KR102055279B1 - disital anesthetic solution injection device - Google Patents

Abstract

Digital anesthesia injection device according to an embodiment of the present invention, a digital anesthesia injection device is provided with a syringe having an injection body for storing the anesthetic fluid and the injection piston for pressing the anesthetic fluid, anesthesia is injected into the tissue A main body part provided with a display panel displaying an injection pressure, an injection speed, and an injection amount when the injection pressure is generated; A seating unit installed in the main body and on which the scanning body is seated; A piston pressing part spaced apart from the seating part so as to be movable back and forth and mounted on the main body part and on which the injection piston is seated; And when the injection rate and the injection amount of the anesthetic liquid is set, and includes a control unit for controlling the operation of the piston pressing unit in accordance with the set injection speed and the injection amount, If the injection speed and injection amount of the anesthetic liquid is set, the piston pressing unit moves forward toward the seating portion While the injection piston is operated to pressurize the anesthetic liquid stored in the injection body so that the anesthetic liquid is discharged from the injection body at the set injection speed and the set injection amount, and the piston pressurizing portion is injected into the tissue by the set injection amount. While the forward movement is stopped and backward movement, the injection piston is operated to suck the anesthetic liquid into the injection body, thereby preventing the anesthetic liquid from being injected into the tissue in excess of the set injection amount, and the display panel, In operation, the amount of anesthetic liquid discharged from the scanning body and when the anesthetic liquid is injected into the tissue That the input pressure to be displayed is preferred.

Description

Digital anesthetic solution injection device

The present invention relates to a digital anesthesia injection device, in particular a digital anesthesia injection device that can prevent the shaking of the operator, and can stably inject the anesthetic fluid into the tissue without being affected by the condition of the operator It is about.

Implants, which are originally meant to be a replacement when a tissue is lost, are a series of procedures in which dentists implant artificial teeth.

The implant procedure causes a lot of pain in the subject by performing a gum incision, a drilled perforation, etc. in the procedure. Therefore, local anesthesia for the site is essential in the implant procedure.

Such local anesthesia is usually performed by injecting anesthesia into the procedure by pressurizing the anesthetic with a syringe. At this time, if the infusion rate of the anesthetic liquid, that is, the pressure of the anesthetic liquid is fast, excessive pressure is generated in the injection portion of the anesthetic liquid, and thus the subject feels pain.

Therefore, infusion of anesthesia should be made as slow as possible. However, slowing the infusion rate of anesthesia increases the infusion time of anesthesia, which in turn increases the time the operator is holding the syringe.

Increasing the time the operator holds the syringe, it is difficult for the operator to maintain a constant injection rate, as well as shaking may occur. As a result, the patient has to open his or her mouth for a long time, and the operator feels pain due to the shaking of the operator.

Many attempts have been made to solve this problem, and medical injection injectors as disclosed in Korean Patent No. 10-0589007 have been developed.

However, the drug injection device forming the above structure has a disadvantage that the structure of the drug injection device is complicated and heavy, which is difficult because the surgeon is holding it for a long time, and that additional pain due to hand shaking may occur during the drug injection process. have.

Specifically, in the case of the registered patents, since the motor must be mounted inside the injection device that the surgeon must hold by hand, the weight of the injection device is inevitably increased.

The present invention is an anesthesia injection device that is selected so that the injection rate and the injection amount of the anesthetic fluid by the operator's operation, the needle is inserted into the tissue, the anesthetic fluid is injected into the tissue by the operation of the operation button of the injection connector The purpose is to provide.

As a result, the present invention can prevent the shaking of the operator even if the anesthesia treatment time of the operator increases, and at the same time, digital anesthesia that can stably inject the anesthetic liquid into the tissue without being affected by the condition of the operator. It is an object to provide a liquid injection device.

In addition, an object of the present invention is to provide a digital anesthesia injection device that allows the operator to select the injection or suction through the operation of the button in the injection solution injection, which can stably inject the anesthetic fluid into the tissue of the chamber. .

Digital anesthesia injection device according to an embodiment of the present invention, a digital anesthesia injection device is provided with a syringe having an injection body for storing the anesthetic fluid and the injection piston for pressing the anesthetic fluid, anesthesia is injected into the tissue A main body part provided with a display panel displaying an injection pressure, an injection speed, and an injection amount when the injection pressure is generated; A seating unit installed in the main body and on which the scanning body is seated; A piston pressing part spaced apart from the seating part so as to be movable back and forth and mounted on the main body part and on which the injection piston is seated; And when the injection rate and the injection amount of the anesthetic liquid is set, and includes a control unit for controlling the operation of the piston pressing unit in accordance with the set injection speed and the injection amount, If the injection speed and injection amount of the anesthetic liquid is set, the piston pressing unit moves forward toward the seating portion While the injection piston is operated to pressurize the anesthetic liquid stored in the injection body so that the anesthetic liquid is discharged from the injection body at the set injection speed and the set injection amount, and the piston pressurizing portion is injected into the tissue by the set injection amount. While the forward movement is stopped and backward movement, the injection piston is operated to suck the anesthetic liquid into the injection body, thereby preventing the anesthetic liquid from being injected into the tissue in excess of the set injection amount, and the display panel, In operation, the amount of anesthetic liquid discharged from the scanning body and when the anesthetic liquid is injected into the tissue That the input pressure to be displayed is preferred.

In one embodiment of the present invention, the piston pressing portion, the piston pressing body is provided with a plurality of first pressing fitting groove, is installed to be movable back and forth; A piston press cover hinged to the piston press main body to open and close the inner space of the piston press main body, and a plurality of second press fitting grooves provided at positions corresponding to the plurality of first press fitting grooves; And a linear motor coupled to the piston presser body to provide driving force to the piston presser body such that the piston presser body moves forward or backward. The piston presser body moves forward or rests on the seating portion when the linear motor is operated. It is moved backwards, and the injection piston is coupled to any one of the first pressing fitting groove and any one of the second pressing fitting groove is coupled to the piston pressing body and the piston pressing cover, which is moved in the same direction as the piston pressing body. It is preferable.

delete

In one embodiment of the present invention, the seating portion is fixed to the main body, the seating jaw corresponding to the scanning body and the seating body is provided with a first seating fitting groove that is fitted to the wing portion of the scanning body; A seating cover hinged to the seating body to open and close the inner space of the seating body, and a seating cover provided with a second seating fitting groove at a position corresponding to the first seating fitting groove; And a sensing unit installed at the seating body to sense whether the scanning body is seated.

In one embodiment of the present invention, the main body and the injection connector detachably connected to the main body is further provided, the injection connector, the connector body is provided with an operation button on the outer surface and the needle is installed, the main body and the needle It is preferable to include an injection pipe for connecting the connector, and a connector wire for connecting the control unit and the operation button.

In one embodiment of the present invention, the piston pressing portion is moved forward toward the seating portion when the operation button is pressed once, and moving backwards away from the seating portion when pressing the operation button twice, adjusting the position of the injection piston It is preferable.

The present invention is operated by the operator to select the injection rate and the injection amount of the anesthetic liquid, and after the needle is inserted into the tissue, the anesthetic liquid is operated to be injected into the tissue by the operation of the operation button of the injection connector, unlike the conventional Anesthesia can be easily injected into the subject's tissue without being affected by the condition.

Therefore, the present invention can prevent the shaking of the operator even if the anesthesia treatment time of the operator is increased, and at the same time, it is possible to stably inject the anesthetic liquid into the tissue without being affected by the condition of the operator.

In addition, the present invention can manipulate the injection amount and the injection speed of the anesthesia solution injected into the tissue, it is possible to visually check the injection amount, it is possible to determine in real time whether the anesthetic solution is injected into the tissue in the amount selected by the operator.

In addition, the present invention allows the operator to select the injection or suction through the button operation in the injection solution injection portion, it is possible to prevent the injection of anesthesia into the blood vessel or to inject the anesthetic fluid into the tissue in excess of the amount.

The present invention is compared with the case of manually injecting the anesthesia into the tissue, and unlike the liver before, even if the anesthesia operation time of the operator is increased, it is not affected by the condition of the operator, the quantitative anesthesia solution stably into the tissue of the subject Can be injected

In addition, unlike the conventional case where the operator directly lifts the heavy object injection device by a component such as a motor and injects the anesthetic liquid into the tissue, the present invention uses an injection connector connected to the apparatus body to inject the anesthetic liquid into the tissue. By injecting, the operator can prevent the shaking of the hand due to the weight of the device in the process of injecting anesthesia into the tissue.

1 schematically illustrates a perspective view of a digital anesthesia injection device before a syringe is mounted, in accordance with an embodiment of the present invention.
2 is a schematic front perspective view of a digital anesthesia injection device equipped with a syringe, in accordance with an embodiment of the present invention.
Figure 3 schematically shows a rear perspective view of a digital anesthesia injection device equipped with a syringe, according to an embodiment of the present invention.
4 schematically illustrates a configuration of a scanning connector.
Figure 5 schematically shows an operating state diagram of the digital anesthesia injection device according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described for the digital anesthetic liquid injection device according to a preferred embodiment of the present invention.

Anesthesia has a problem of paralysis of nerves when injected into blood vessels or nerves, so the anesthetic solution must be injected into tissues such as muscles or gums. Even if the experience is large, when anesthesia solution is automatically injected using the device, the anesthetic solution may be injected without knowing the needle is inserted into the blood vessel or nerve. In order to prepare for this problem, the present invention can check whether the blood is aspirated into the infusion tube using a suction function, and check the injection pressure in real time to confirm whether the needle is inserted into another part of the tissue. Therefore, the anesthetic liquid can be stably injected into the tissue regardless of the treatment experience.

Digital anesthesia injection device according to an embodiment of the present invention, after the needle is inserted into the tissue by the operator, if the injection rate and the injection amount of the anesthetic is selected by the operator's device operation, the injection piston is stored in the injection body Anesthesia is operated to pressurize, and anesthesia is a device for injecting the tissue.

As shown in Figures 1 to 3, the digital anesthetic liquid injection device 100 is the main body 110, the seating portion 120, the piston pressing unit 130, the control unit (not shown), the syringe 160 and The injection connector 170 is included. Here, the syringe 160 and the injection connector 170 is preferably a disposable product. The syringe 160 includes an injection body 161 and an injection piston 162.

As shown in FIGS. 1 and 2, the main body 110 includes a support 112, a main body housing 115, and a display panel 117.

The support part 112 supports the seating part 120 and the piston pressing part 130.

The main body housing 115 has a power control switch 111a, a charging port 111b, a USB mounting portion 111c, a connector mounting portion 115a, a display panel 117, a speed control button 118, and an injection amount control button 119. ) Is installed. The connector seating portion 115a is mounted with the scan connector 170. The scan connector 170 will be described later.

The display panel 117 displays an injection pressure, an injection speed, and an injection amount when anesthesia solution is injected into the tissue 10. The display panel 117 includes a battery charge display 117a, an injection pressure display 117b, an injection speed display 118a, and an injection amount display 119a.

As shown in FIG. 1, the injection pressure display unit 117b is a portion in which an injection pressure when an anesthetic liquid is injected into the tissue 10 is displayed. The discharge amount display unit 117c is a portion in which the amount of anesthetic liquid discharged from the scanning body 161 is displayed when the anesthetic liquid is injected into the tissue 10. In the present invention, when injecting the anesthetic liquid into the tissue 10, the operator can check the amount of anesthetic liquid discharged from the injection body and the injection pressure when the anesthetic liquid is injected into the tissue in real time.

The speed control button 118 is a button for manipulating the injection speed of the anesthetic liquid injected into the tissue 10. The injection speed is input to the controller (not shown) by the speed operation button 118 and displayed on the injection speed display unit 118a. The injection amount manipulation button 119 is a button for manipulating the injection amount of the anesthetic liquid injected into the tissue 10. The injection amount is input to the controller (not shown) by the injection amount operation button 119 and displayed on the injection amount display unit 119a.

As shown in FIG. 3, the power operation switch 111a is provided at the rear of the main body housing 115. The power supply operation switch 111a is a switch for operating on / off of the power supply. When the power supply operation switch 111a is turned on, the battery charge amount is displayed on the battery charge amount display unit 117a, and the digital anesthetic liquid injection device is in an operation ready state. When the power supply operation switch 111a is turned off, the operation of the digital anesthetic liquid injection device is stopped.

The charging port 111b is provided at the rear of the main body housing. The charging port 111b is a portion to which an external power line is connected. The charging port 111b is electrically connected to a battery (not shown) built in the main body 110. The battery is charged when current is supplied by an external power line. The battery (not shown) supplies power to the linear motor and display panel which will be described later.

The USB mounting portion 111c is a portion where the USB is mounted. Anesthesia fluid injection information (eg, injection speed, injection amount, injection speed) may be stored in the USB (not shown).

The main body 110 has a control unit (not shown). The controller (not shown) controls the operation of the linear motor (not shown) by an operation signal selected by the injection speed operation button 118, the injection amount operation button 119, and the scan connector 170.

The seating part 120 is installed in the main body part 110. The seating unit 120 has a scanning body 161 is seated. The seating part 120 fixes the position of the scan body 161 during the operation of the scan piston 162.

As shown in FIG. 1, the seating unit 120 includes a seating body 121, a seating cover 127, and a sensing unit 129.

The seating body 121 is fixed to the main body 110. The mounting body 121 is provided with a sensing unit 129. The sensing unit 129 senses whether the scanning body 161 is seated. The sensing unit 129 is connected to a controller (not shown).

The seating body 121 is provided with a seating jaw 122 and the first seating fitting groove 125. The seating jaw 122 has a shape corresponding to the scan body 161. The seating jaw 122 has a diameter larger than the outer diameter of the scan body 161. The seating jaw 122 supports the outer surface of the scan body 161.

The first seating fitting groove 125 is a portion to which the main wing is fitted. The scan body 161 has an outer surface placed on the seating jaw 122, and the main body blade part is fitted to the first seating fitting groove 125 to be stably supported by the seating body 121. The main wing (not shown) is a portion protruding from both sides of the scanning body 161.

The seating body 121 is opened and closed by the seating cover 127. The seating cover 127 is hingedly connected to the seating body 121. The second mounting fitting groove 127a is provided on the inner surface of the seating cover 127. When the seating cover 127 is positioned to cover the inner space of the seating body 121, the second seating fitting groove 127a is positioned to face the first seating fitting groove 125.

In the present embodiment, the scan body 161 is seated on the seating body 121, and when the seating cover 127 covers the seating body 121, the main body blade is fitted into the second seating fitting groove (127a) Once again, the position is limited, thereby preventing it from being detached from the seating portion 120.

As shown in FIG. 1, the piston pressing unit 130 is spaced apart from the seating unit 120, and is installed in the main body unit 110 so as to be movable back and forth. The piston pressurizing unit 130 pressurizes the scan piston 162. As shown in FIG. 2 and FIG. 3, the piston piston 162 is mounted with a scanning piston 162.

The piston pressurizing unit 130 includes a piston pressurizing body 131, a piston pressurizing cover 137, and a linear motor (not shown).

The piston press body 131 is installed in the main body 110 so as to be movable back and forth. The piston press body 131 is located coaxially with the seating body 121. The piston pressing body 131 is provided with a plurality of first pressing fitting grooves 132. The plurality of first pressing fitting grooves 132 are sequentially arranged in a row.

The plurality of first pressing fitting grooves 132 are portions to which the piston blade parts (not shown) are fitted. The piston wing (not shown) is a portion protruding from the end of the injection piston 162 toward the outer circumferential surface of the injection piston 162.

The plurality of first press fitting grooves 132 are piston pistons 162 stably in consideration of the change in the overall length of the syringe 160 according to the capacity of the anesthetic liquid stored in the injection body 161. 131).

The injection piston 162 is coupled to the piston pressing body 131 while the piston blade portion (not shown) is fitted to the first pressing fitting groove 132 of any one of the plurality of first pressing fitting grooves 132. The piston pressing cover 137 is fitted to any one of the second pressing fitting grooves 138 while closing the piston pressing body 131 and is coupled to the piston pressing cover 137.

The piston pressurizing body 131 is opened and closed by the piston pressurizing cover 137. The piston pressing cover 137 is hingedly connected to the piston pressing body 131. A plurality of second pressing fitting grooves 138 are provided on the inner surface of the piston pressing cover 137. When the piston pressing cover 137 is positioned to cover the inner space of the piston pressing body 131, the plurality of second pressing fitting grooves 138 are positioned to face the plurality of first pressing fitting grooves 132.

In the present embodiment, after the injection piston 162 is seated on the piston pressurizing body 131, when the piston pressurizing cover 137 covers the piston pressurizing body 131, the piston wing portion (not shown) is fitted with the second pressurization. It is fitted into the groove 138.

The piston press body 131 is connected to a linear motor (not shown). During operation of the linear motor (not shown), the piston press body 131 is moved forward toward the seating body 121, or is moved back away from the seating body 121.

When the piston press body 131 moves forward toward the seating body 121, the injection piston 162 pressurizes the injection liquid. When the piston presser body 131 is moved backwards away from the seating body 121, the injection piston 162 moves backward with respect to the injection body 161 and moves the anesthetic liquid discharged to the injection connector 170 to the injection body ( 161).

When the anesthesia liquid is injected into the tissue by the set injection amount, the piston pressing unit 130 stops forward movement of the piston pressing body 131 and moves backward. The injection piston 162 is operated to suck the anesthetic liquid into the injection body 161. Accordingly, the present invention can prevent the anesthetic liquid from being injected into the tissue in excess of the set injection amount.

Meanwhile, as shown in FIG. 2, the scan connector 170 is detachably connected to the scan body 161 and the main body 110. The injection connector 170 includes a connector body 171, an operation button 172, a needle 173, a protection tube 174, an injection tube 175, and a connector wire 176.

One end of the connector body 171 is provided with a needle (173). The operation button 172 is provided on the outer surface of the connector body 171. The connector wire 176 is electrically connected to the operation button 172. The operation button 172 is a button for operating the injection operation and the suction operation of the anesthetic liquid.

The operation signal of the operation button 172 is transmitted to the controller (not shown) through the connector wire 176. The controller (not shown) may control the driving of the piston pressing unit 130 according to the operation signal of the operation button 172.

When the operation button 172 is pressed once, the piston pressurizing unit 130 moves forward toward the seating unit 120 and pressurizes the injection liquid stored in the scanning body 161. When the operation button 172 is pressed twice, the piston pressing unit 130 may move back away from the seating unit 120, and suck the injection liquid into the scanning body 161. Accordingly, the present invention can adjust the injection operation in which the anesthetic liquid is discharged to the outside, or the suction operation in which the anesthetic liquid is sucked into the injection body 161 in real time, and rapidly injects the anesthetic liquid in response to the condition of the subject. You can stop.

The other end of the connector body 171 is provided with a protective tube (174). The protective tube 174 protects the injection tube 175 and the connector wire 176. Injection tube 175 is installed in the connector body 171 in communication with the injection needle (173). The injection tube 175 is detachably coupled to the scan body 161. The injection tube 175 is a flow passage of the anesthetic liquid.

The connector wire 176 is installed in the connector body 171 to be electrically connected to the operation button 172. The connector wire 176 is detachably coupled to the main body 110. The connector wire 176 electrically connects the operation button 172 and a controller (not shown).

As shown in FIG. 1, in the injection connector 170 according to an embodiment, the injection needle 173 may be manufactured integrally with the connector body 171. Injection connector 170 according to one embodiment is a disposable product that is discarded after a single procedure.

Meanwhile, FIG. 4 illustrates a scan connector 180 according to another example. As shown in FIG. 4, the injection connector 180 according to another example may have a structure detachable from the needle 183. The scan connector 180 according to another example includes a connector body 181, an operation button 182, an injection tube 185, and a connector wire 186.

However, the injection connector 180 according to another example is made of a separate component from the injection needle (183). The injection connector 180 according to another example is not a disposable product, and can be reused after undergoing disinfection after the procedure. The scan connector 180 according to another example also has the same operation method as the scan connector 170 according to an embodiment, and a description thereof will be omitted.

Hereinafter, a suction function and an injection function according to the operating state of the digital anesthesia injection device 100 will be described with reference to FIG. 5.

The suction function of the present invention is as follows.

When the operation button 172 of the scan connector 170 is pressed twice in a row, the linear motor (not shown) is operated by the control unit (not shown) so that the piston press body 131 moves backward. When the piston presser body 131 moves backwards away from the seating part 120, the injection piston 162 moves backward with the piston presser body 131 to scan the anesthetic liquid and air in the injection tube 175. The body 161 is suctioned.

Next, the injection function of the present invention is as follows.

When the injection needle 173 is inserted into the tissue 10, the injection speed and the injection amount of the anesthetic fluid are selected by the operator, and the operation button 172 of the injection connector 170 is pressed once, the control unit (not shown) The linear motor (not shown) is operated so that the piston press body 131 moves forward.

When the piston press body 131 is moved forward toward the seating portion 120, the injection piston 162 moves forward with the piston press body 131, pressurizes the anesthetic liquid. Accordingly, the anesthetic liquid is discharged from the injection body 161 to the injection tube 175 of the injection connector 170 and injected into the tissue 10 through the injection needle 173.

When the injection amount is injected into the tissue 10, the piston pressure unit 130 is operated to suck the anesthetic liquid in the injection connector 170 to the injection body 161 while moving backward, so that the anesthetic liquid exceeds the amount of the tissue ( 10) can be prevented.

According to the present invention, the operator can select the injection or suction through the button manipulation in the injection connector 170, thereby preventing the anesthesia from being injected into the blood vessel or the anesthesia solution into the tissue 10 in excess of the dose.

In addition, the present invention is operated so that the anesthetic fluid is injected into the tissue 10 by the operation of the operation button 172 of the injection connector 170, unlike the conventional condition of the subject's tissue 10 without being affected by the condition of the operator Anesthesia can be easily injected into the

For this reason, the present invention, compared with the case of manually injecting anesthesia into the tissue 10, unlike the conventional anesthesia, even if the anesthesia treatment time is increased, the condition of the operator is not affected, stable quantitative anesthesia solution stable It can be injected into the tissue 10 of the subject.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

100: digital anesthetic injection device
110: main body 115: main body housing
117: display panel 118: speed operation button
119: injection amount operation button 120: seating portion
121: seating body 127: seating cover
129: sensing unit 130: piston pressing unit
131: piston press body 137: piston press cover
160: syringe 170, 180: injection connector

Claims (6)

In the digital anesthesia injection device is provided with a syringe having an injection body for storing the anesthetic solution and the injection piston for pressurizing the anesthetic liquid,
A main body portion provided with a display panel displaying an injection pressure, an injection speed, and an injection amount when the anesthetic fluid is injected into the tissue;
Installed in the main body, A seating part on which the injection body is seated;
A piston pressing part spaced apart from the seating part so as to be movable back and forth and seated on the main body, and on which the scanning piston is seated; And
If the injection rate and the injection amount of the anesthetic liquid is set, and includes a control unit for controlling the operation of the piston pressing unit in accordance with the set injection speed and injection amount,
When the injection rate and the injection amount of the anesthetic liquid are set, the piston pressing unit is moved forward toward the seating portion, the injection piston is operated to pressurize the anesthetic liquid stored in the injection body, at the set injection speed and the set injection amount The anesthetic liquid is discharged from the scanning body,
When the anesthesia liquid is injected into the tissue by the set injection amount, the piston pressurizing unit stops the forward movement toward the seating portion and moves backward, while the injection piston is operated to suck the anesthetic liquid into the interior of the injection body. Preventing the anesthetic liquid from being injected into the tissue in excess of the set injection amount,
In the display panel, the amount of anesthetic liquid discharged from the scanning body and the injection pressure when the anesthetic liquid is injected into the tissue are displayed when the piston pressurizing unit is operated.
The piston pressing unit,
A piston press body provided with a plurality of first press fitting grooves and installed to be movable back and forth in the main body;
A piston press cover hinged to the piston press main body to open and close an inner space of the piston press main body, and a plurality of second press fitting grooves provided at positions corresponding to the plurality of first press fitting grooves; And
A linear motor coupled to the piston presser body and providing a driving force to the piston presser body such that the piston presser body moves forward or backward;
The piston press main body is moved forward or away from the seating portion toward the seating portion during the operation of the linear motor,
The injection piston is fitted into any one of the first pressing fitting groove and any one of the second pressing fitting grooves is coupled to the piston pressing body and the piston pressing cover, and is moved in the same direction as the piston pressing body. Digital anesthesia injection device, characterized in that. delete delete The method of claim 1, wherein the seating portion,
A seating body fixed to the main body and provided with a seating jaw corresponding to the scanning body and a first seating fitting groove fitted with a wing portion of the scanning body;
A seating cover hinged to the seating body to open and close the inner space of the seating body, and a second seating fitting groove provided at a position corresponding to the first seating fitting groove; And
It is installed on the seating body, the digital anesthetic liquid injection device, characterized in that it comprises a sensing unit for sensing the seating of the scanning body. The method of claim 1,
A scan connector detachably connected to the main body and the scan body is further provided.
The injection connector may include a connector main body provided with an operation button on an outer surface thereof, an injection needle installed therein, an injection tube connecting the injection main body and the injection needle, and a connector wire connecting the control unit and the operation button. Digital anesthetic injection device. The method of claim 5,
The piston pressing unit is moved forward toward the seating portion when the operation button is pressed once, and moving backwards away from the seating portion when pressing the operation button twice, characterized in that for adjusting the position of the injection piston Digital anesthetic injection device.

Images