CN112155720A

CN112155720A - Operation electrode with three switch modes simultaneously

Info

Publication number: CN112155720A
Application number: CN202011171747.5A
Authority: CN
Inventors: 周跃; 陈勇
Original assignee: Qingdao Yuren Medical Technology Co ltd
Current assignee: Qingdao Yuren Medical Technology Co ltd
Priority date: 2020-10-28
Filing date: 2020-10-28
Publication date: 2021-01-01

Abstract

The invention discloses an operation electrode with three switch modes simultaneously, which comprises an input module, a CPU data analysis module, an electric initialization module, a frequency control module, a plasma generation module, a high-frequency generation module, a manual control switch, a safety lock, a manual control plug, a pedal module, a pedal switch, a pedal plug, a voice control module, an output display module, a display screen, a host, a handle interface, a lead, a handle, a pedal interface, a magnetic positioning module and an infrared temperature control module, wherein the handle interface, the pedal interface, a control knob and a power switch are sequentially arranged at the left lower end of the outer part of the host from left to right. The invention has reasonable structural design, realizes quadruple locking of three switch modes of foot control, hand control, sound control and safety lock by the mutual matching of the 12 modules, the hand control switch, the foot switch, the handheld voice recognition switch and the safety lock, solves the problem of mistaken switch touch in the operation, reduces the injury degree of a patient in the treatment process to the minimum, and has high efficiency, safety and reliability.

Description

Operation electrode with three switch modes simultaneously

Technical Field

The invention belongs to the technical field of medical instruments, and particularly relates to an operation electrode with three switch modes.

Background

Plasma refers to a gaseous substance in an ionized state, in which the number of negatively charged particles (electrons, negative ions) is equal to the number of positively charged particles (positive ions). Usually in parallel with the solid, liquid and gaseous states of matter, referred to as the fourth state of matter. By means of gas discharge or heating, enough energy is obtained from the outside to change the electrons bound by the orbits in the gas molecules or atoms into free electrons, so that plasma can be formed.

At present, plasma technology is used in medicine as a novel subject developed in the middle of the last century, and in the last 90 th century, the representative low-temperature plasma ablation surgical system shows unique superiority and huge development potential in nidectomy, postoperative hemostasis and minimally invasive technologies, and nowadays, the low-temperature plasma ablation surgical system plays a very important role in surgical operations all over the world.

The principle of the low-temperature plasma ablation surgical system is as follows: ions (Na +, K +) in electrolyte (such as physiological saline) around the bipolar cutting head are excited by a radio-frequency electric field of 100 kHZ, so that a plasma thin layer is formed around the cutting head. The high-energy particles can easily break molecular bonds of tissue cells, so that the cells are cracked into simple carbohydrates and vaporized, and low-temperature cutting and ablation of tissues are realized; compared with the traditional means such as cutting, heat knife cutting, high-frequency electrotome cutting and the like, the low-temperature plasma ablation operation system can complete a plurality of functions such as focus excision, tissue ablation, hemostasis and blood coagulation and the like at 40-70 ℃, and the traditional electrosurgical equipment working mechanisms such as high-temperature vaporization and high-temperature heat coagulation are not used in the operation, so that the tissue structure is effectively protected; the system is an efficient and safe surgical system with low operation difficulty, and is widely applied to the fields of ear-nose-throat surgery, spine minimally invasive surgery, arthroscopic minimally invasive surgery and the like at present.

The main problems and disadvantages of the prior art include:

the existing control switch is divided into a manual control type and a pedal type, but in the operation process, because the pedal switch for controlling radio frequency conversion is positioned at the lower end of an operating table, medical staff are easy to step by mistake or press the manual switch by mistake in the operation process, irreparable harm can be caused to patients, and thus a multiple control switch for preventing mistaken touch is urgently needed.

Disclosure of Invention

Aiming at the problems and the defects in the prior art, the invention provides the operation electrode with three switch modes, so that quadruple locking of the three switch modes of foot control, hand control, sound control and safety lock is realized, and the plasma radio frequency operation is matched, so that the injury degree of a patient in the treatment process is reduced to the minimum, and the operation electrode is high in efficiency, safe and reliable.

Therefore, the invention adopts the following technical scheme:

an operation electrode with three switch modes simultaneously comprises an input module, a CPU data analysis module, an electric initial module, a power switch, a frequency control module, a plasma generation module, a high-frequency generation module, a manual control switch, a safety lock, a manual control plug, a pedal module, a pedal switch, a pedal plug, a voice control module, a handheld voice recognition switch, an output display module, a display screen, a host, a handle interface, a lead, a handle, a pedal interface, a magnetic positioning module and an infrared temperature control module; the left lower end of the outer part of the main machine is sequentially provided with a handle interface, a pedal interface, a control knob and a power switch from left to right, a manual control plug is electrically inserted in the handle interface and is electrically connected with the handle through a lead, and the side edge of the handle is sequentially provided with the manual control switch and a safety lock from right to left; a pedal plug is electrically inserted into the pedal interface and is electrically connected with the pedal switch through a lead; the upper right end of the outside of the host is sequentially provided with three display screens from left to right, and the three display screens are respectively used for displaying frequency, temperature and time; the host is internally provided with an input module, a CPU data analysis module, an electric initial module, a frequency control module, a plasma generation module, a high-frequency generation module, a manual control module, a pedal module, a voice control module and an output display module, wherein the input module, the electric initial module, the pedal module, the voice control module and the magnetic positioning module are respectively in one-way connection with the CPU data analysis module in a serial port communication mode, the other end of the electric initial module is electrically connected with the frequency control module, the frequency control module controls the switching of the plasma generation module and the high-frequency generation module through a control knob, the energy output by the frequency control module is transmitted back to the CPU data analysis module through the infrared temperature control module and the voice control module in sequence, the pedal module is electrically connected with a pedal switch, and the manual control module is in two-way connection with the CPU data analysis module in, and the other end of the manual control module is electrically connected with the output display module.

Furthermore, a channel pipe is fixedly connected inside the left end of the handle, the left lower end of the channel pipe is electrically connected with a plasma cutter head, a magnetic rod and a plasma cutting control line are arranged inside the channel pipe, and the front end and the rear end of the plasma cutting control line are respectively electrically connected with the plasma cutter head and a lead through a manual control plug and a host.

Preferably, the voice control module is wirelessly connected with a handheld voice recognition switch, a Radio Frequency (RF) wireless transmission technology is adopted, a voice control command is set to be plasma cutting on and plasma cutting off, RF is sent to an RF intelligent switch on the voice control module in a wireless transmission mode, and transmission of energy of the plasma generation module and the high-frequency generation module is controlled.

Preferably, the foot switch and the hand switch are respectively provided with two start-stop devices of plasma cutting and low-temperature radio frequency.

Preferably, the tail end of the handle is provided with an anti-slip line.

Preferably, the upper end of the foot switch is provided with anti-skid lines.

Compared with the prior art, the invention has the beneficial effects that:

(1) the invention has reasonable structural design, realizes quadruple locking of three switch modes of foot control, hand control, sound control and safety lock by the mutual matching of the 12 modules, the hand control switch, the foot switch, the handheld voice recognition switch and the safety lock, reduces the injury degree of a patient in the treatment process to the minimum by matching with the plasma radio frequency operation, has high efficiency, safety and reliability, and has good popularization prospect.

(2) Can avoid the injury caused by the mistaken collision in the operation process of medical care personnel, and greatly improves the safety.

Drawings

Fig. 1 is a schematic structural diagram of a surgical electrode having three switching modes simultaneously according to the present invention.

Fig. 2 is a schematic structural diagram of a handle in an operation electrode simultaneously having three switch modes according to the present invention.

Fig. 3 is a partial structural schematic diagram of a surgical electrode having three switching modes simultaneously according to the present invention.

Fig. 4 is a schematic diagram of an internal module of a main unit in an operation electrode simultaneously having three switch modes according to the present invention.

Fig. 5 is a functional structure diagram of an operation electrode having three switch modes simultaneously according to the present invention.

Description of reference numerals: 1. an input module; 2. a CPU data analysis module; 3. an electrical initiation module; 4. a frequency control module; 5. a plasma generation module; 6. a high frequency generation module; 7. a manual control module; 8. a foot module; 9. a voice control module; 10. an output display module; 11. a host; 12. a handle interface; 13. a wire; 14. a handle; 15. a pedal interface; 16. a magnetic positioning module; 17. an infrared temperature control module; 3-1, a power switch; 7-1, a manual switch; 7-2, a safety lock; 7-3, a manual plug; 7-4, plasma cutter head; 7-5, plasma cutting control line; 7-6, magnetic rods; 7-7, a channel pipe; 8-1, a foot switch; 8-2, a pedal plug; 9-1, a hand-held voice recognition switch; 10-1 and a display screen.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, which are provided for illustration only and are not to be construed as limiting the invention.

As shown in fig. 1 and 4, the invention discloses an operation electrode with three switch modes simultaneously, which comprises an input module 1, a CPU data analysis module 2, an electrical initiation module 3, a power switch 3-1, a frequency control module 4, a plasma generation module 5, a high-frequency generation module 6, a manual control module 7, a manual control switch 7-1, a safety lock 7-2, a manual control plug 7-3, a pedal module 8, a pedal switch 8-1, a pedal plug 8-2, a voice control module 9, a handheld voice recognition switch 9-1, an output display module 10, a display screen 10-1, a host computer 11, a handle interface 12, a lead 13, a handle 14, a pedal interface 15, a magnetic positioning module 16 and an infrared temperature control module 17; the left lower end of the outer part of the main machine 11 is sequentially provided with a handle interface 12, a pedal interface 15, a control knob 4-1 and a power switch 3-1 from left to right, a manual control plug 7-3 is electrically inserted in the handle interface 12, the manual control plug 7-3 is electrically connected with a handle 14 through a lead 13, and the side edge of the handle 14 is sequentially provided with a manual control switch 7-1 and a safety lock 7-2 from right to left; a pedal plug 8-2 is electrically inserted into the pedal interface 15, and the pedal plug 8-2 is electrically connected with the pedal switch 8-1 through a lead 13; the upper right end of the outside of the host 11 is sequentially provided with three display screens 10-1 from left to right, and the three display screens are respectively used for displaying frequency, temperature and time; an input module 1, a CPU data analysis module 2, an electric initial module 3, a frequency control module 4, a plasma generation module 5, a high-frequency generation module 6, a manual control module 7, a pedal module 8, a voice control module 9 and an output display module 10 are arranged in the host 11, the input module 1, the electric initial module 3, the pedal module 8, the voice control module 9 and a magnetic positioning module 16 are respectively connected with the CPU data analysis module 2 in a one-way mode in a serial port communication mode, the other end of the electric initial module 3 is electrically connected with the frequency control module 4, the frequency control module 4 controls the switching of the plasma generation module 5 and the high-frequency generation module 6 through a control knob 4-1, the energy output by the frequency control module 4 is transmitted back to the CPU data analysis module 2 through an infrared temperature control module 17 and the voice control module 9 in sequence, the pedal module 8 is electrically connected with the pedal switch 8-1, the manual control module 7 is connected with the CPU data analysis module 2 in a bidirectional mode through serial port communication, and the other end of the manual control module 7 is electrically connected with the output display module 10.

Specifically, as shown in fig. 2, a channel tube 7-7 is fixedly connected inside the left end of the handle 14, the left lower end of the channel tube 7-7 is electrically connected with a plasma cutter head 7-4, a magnetic rod 7-6 and a plasma cutting control line 7-5 are arranged inside the channel tube 7-7, and the front end and the rear end of the plasma cutting control line 7-5 are respectively electrically connected with the plasma cutter head 7-4 and the wire 13 through a manual control plug 7-3 and a host 11.

Specifically, as shown in fig. 3, the voice control module 9 is wirelessly connected to a handheld voice recognition switch 9-1, a radio frequency RF wireless transmission technology is adopted, and a voice control command is set as "plasma cutting on" and "plasma cutting off", and RF is sent to an RF intelligent switch on the voice control module 9 in a wireless transmission manner to control transmission of energy of the plasma generation module 5 and the high frequency generation module 6.

The pedal switch 8-1 and the manual switch 7-1 are respectively provided with two start-stop devices of plasma cutting and low-temperature radio frequency.

The tail end of the handle 14 is provided with anti-skid lines.

The upper end of the foot switch 8-1 is provided with anti-skid grains.

Examples

As shown in fig. 1 to 5, an operation electrode simultaneously having three switch modes comprises an input module 1, a CPU data analysis module 2, an electrical initialization module 3, a power switch 3-1, a frequency control module 4, a plasma generation module 5, a high frequency generation module 6, a manual control module 7, a manual control switch 7-1, a safety lock 7-2, a manual control plug 7-3, a foot pedal module 8, a foot pedal switch 8-1, a foot pedal plug 8-2, a voice control module 9, a hand-held voice recognition switch 9-1, an output display module 10, a display screen 10-1, a host 11, a handle interface 12, a lead 13, a handle 14, a foot pedal interface 15, a magnetic positioning module 16 and an infrared temperature control module 17, wherein the handle interface 12, the foot pedal interface 15, the control knob 4-1 and the power switch 3-1 are sequentially arranged at the left lower end of the exterior of the host 11 from left to right, a handle plug 7-3 is electrically inserted into the handle interface 12, the handle plug 7-3 is electrically connected with a handle 14 through a lead 13, a manual switch 7-1 and a safety lock 7-2 are sequentially arranged on the side edge of the handle 14 from right to left, the manual switch 7-1 is used for energy transmission and gear adjustment conversion of the plasma generation module 5 and the high-frequency generation module 6, the safety lock 7-2 is arranged on a main path, the safety lock 7-2 is closed, and a plasma cutter head 7-4 has no reaction, so that misoperation of medical staff in the operation process is prevented, and irretrievable injury to a patient is prevented; a channel tube 7-7 is fixedly connected inside the left end of the handle 14, the lower left end of the channel tube 7-7 is electrically connected with a plasma cutter head 7-4, a magnetic bar 7-6 and a plasma cutting control line 7-5 are arranged inside the channel tube 7-7, the front end and the rear end of the plasma cutting control line 7-5 are respectively electrically connected with the plasma cutter head 7-4 and a lead 13 through a handle plug 7-3 and a host 11, the magnetic positioning is carried out on the cutting part, and the operation accuracy is improved; a pedal plug 8-2 is electrically inserted into the pedal interface 15, and the pedal plug 8-2 is electrically connected with the pedal switch 8-1 through a lead 13; the upper right end of the outside of the host 11 is sequentially provided with three display screens 10-1 from left to right, and the three display screens are respectively used for displaying frequency, temperature and time; an input module 1, a CPU data analysis module 2, an electric initial module 3, a frequency control module 4, a plasma generation module 5, a high-frequency generation module 6, a manual control module 7, a pedal module 8, a voice control module 9 and an output display module 10 are arranged inside the host 11, the input module 1, the electric initial module 3, the pedal module 8, the voice control module 9 and a magnetic positioning module 16 are respectively connected with the CPU data analysis module 2 in a one-way mode in a serial port communication mode, the other end of the electric initial module 3 is electrically connected with the frequency control module 4, the frequency control module 4 controls the switching of the plasma generation module 5 and the high-frequency generation module 6 through a control knob 4-1, and energy output by the frequency control module 4 is transmitted back to the CPU data analysis module 2 through an infrared temperature control module 17 and the voice control module 9 in sequence; the temperature control switch is an infrared switch, when the temperature is higher than 70 ℃, the power supply is automatically cut off, the plasma cutter head 7-4 of the handle 14 is invalid, and the neural system is prevented from being burnt out due to overhigh temperature; the sound control module 9 is introduced into a novel voice recognition switch system with a patent publication number of 'CN 204028611U', the patent adopts a non-specific voice recognition technology, a user can recognize the voice only by speaking the same byte language without differentiating age and gender, and the patent adopts a radio frequency RF wireless transmission technology, so that the transmission distance is long, the reliability is high and the voice recognition rate is high; the voice control module 9 is wirelessly connected with a handheld voice recognition switch 9-1, the voice recognition switch is handheld, the voice control distance is short, the voice recognition is little influenced by environmental noise, the voice recognition degree of a product in the using process is greatly improved, the voice control command is set to be 'plasma cutting on' and 'plasma cutting off', RF is sent to an RF intelligent switch on the voice control module 9 in a wireless transmission mode, and the transmission of energy of the plasma generation module 5 and the high-frequency generation module 6 is controlled; the foot module 8 is electrically connected with the foot switch 8-1, the manual control module 7 is bidirectionally connected with the CPU data analysis module 2 in a serial port communication mode, and the other end of the manual control module 7 is electrically connected with the output display module 10; on one hand, the pedal switch 8-1 and the manual control switch 7-1 control the starting and stopping of the plasma radio frequency operation and gear information through the pedal module 8 and the manual control module 7, on the other hand, the manual control module 7 is electrically connected with the output display module 10 while being connected with the CPU data analysis module 2 in a bidirectional mode, so that the manual control switch 7-1 locks the pedal switch 8-1, namely when the pedal switch 8-1 is opened and the manual control switch 7-1 is closed, the transmission of energy of the plasma generation module 5 and the high-frequency generation module 6 is interrupted, and the sound control module 9 is positioned between the output end of the energy of the frequency control module 4 and the CPU data analysis module 2; when the hand-held voice recognition switch 9-1 is turned off, the foot switch 8-1 and the hand-controlled switch 7-1 cannot be turned on, the transmission of the energy of the plasma generation module 5 and the high-frequency generation module 6 is interrupted, the hand and the foot of the medical staff are prevented from mistakenly touching the hand switch 7-1 and the foot switch 8-1, the hand-held voice recognition switch 9-1 performs double locking on the foot switch 8-1, and performs one locking on the hand-controlled switch 7-1; the safety lock 7-2 is positioned at the foremost end of the handle 14 and connected with the electrode tool bit and is the last double lock, namely the safety lock 7-2 is closed, the foot switch 8-1, the manual switch 7-1 and the voice recognition switch are all disabled, the foot switch 8-1 is locked in a triple mode, and the manual switch 7-1 is locked in a double mode; the electric initialization module 3 is electrically connected with the power switch 3-1 to control the power supply to be turned on.

In this embodiment, the foot switch 8-1 and the hand switch 7-1 are respectively provided with two start-stop devices of plasma cutting and low-temperature radio frequency, so that the operation is convenient and the operation time is shortened.

In this embodiment, the end of the handle 14 is provided with anti-slip lines, so as to increase the friction between the handle 14 and the palm and achieve an anti-slip effect.

In this embodiment, the upper end of the foot switch 8-1 is provided with anti-slip lines, so as to achieve an anti-slip effect.

When the plasma cutting device is used, a voice recognition switch system is set according to a command, a voice control command is set to be 'plasma cutting on' and 'plasma cutting off', a manual control plug 7-3 and a pedal plug 8-2 are respectively inserted into a handle interface 12 and a pedal interface 15, a host 11 is powered on, a switch is turned on, the frequency is adjusted through a knob according to needs, the manual control switch 7-1, the pedal switch 8-1, a handheld voice recognition switch 9-1 and a safety lock 7-2 are selected to be opened and closed, the plasma radio frequency surgery is matched, the injury degree of a patient in the treatment process is reduced to the minimum, the magnetic positioning module 16 improves the precision of the surgery, the infrared temperature control module 17 automatically cuts off a power supply when the temperature is higher than 70 degrees, and a plasma cutter head 7-4 of a handle 14 fails to avoid high temperature from burning out a nervous system.

The above description is only exemplary of the present invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and scope of the present invention should be included in the present invention.

Claims

1. A surgical electrode with three switch modes simultaneously is characterized in that: the device comprises an input module (1), a CPU data analysis module (2), an electric initial module (3), a power switch (3-1), a frequency control module (4), a plasma generation module (5), a high-frequency generation module (6), a manual control module (7), a manual control switch (7-1), a safety lock (7-2), a manual control plug (7-3), a pedal module (8), a pedal switch (8-1), a pedal plug (8-2), a voice control module (9), a handheld voice recognition switch (9-1), an output display module (10), a display screen (10-1), a host (11), a handle interface (12), a lead (13), a handle (14), a pedal interface (15), a magnetic positioning module (16) and an infrared temperature control module (17); the left lower end of the outer part of the main machine (11) is sequentially provided with a handle interface (12), a pedal interface (15), a control knob (4-1) and a power switch (3-1) from left to right, a manual control plug (7-3) is electrically inserted in the handle interface (12), the manual control plug (7-3) is electrically connected with a handle (14) through a lead (13), and the side edge of the handle (14) is sequentially provided with the manual control switch (7-1) and a safety lock (7-2) from right to left; a pedal plug (8-2) is electrically inserted into the pedal interface (15), and the pedal plug (8-2) is electrically connected with the pedal switch (8-1) through a lead (13); the upper right end of the outer part of the host (11) is sequentially provided with three display screens (10-1) from left to right, and the three display screens are respectively used for displaying frequency, temperature and time; the host (11) is internally provided with an input module (1), a CPU data analysis module (2), an electric initial module (3), a frequency control module (4), a plasma generation module (5), a high-frequency generation module (6), a manual control module (7), a pedal module (8), an acoustic control module (9) and an output display module (10), wherein the input module (1), the electric initial module (3), the pedal module (8), the acoustic control module (9) and a magnetic positioning module (16) are respectively in one-way connection with the CPU data analysis module (2) in a serial port communication mode, the other end of the electric initial module (3) is electrically connected with the frequency control module (4), the frequency control module (4) controls the switching of the plasma generation module (5) and the high-frequency generation module (6) through a control knob (4-1), and the energy output by the frequency control module (4) sequentially passes through an infrared temperature control module (17) and the acoustic control module (9) The CPU data analysis module (2) is transmitted back, the pedal module (8) is electrically connected with the pedal switch (8-1), the manual control module (7) is bidirectionally connected with the CPU data analysis module (2) in a serial port communication mode, and the other end of the manual control module (7) is electrically connected with the output display module (10).

2. The surgical electrode of claim 1, further comprising three switching modes: the plasma cutting device is characterized in that a channel pipe (7-7) is fixedly connected to the inner portion of the left end of the handle (14), the lower left end of the channel pipe (7-7) is electrically connected with a plasma cutter head (7-4), a magnetic rod (7-6) and a plasma cutting control line (7-5) are arranged inside the channel pipe (7-7), and the front end and the rear end of the plasma cutting control line (7-5) are electrically connected with the plasma cutter head (7-4) and a lead (13) through a manual control plug (7-3) and a host (11).

3. The surgical electrode of claim 1, further comprising three switching modes: the voice control module (9) is wirelessly connected with a handheld voice recognition switch (9-1), a radio frequency RF wireless transmission technology is adopted, a voice control command is set to be 'plasma cutting on' and 'plasma cutting off', RF is sent to an RF intelligent switch on the voice control module (9) in a wireless transmission mode, and the transmission of energy of the plasma generation module (5) and the high-frequency generation module (6) is controlled.

4. The surgical electrode of claim 1, further comprising three switching modes: the pedal switch (8-1) and the manual switch (7-1) are respectively provided with two start-stop devices of plasma cutting and low-temperature radio frequency.

5. The surgical electrode with three switching modes simultaneously according to any one of claims 1-4, wherein: the tail end of the handle (14) is provided with anti-skid grains.

6. The surgical electrode with three switching modes simultaneously according to any one of claims 1-4, wherein: the upper end of the foot switch (8-1) is provided with anti-skid grains.