CN212307990U - Three-action coupled painless local anesthesia boosting system - Google Patents
Three-action coupled painless local anesthesia boosting system Download PDFInfo
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- CN212307990U CN212307990U CN202021600337.3U CN202021600337U CN212307990U CN 212307990 U CN212307990 U CN 212307990U CN 202021600337 U CN202021600337 U CN 202021600337U CN 212307990 U CN212307990 U CN 212307990U
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Abstract
The utility model relates to a painless local anesthesia boosting system of three action couplings includes 10 parts altogether: the device comprises a needle fixing and adjusting device, a needle cylinder fixing device, a needle cylinder linear propulsion system, a needle cylinder rotary propulsion system, a piston linear propulsion system, a pressure sensor and feedback system, a circuit control module, an interactive digital display module, a wireless chargeable direct-current power supply module and a handheld shell. When local anesthesia is performed, under the control of the circuit control module, according to resistance values and preset parameters provided by the pressure sensor and the feedback system, all three actions of puncturing tissues, injecting medicines and entering bone tissues are automated through time-sharing starting of each motion system and speed parameter adjustment, manual operation is replaced by machinery, the three actions are coupled according to parameters obtained through clinical experience, the process that the medicines enter the bone tissues painlessly and smoothly is completed, and the effects of painless injection and perfect anesthesia are achieved.
Description
Technical Field
A three-action coupled painless local anesthesia boosting system belongs to the field of medical instruments, is a local anesthesia boosting system capable of providing painless intraosseous injection, and can be applied to the medical field of oral cavity, surgery and the like.
Background
In the medical fields of stomatology, general surgery, orthopedics and the like, anesthesia is often required to be injected into bones to achieve a more perfect local anesthesia effect, and when the operation is carried out, two problems are encountered, one is injection pain which is difficult to bear by a patient, and the injection pain comprises two reasons, one is pain caused by puncturing tissues, and the other is pain caused by diffusion of medicines in the tissues. Another is that bone, especially cortical bone, is hard and difficult to access. Therefore, the technology needs to solve three problems, which are:
1. how to solve the problem of puncture pain.
2. How to solve the problem of pain generated when the medicine is diffused in tissues.
3. How to enter the bone tissue.
In order to solve the problem of pain generated during puncture, tissue surface anesthesia is firstly adopted at present, then manual slow puncture is carried out, the puncture range is ensured to be within the pre-anesthesia range as far as possible, the subsequent injection of the medicine can be manually carried out or mechanically and automatically administered, and the propelling speed of a needle head is ensured to be slower than the diffusion speed of the anesthetic as far as possible.
In order to solve the problem of pain caused by diffusion of the medicine in tissues, the medicine is slowly administered by pushing the medicine by hands or is slowly administered by mechanical control, so that the administration speed is as far as possible within the threshold range of the pain of a human body.
In order to solve the problem of entering bone tissue, the method adopted at present mainly comprises the steps of grinding the bone tissue, particularly cortical bone, by a drill and injecting the medicine by a needle, and the medicine is leaked and has poor effect because the aperture is not tightly sealed with the injection needle.
In a word, only bolus drugs realize automatic drug delivery at present, but cannot completely solve the pain problem, and no good method exists for entering bone tissues at present.
The invention realizes the automation of three actions of puncturing tissue, injecting medicine and entering bone tissue, replaces manual operation by machinery, couples the three actions according to parameters obtained by clinical experience, completes the painless and smooth process of entering the bone tissue of the medicine, and achieves the effects of painless injection and perfect anesthesia.
Disclosure of Invention
The invention comprises 10 parts in total: the device comprises a needle fixing and adjusting device, a needle cylinder fixing device, a needle cylinder linear propulsion system, a needle cylinder rotary propulsion system, a piston linear propulsion system, a pressure sensor and feedback system, a circuit control module, an interactive digital display module, a wireless chargeable direct-current power supply module and a handheld shell.
The technical scheme of the invention has the implementation mode that:
1. under the condition that the surface of the tissue is firstly coated with anesthetic for surface anesthesia, the needle cylinder linear propulsion system finishes the action of puncturing the tissue, the depth of the initial needle insertion is within the range of the effect of the surface anesthesia, the pain is avoided, the subsequent needle insertion speed is slower than the propulsion speed of the anesthetic, and the pain of a patient can be avoided when the tissue is punctured.
2. After the needle head finishes the initial needle insertion, the piston linear propulsion system finishes the action of injecting the medicine, the medicine injection speed is adjusted within the pain threshold range of a human body according to clinical experience, a patient can not feel the pain generated when the medicine is diffused in tissues, and meanwhile, the medicine diffusion speed is ensured to be greater than the speed of the needle head entering the tissues.
3. When meeting the bone tissue and producing great resistance, the syringe rotates the propulsion system and makes the syringe needle carry out reciprocating rotation, accomplishes the action of entering the bone tissue, cooperates above-mentioned two actions simultaneously, accomplishes painless in the bone and administers medicine.
The invention has the following specific contents:
1. a three-action coupled painless local anesthesia boosting system comprises a needle fixing and adjusting device, a needle cylinder fixing device, a needle cylinder linear propulsion system, a needle cylinder rotary propulsion system, a piston linear propulsion system, a pressure sensor and feedback system, a circuit control module, an interactive digital display module, a wireless chargeable direct current power supply module and a handheld shell, wherein the needle cylinder linear propulsion system, the needle cylinder rotary propulsion system, the piston linear propulsion system and the needle cylinder fixing device are connected to respectively realize three actions of linear motion, rotary motion and linear motion of a piston in a needle cylinder, the three actions are coupled by the circuit control module in cooperation with the pressure sensor and the feedback system, if the resistance is large, the needle cylinder rotary propulsion system starts to rotate back and forth at a proper frequency according to the resistance value to enter, the measurement and feedback of the advancing resistance are realized by a pressure sensor and a feedback system, the advancing resistance is transmitted to the circuit control module through a lead, and the circuit control module can be matched with proper linear advancing speed and rotation frequency according to the measured/fed-back resistance value.
2. The utility model provides a three action coupling's painless local anesthesia boosting systems, syringe needle fixing device has bayonet socket with hand-held type shell and links to each other and can dismantle, and the distance with hand-held type shell is adjustable, and inside cavity, front end opening, opening are direct 0 ~ 2 mm.
3. A three-action coupled painless local anesthesia boosting system is characterized in that a commercially available standard cartridge is arranged in a syringe fixing device, a connecting mechanism is arranged outside the syringe fixing device and is connected with a syringe linear propulsion system and a syringe rotary propulsion system, a piston of the cartridge is connected with the piston propulsion system inside the syringe, and a pressure sensor and a feedback system are connected with the piston.
4. A three-action coupled painless local anesthesia boosting system is characterized in that a needle cylinder linear propulsion system is connected with a needle cylinder fixing device through a connecting mechanism, linear motion of the needle cylinder fixing device is achieved, the minimum speed is less than or equal to 0.05mm/s (millimeter/second), the maximum speed is greater than or equal to 2mm/s (millimeter/second), the maximum stroke is greater than or equal to 20mm, and the maximum thrust is greater than or equal to 50N.
5. The utility model provides a painless local anesthesia boost system of three action couplings, syringe rotary propulsion system has coupling mechanism to link to each other with syringe fixing device, realizes syringe fixing device's reciprocating rotary motion, reciprocal rotation angle range: 60-270 degrees, and the maximum torsion is more than or equal to 1.0kgf.
6. A three-action coupled painless local anesthesia boosting system is characterized in that a piston linear propulsion system is connected with a piston of a medicine bottle in a needle cylinder fixing device and used for driving the piston to move linearly, the minimum speed is less than or equal to 0.05mm/s (millimeter/second), and the maximum speed is greater than or equal to 5mm/s (millimeter/second).
7. A three-action coupled painless local anesthesia boosting system is characterized in that a pressure sensor and a feedback system are connected with the front face of a needle cylinder fixing device, the front resistance is measured when the needle cylinder fixing device makes linear motion and is transmitted to a circuit control module, the maximum range is more than or equal to 5kg, and the precision is less than or equal to 30%.
8. A circuit control module is connected with a needle cylinder linear propulsion system, a needle cylinder rotary propulsion system, a piston linear propulsion system, a pressure sensor, a feedback system and an interactive digital display module, parameters of three motion systems are adjusted according to preset numerical values and numerical values of the pressure sensor and the feedback system, the three motions are coupled, and a final result is transmitted to the interactive digital display module.
9. The interactive digital display module displays the speed value, the resistance value, the battery state, warning/prompting information and the like of the current state, also realizes manual input speed adjustment and can display the three-action coupling result on a screen.
10. The wireless chargeable direct-current power supply module provides power for the whole system, and the charging design life of a matched rechargeable battery is longer than 1000 times or 1000 hours.
11. A three-action coupled painless local anesthesia booster system, the hand-held housing meets the requirements of ergonomics, can provide or carry pen-type or holding-type or gun-type holding modes and simultaneously provides a partial retention function for the system.
Drawings
Fig. 1 is a schematic block diagram of the present invention.
In fig. 1: 1-needle fixing and adjusting device 2-syringe fixing device 3-piston linear propulsion system
4-needle cylinder rotary propulsion system 5-needle cylinder linear propulsion system 6-circuit control module
7-pressure sensor and feedback system 8-interactive digital display module
9-wireless rechargeable direct current power supply module 10-handheld shell
Detailed Description
Example 1: reach the bone surface through the mucosa and are injected into the bone.
The injection liquid medicine adopts a special commercial local anesthetic drug (Bilan, France) of the articaine hydrochloride injection with rubber stopper glass amber, the injection needle adopts a commercial local anesthetic injection needle (25G, 11mm), and the medicine bottle is firstly put into a syringe fixing device to prepare for starting local anesthetic injection in bones.
When the injection needle is used, the surface anesthesia is firstly carried out on the mucosa surface of the part needing to be injected, then the needle cylinder linear propulsion system is started, the needle head is pushed to penetrate into the tissue, and the penetration depth is smaller than the surface anesthesia depth.
And starting the piston linear propulsion system to slowly propel the medicine into the tissue, wherein the propulsion speed is less than the human body pain threshold value, and simultaneously starting and adjusting the propulsion speed of the needle cylinder linear propulsion system to be slower than that of the piston linear propulsion system.
After the needle head reaches the bone surface, the resistance value becomes large, and according to the resistance value transmitted by the pressure sensor and the feedback system, the circuit control module starts the needle cylinder rotating and propelling system, so that the needle head rotates in a reciprocating manner, and the needle head breaks through and pierces into bone tissues.
And the circuit control module adjusts the speed of the needle cylinder linear propulsion system and the piston linear propulsion system according to a preset value, so that the requirements of medicine administration in bone tissues are met, and the intraosseous injection is completed.
The procedure is similar to transmucosal intraosseous injection, and percutaneous intraosseous injection, but for longer epianesthesia. The medicine is a special commercially available amber medicine bottle with a rubber stopper, is the only preparation in China at present, and if other medicines such as lidocaine preparation are introduced in the future, only the medicine cylinder and the needle fixing device with corresponding sizes need to be replaced.
Claims (11)
1. The utility model provides a three action coupling's painless local anesthesia boosting systems which characterized in that: the system comprises a needle fixing and adjusting device, a needle cylinder fixing device, a needle cylinder linear propulsion system, a needle cylinder rotary propulsion system, a piston linear propulsion system, a pressure sensor and feedback system, a circuit control module, an interactive digital display module, a wireless chargeable direct current power supply module and a handheld shell, wherein the needle cylinder linear propulsion system, the needle cylinder rotary propulsion system, the piston linear propulsion system and the needle cylinder fixing device are connected to respectively realize three actions of linear motion and rotary motion of the needle cylinder fixing device and linear motion of a piston in the needle cylinder, the three actions are coupled through the circuit control module in cooperation with the pressure sensor and the feedback system, if the resistance is large, the needle cylinder rotary propulsion system starts to rotate in a reciprocating mode at a proper frequency according to the resistance value to enter, and the measurement and feedback of the advancing resistance are realized by the pressure sensor and the feedback system, the resistance value is transmitted to the circuit control module through a lead, and the circuit control module can be matched with the proper linear propulsion speed and rotation frequency according to the measured/fed-back resistance value.
2. The system of claim 1, wherein the system further comprises: the needle fixing device is connected with the handheld shell through a bayonet and can be detached, the distance between the needle fixing device and the handheld shell is adjustable, the needle fixing device is hollow inside, the front end of the needle fixing device is open, and the opening is directly 0-2 mm.
3. The system of claim 1, wherein the system further comprises: the syringe fixing device is internally provided with a commercially available standard syringe, a connecting mechanism is arranged outside the syringe fixing device and is connected with a syringe linear propulsion system and a syringe rotary propulsion system, a piston of the syringe inside the rear part is connected with the piston propulsion system, and a pressure sensor and a feedback system are connected with the front part.
4. The system of claim 1, wherein the system further comprises: the needle cylinder linear propulsion system is connected with the needle cylinder fixing device through a connecting mechanism to realize linear motion of the needle cylinder fixing device, the minimum speed is less than or equal to 0.05mm/s (millimeter/second), the maximum speed is greater than or equal to 2mm/s (millimeter/second), the maximum stroke is greater than or equal to 20mm, and the maximum thrust is greater than or equal to 50N.
5. The system of claim 1, wherein the system further comprises: the needle cylinder rotary propulsion system is provided with a connecting mechanism connected with the needle cylinder fixing device to realize the reciprocating rotary motion of the needle cylinder fixing device, and the reciprocating rotation angle range is as follows: 60-270 degrees, and the maximum torsion is more than or equal to 1.0kgf.
6. The system of claim 1, wherein the system further comprises: the piston linear propulsion system is connected with the piston of the medicine bottle in the needle cylinder fixing device and pushes the piston to do linear motion, the minimum speed is less than or equal to 0.05mm/s (millimeter/second), and the maximum speed is greater than or equal to 5mm/s (millimeter/second).
7. The system of claim 1, wherein the system further comprises: the pressure sensor and the feedback system are connected with the front of the needle cylinder fixing device, the resistance of the front of the needle cylinder fixing device during linear motion is measured and transmitted to the circuit control module, the maximum measuring range is more than or equal to 5kg, and the precision is less than or equal to 30%.
8. The system of claim 1, wherein the system further comprises: the circuit control module is connected with the needle cylinder linear propulsion system, the needle cylinder rotary propulsion system, the piston linear propulsion system, the pressure sensor and feedback system and the interactive digital display module, parameters of the three motion systems are adjusted according to preset values and values of the pressure sensor and the feedback system, coupling of three actions is completed, and a final result is transmitted to the interactive digital display module.
9. The system of claim 1, wherein the system further comprises: the interactive digital display module displays the speed value, the resistance value, the battery state, warning/prompting information and the like of the current state, can also realize manual adjustment of the input speed and can display the result of the three-action coupling on a screen.
10. The system of claim 1, wherein the system further comprises: the wireless chargeable direct current power supply module provides power for the whole system, and the charging design service life of the matched rechargeable battery is longer than 1000 times or 1000 hours.
11. The system of claim 1, wherein the system further comprises: the hand-held housing meets ergonomic requirements, can provide or carry pen-like or hand-held or gun-like holding means, and provides a partial retention function for the system.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113509623A (en) * | 2021-07-12 | 2021-10-19 | 马新刚 | Synchronous propelling device for local anesthesia |
KR20230173994A (en) * | 2022-06-20 | 2023-12-27 | 안영환 | Monitoring and Management System for Pen Type Injection Appartus with Double IMU Sensor |
-
2020
- 2020-08-03 CN CN202021600337.3U patent/CN212307990U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113509623A (en) * | 2021-07-12 | 2021-10-19 | 马新刚 | Synchronous propelling device for local anesthesia |
CN113509623B (en) * | 2021-07-12 | 2022-10-04 | 马新刚 | Synchronous propelling device for local anesthesia |
KR20230173994A (en) * | 2022-06-20 | 2023-12-27 | 안영환 | Monitoring and Management System for Pen Type Injection Appartus with Double IMU Sensor |
KR102657616B1 (en) | 2022-06-20 | 2024-04-12 | 안영환 | Monitoring and Management System for Pen Type Injection Appartus with Double IMU Sensor |
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Effective date of registration: 20220802 Address after: 100730 room 2022, building 5, District 3, Caoqiao Xinyuan, Fengtai District, Beijing Patentee after: Zhang Ying Address before: 100730 room 2022, building 5, District 3, Caoqiao Xinyuan, Fengtai District, Beijing Patentee before: Wan Kuo |