction side in FIG. 1 and the like is the “left” side, and the X2 direction side is the “right” side.

  The cartridge 2 is disposed in the cartridge main body 7, which is formed in a substantially cylindrical shape, the rubber plug 8 on the fixed side fixed to the left end of the cartridge main body 7, and movable in the cartridge main body 7. And a movable rubber plug 9 on the movable side. In the cartridge 2 before the anesthetic is injected, as shown in FIG. 2 (A), the rubber stopper 9 is arranged inside the right end side of the cartridge body 7, and the rubber stopper 8 and the rubber stopper 9 are An anesthetic is enclosed between them.

  The cartridge holding part 3 is formed in a substantially cylindrical shape, and holds the cartridge 2 therein. As shown in FIG. 1, the cartridge holding portion 3 is formed with an opening 3 a for visually confirming the anesthetic in the cartridge 2. A disposable injection needle 4 is mounted on the left end side of the cartridge holder 3 by, for example, a luer lock method. The base end side (right end side) of the injection needle 4 attached to the left end side of the cartridge holding part 3 passes through the rubber stopper 8, and the base end (right end) of the injection needle 4 is located inside the cartridge body 7. Has been placed.

  The right end side of the cartridge holding part 3 is an enlarged diameter part 3 b for attaching the cartridge holding part 3 to the cylinder part 5. A female thread is formed on the inner peripheral surface of the enlarged diameter portion 3b. The cartridge holding part 3 is attached to the left end of the cylinder part 5, and the cartridge holding part 3 and the cylinder part 5 are arranged coaxially.

  The cylinder portion 5 includes a piston 11 that moves the rubber stopper 9 to discharge the anesthetic from the tip (left end) of the injection needle 4 and a cylinder 12 that the piston 11 reciprocates inside. The piston 11 includes a plunger 13 formed in an elongated cylindrical shape and a substantially disc-shaped piston main body 14 fixed to the right end of the plunger 13. The cylinder 12 includes a cylinder body 15 formed in a substantially bottomed cylindrical shape, and a lid member 16 that covers an opening of the cylinder body 15. In this embodiment, the outer peripheral surface of the cylinder 12 is a grip portion that is held by a person who performs an injection, such as a dentist, and the person who performs the injection is, for example, the outer periphery of the cylinder 12 so as to hold a pencil. Hold the face.

  A bottom portion 15 a of the cylinder body 15 constitutes a left end surface of the cylinder body 15. An insertion hole through which the plunger 13 is inserted is formed at the center of the bottom portion 15a. A substantially cylindrical protruding portion 15b for attaching the cartridge holding portion 3 is formed at the center of the bottom portion 15a. The protruding portion 15b is formed so as to protrude leftward from the bottom portion 15a. On the outer peripheral surface of the protruding portion 15b, a male screw is formed that is screwed into a female screw formed on the inner peripheral surface of the enlarged diameter portion 3b of the cartridge holding portion 3. In addition, a plurality of air holes 15c are formed in the bottom portion 15a. For example, four through holes 15c are formed in the bottom portion 15a so as to penetrate the bottom portion 15a at a pitch of 90 °.

  The lid member 16 is formed in a bottomed cylindrical shape having a cylindrical portion 16a and a bottom portion 16b. The lid member 16 is fixed to the right end side of the cylinder body 15 so as to cover an opening formed at the right end of the cylinder body 15. The cylinder portion 16 a covers the outer peripheral surface on the right end side of the cylinder body 15. An O-ring 17 for preventing air leakage from the cylinder 12 is attached between the outer peripheral surface on the right end side of the cylinder body 15 and the inner peripheral surface of the cylindrical portion 16a.

  The bottom portion 16 b constitutes the right end surface of the cylinder 12. A compressed air supply hole 16c and a through hole 16d are formed in the bottom part 16b so as to penetrate the bottom part 16b. In this embodiment, one supply hole 16c and one through hole 16d are formed. A connector 19 to which one end of a compressed air supply pipe 18 (see FIG. 3) is attached is fixed to the supply hole 16c.

  As shown in FIG. 3, the other end of the supply pipe 18 is connected to a compressed air supply source 22 such as a compressor mounted on a dental unit 21 including a treatment chair on which a patient sits. The supply pipe 18 is a tubular member having flexibility such as a hose, for example. The dental unit 21 includes a foot pedal 23, and compressed air is supplied from the compressed air supply source 22 to the syringe 1 when a person performing injection such as a dentist operates the foot pedal 23. The dental unit 21 includes a compressed air supply source 22 and a foot pedal 23 used for treatment, as well as an air turbine for cutting the patient's teeth. An apparatus such as an air turbine that operates using compressed air as power is connected to a compressed air supply source 22.

  The plunger 13 is held by a bearing 25 that is fixed to the protruding portion 15 b of the cylinder body 15, and can move in the left-right direction together with the piston body 14. In this embodiment, as shown in FIG. 2 (B), the plunger 13 protrudes to the left side of the cylinder 12, enters the cartridge body 7, and pushes the rubber plug 9 to the left side. That is, in this embodiment, the left end side of the cylinder 12 is one end side that is the protruding side of the plunger 13, and the right end side of the cylinder 12 is the other end side that is the opposite side of the one end side.

  The piston body 14 is formed in a substantially disc shape as described above. The outer diameter of the piston body 14 is formed slightly smaller than the inner diameter of the cylinder body 15. An O-ring 26 for preventing air leakage is disposed between the outer peripheral surface of the piston main body 14 and the inner peripheral surface of the cylinder main body 15. The piston body 14 is movable in the left-right direction within the cylinder 12. Note that the force by which the plunger 13 pushes the rubber plug 9 of the cartridge 2 depends on the area of the piston main body 14 and the pressure in the cylinder 12 (specifically, the pressure between the bottom 16b of the lid member 16 and the piston main body 14). It depends on the product.

  The lever member 6 is rotatably attached to the outer peripheral surface on the right end side of the lid member 16. Specifically, the lever member 6 rotates about two fixed shafts 27 fixed to the outer peripheral surface on the right end side of the lid member 16 with the direction orthogonal to the left-right direction (the vertical direction in FIG. 2) as the axial direction. Supported as possible. The lever member 6 includes an opening / closing portion 6 a that opens and closes the through hole 16 d, an operation portion 6 b disposed on the outer peripheral side of the cylinder 12, and two support portions 6 c that are supported by the fixed shaft 27.

  The two support portions 6 c are formed in a curved plate shape that curves along the outer peripheral surface on the right end side of the lid member 16. The base ends of the two support portions 6c are connected. Further, the distal end side of the support portion 6 c is supported by the fixed shaft 27. The operation portion 6b is formed in a flat plate shape extending from the portion where the base ends of the two support portions 6c are connected toward the cartridge holding portion 3 side. In the present embodiment, when the lever member 6 is in a closed position (described later) (when the lever member 6 is in the position shown in FIG. The operation portion 6b is formed so as to be slightly disposed on the right side. The opening / closing part 6 a is formed in a flat plate shape and is bent at 90 ° from the right end of the operation part 6 b, and is disposed on the right side of the cylinder 12. A flat plate-like sealing member (packing) 28 made of rubber or the like for closing the through hole 16d is fixed to the left side surface of the opening / closing portion 6a.

  As shown in FIGS. 1 (A) and 2 (A), the lever member 6 has an open position where the through hole 16d is opened, and a through hole as shown in FIGS. 1 (B) and 2 (B). 16d can be rotated between a closed position closed by the opening / closing portion 6a, and functions to open and close the through hole 16d. Further, as shown in FIG. 2A, the lever member 6 is urged in a direction in which the through hole 16d is opened by a plate spring 29 as an urging member.

(How to operate a dental syringe)
When injection is performed with the syringe 1 configured as described above, a person who performs injection such as a dentist first attaches the injection needle 4 to the cartridge holding unit 3. Further, after the cartridge 2 is inserted into the cartridge holding unit 3 removed from the cylinder unit 5, the cartridge holding unit 3 is attached to the cylinder unit 5. At this time, the piston 11 is moved so that the piston main body 14 is arranged on the right end side inside the cylinder 12. Further, the supply pipe 18 connected to the compressed air supply source 22 is connected to the connector 19.

  In this state, the person who performs the injection grasps the syringe 1 (specifically, grasps the outer peripheral surface of the cylinder 12) and inserts the injection needle 4 into the affected area, and then operates the foot pedal 23. When the foot pedal 23 is operated, compressed air is supplied into the cylinder 12 (specifically, between the bottom 16b of the lid member 16 and the piston body 14). Since the lever member 6 is biased by the leaf spring 29 in the direction in which the through hole 16d is opened, as shown in FIG. 2A, if the lever member 6 is not operated, the through hole 16d is opened. Even if compressed air is supplied to the inside of the cylinder 12, the air inside the cylinder 12 escapes from the hole 16d to the outside of the syringe 1, and the piston 11 does not move.

  On the other hand, when the person performing the injection operates the operating portion 6b of the lever member 6 with a finger and closes the through hole 16d with the sealing member 28 fixed to the opening / closing portion 6a, as shown in FIG. The compressed air supplied from the supply hole 16c is filled into the cylinder 12, and the piston 11 moves to the left. When the piston 11 moves to the left side, the plunger 13 protrudes to the left side of the cylinder 12 and enters the cartridge body 7 to push the rubber plug 9 to the left side. When the rubber stopper 9 is pushed and moved to the left side, the anesthetic in the cartridge 2 is discharged from the tip of the injection needle 4 and the anesthetic is injected into the affected area. In addition, since the through hole 15c is formed in the bottom portion 15a of the cylinder body 15, the movement of the piston 11 to the left side is not hindered.

  When injecting an anesthetic into the affected area, the moving speed of the piston 11 can be adjusted by adjusting the operation amount of the lever member 6 to adjust the air pressure inside the cylinder 12. That is, when an anesthetic is injected into the affected area, the discharge rate of the anesthetic from the injection needle 4 can be adjusted by adjusting the operation amount of the lever member 6. Specifically, when the operation amount of the lever member 6 is increased in a direction in which the tip (left end) of the operation portion 6b of the lever member 6 approaches the cylinder 12, and the opening 16d is completely blocked by the opening / closing portion 6a, the cylinder Since the air pressure inside 12 increases and the moving speed of the piston 11 increases, the discharge speed of the anesthetic from the injection needle 4 increases. On the other hand, when the operating amount of the lever member 6 in the direction in which the tip of the operating portion 6b approaches the cylinder 12 is reduced and the opening / closing portion 6a closes the hole 16d so that air is slightly released from the hole 16d, the piston Since the moving speed of 11 decreases, the discharge speed of the anesthetic from the injection needle 4 decreases. Further, when an anesthetic is injected into the affected area, the amount of the anesthetic discharged from the injection needle 4 can be adjusted by adjusting the operation time of the lever member 6.

  When the injection of the anesthetic into the affected area is completed, the person who performs the injection operates the foot pedal 23 while removing the needle from the affected area, and stops the supply of compressed air to the inside of the cylinder 12. In addition, the person who performs injection releases his / her finger from the lever member 6 to open the through hole 16d, lowers the pressure inside the cylinder 12, and stops the piston 11. That is, the discharge of the anesthetic from the injection needle 4 is stopped.

(Main effects of this form)
As described above, in this embodiment, the anesthetic is discharged from the injection needle 4 by moving the piston 11 using the compressed air supplied from the supply hole 16 c of the cylinder 12. Therefore, it is not necessary for the person performing the injection to manually push the piston 11 and discharge the anesthetic from the injection needle 4. Therefore, with this form, the person who injects can reduce the effort at the time of injecting an anesthetic. Further, in this embodiment, since the piston 11 is moved using the compressed air supplied from the supply hole 16c, it is not necessary to incorporate a drive source such as a motor in the syringe 1. Therefore, in this embodiment, the syringe 1 can be reduced in size, weight, and cost. In this embodiment, since the syringe 1 does not include a drive source such as a motor, the entire syringe 1 can be easily sterilized by steam sterilization or the like.

  In this embodiment, the through hole 16d is opened and closed by operating the lever member 6. Therefore, it is possible to open and close the through hole 16d with a relatively simple configuration. Further, in this embodiment, the outer peripheral surface of the cylinder 12 is a grip portion that is gripped by the person performing the injection, and the operation portion 6 b of the lever member 6 is disposed on the outer peripheral side of the cylinder 12. . That is, in this embodiment, the operation part 6b is arranged near the outer peripheral surface of the cylinder 12 that becomes the grip part of the syringe 1. Therefore, a person who performs injection can easily operate the operation unit 6b with a finger. Therefore, in this embodiment, the operation of the lever member 6 is facilitated.

  In this embodiment, the lever member 6 is biased by the leaf spring 29 in the direction in which the through hole 16d is opened. Therefore, the anesthetic is not discharged from the injection needle 4 unless the person who performs the injection operates the lever member 6 against the urging force of the leaf spring 29. That is, in this embodiment, the anesthetic is not discharged from the injection needle 4 simply by operating the foot pedal 23, and the lever member 6 functions as a safety device. Therefore, in this embodiment, it becomes possible to prevent the anesthetic agent from being erroneously injected into the affected area due to an operation mistake when injecting the anesthetic agent.

  In this embodiment, the cylinder 12 is connected to a compressed air supply source 22 mounted on the dental unit 21, and the piston 11 is moved by the compressed air supplied from the compressed air supply source 22. That is, in this embodiment, the piston 11 is moved using a compressed air supply source 22 that is generally mounted on the dental unit 21 in order to drive an air turbine or the like. Therefore, in this embodiment, it is not necessary to separately provide a compressed air supply source for moving the piston 11.

  In this embodiment, when an anesthetic is injected into the affected area, the discharge rate of the anesthetic from the injection needle 4 can be adjusted by adjusting the operation amount of the lever member 6. Therefore, at the initial stage of injection, it is possible to reduce the injection speed of the anesthetic into the affected area and increase the injection speed of the anesthetic into the affected area after the anesthesia begins to work. Therefore, with this form, it becomes possible to inject an anesthetic in a short time, reducing the pain of the patient at the time of injection.

(Other embodiments)
In the embodiment described above, the cartridge holding unit 3 is attached to the left end of the cylinder unit 5 and the cartridge holding unit 3 and the cylinder unit 5 are arranged on the same axis, but the cartridge holding unit 3 is shown in FIG. As shown, the axis of the cartridge holding part 3 and the axis of the cylinder part 5 may be shifted from each other and parallel to the cylinder part 5. In this case, as shown in FIG. 4 (A), the plunger 13 may be formed so as to protrude from the cylinder 12 to the left and then be folded back to the right and further folded to the left. In this case, as shown in FIG. 4B, the plunger 13 may be formed so as to protrude from the cylinder 12 to the right and then be folded back to the left. In the example shown in FIG. 4B, the right end side of the cylinder 12 is the protruding side of the plunger 13, and a supply hole 16 c and a through hole 16 d are formed on the right end surface of the cylinder 12 that is the protruding end surface of the plunger 13. When the cartridge holding part 3 is arranged in a state where the axis of the cartridge holding part 3 and the axis of the cylinder part 5 are shifted and parallel to the cylinder part 5, the total length (length in the left-right direction) of the syringe 1 Can be shortened.

  As shown in FIG. 4B, when the plunger 13 protrudes to the right from the cylinder 12, the area of the piston main body 14 pushed by the compressed air supplied from the supply port 16c is equal to the outer diameter of the plunger 13. Therefore, the force with which the piston 11 pushes the rubber plug 9 of the cartridge 2 is reduced. On the other hand, when the plunger 13 protrudes from the cylinder 12 to the left as shown in the above-described form and FIG. 4A, the piston 13 is compared with the case where the plunger 13 protrudes from the cylinder 12 to the right. The force with which 11 pushes the rubber plug 9 can be increased.

  In the above-described embodiment, the opening / closing operation of the through hole 16d is performed using the lever member 6, but instead of the lever member 6, for example, a person who performs injection presses the operation button with a finger or the finger from the operation button. The opening / closing operation of the through hole 16d may be performed using an air valve that opens and closes the through hole 16d by releasing the. Further, the opening / closing operation of the through hole 16d may be performed by the person performing the injection closing the through hole 16d with a finger or releasing the finger from the through hole 16d.

  In the above-described embodiment, the supply hole 16c and the through hole 16d are formed in the bottom portion 16b constituting the right end surface of the cylinder 12, but compressed air is supplied between the bottom portion 16b and the piston body 14, and the bottom portion A supply hole and a through hole may be formed on the outer peripheral surface on the right end side of the cylinder 12 so that air can escape from between the 16b and the piston body 14.

  In the embodiment described above, the lever member 6 is biased by the leaf spring 29 in the direction in which the through hole 16d is opened. However, the lever member 6 is pushed by a spring member other than the leaf spring 29 or an elastic member such as rubber. It may be biased in the direction in which the through hole 16d is opened. The lever member 6 may not be biased by the leaf spring 29 or the like.

  In the above-described embodiment, when the piston 11 is moved to the right side, the cartridge holding part 3 is removed from the cylinder part 5 and the plunger 13 protruding from the cylinder 12 is pushed to the right side by hand to move the piston 11. An urging member such as a compression coil spring may be inserted between the bottom portion 15a of the piston 15 and the left side surface of the piston main body 14, and the piston 11 may be moved to the right side using the urging force of the urging member.

1 Syringe (Dental Syringe)
DESCRIPTION OF SYMBOLS 2 Cartridge 3 Cartridge holding part 4 Injection needle 6 Lever member 6a Opening / closing part 6b Operation part 9 Rubber plug 11 Piston 12 Cylinder 16c Supply hole 16d Retraction hole 21 Dental unit 22 Compressed air supply source 29 Plate spring (biasing member)

Claims (5)

A cartridge holding part for holding a cartridge filled with an anesthetic, a piston for moving the rubber stopper of the cartridge to discharge the anesthetic from an injection needle attached to the cartridge holding part, and the piston reciprocating inside And a cylinder to
A compressed air supply hole and a through hole are formed on one end side of the cylinder which is the protruding side of the piston or the other end side which is the opposite side of the one end side,
When the hole is closed, the piston is moved by the compressed air supplied from the supply hole, and the anesthetic is discharged from the injection needle. A lever member for opening and closing the through hole;
The dental syringe according to claim 1, wherein the lever member is rotatably attached to the cylinder. The supply hole and the through hole are formed in an end face of the other end side of the cylinder,
The outer peripheral surface of the cylinder is a grip part of the dental syringe,
The lever member includes an opening / closing portion that opens and closes the through hole and an operation portion that is disposed on an outer peripheral side of the cylinder, and the other end side of the cylinder having a direction orthogonal to the moving direction of the piston as an axial direction. The dental syringe according to claim 2, wherein the dental syringe is rotatably attached to the outer peripheral surface of the dental syringe.   The dental syringe according to claim 3, further comprising a biasing member that biases the lever member in a direction in which the through hole is opened.   The dental syringe according to any one of claims 1 to 4, wherein the supply hole is connected to a compressed air supply source mounted on a dental unit including a treatment chair on which a patient sits.

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