Ultrasonic scalpel system with rapid energy adjustmentTechnical Field
The invention relates to the technical field of medical instruments, in particular to an ultrasonic surgical knife system capable of adjusting energy rapidly.
Background
Ultrasonic surgical blades refer to instruments that further amplify ultrasonic vibrations obtained by a piezoelectric transducer (electric energy is transmitted to the piezoelectric transducer by an energy generator, which converts the electric energy into ultrasonic mechanical energy), and use the amplified ultrasonic vibrations by the head of the blade for cutting and coagulating soft tissues. The device can be used for realizing focus excision under the conditions of lower temperature and less bleeding.
The traditional ultrasonic scalpel system comprises a terminal and a host which are connected with each other, a doctor operates the terminal to perform operation on a patient, and because different tissues or organs of a human body are cut with different power, namely the cutting efficiency is different under different power, the doctor is required to perform energy setting before each operation, such as power and the like, the operation is troublesome, the time consumption is long, and the illness state of the patient can be delayed.
Disclosure of Invention
In view of the above, the present invention provides an ultrasonic scalpel system with rapid energy setting, simple operation, rapid setting, and high working efficiency, which solves the above problems.
The utility model provides an ultrasonic scalpel system of quick energy regulation, includes interconnect's terminal (10) and host computer (20), host computer (20) have casing (21), are equipped with display interface (22) on casing (21), a plurality of quick setting button (23), two fine setting buttons (24) and output interface (25), host computer (20) are connected with terminal (10) through output interface (25), terminal (10) include shell (11), cutter arbor subassembly (12), handle (13), trigger button (14) and angle adjusting knob (15), cutter arbor subassembly (12) pass shell (11), handle (13) are located in shell (11) and are connected with cutter arbor subassembly (12), angle adjusting knob (15) are connected with cutter arbor subassembly (12), still be equipped with terminal dial button (16) on shell (11), be equipped with the potentiometre in shell (11), terminal dial button (16) are connected with the potentiometre, still be equipped with control chip (26) and energy generator (27) in host computer (20), control chip (26) and a plurality of quick setting buttons (23), two fine setting buttons (24) and energy generator (27) are all connected with terminal (16) through data line and equal connection with the potentiometre, the control chip (26) is internally provided with a memory, the memory stores optimal ultrasonic cutting power and adjustment algorithm parameters required by a plurality of organs or tissues of a human body, and the plurality of quick setting keys (23) correspond to the optimal ultrasonic cutting power and adjustment algorithm required by the plurality of organs or tissues of the human body in the memory.
Further, the two trimming keys (24) are a trimming plus key and a trimming minus key respectively.
Further, a plurality of main marks are arranged at different positions on the terminal dial (16), and a plurality of fine tuning marks are arranged among the main marks.
Compared with the prior art, the ultrasonic scalpel system capable of adjusting the energy rapidly comprises a terminal (10) and a host machine (20) which are connected with each other, wherein the host machine (20) is provided with a shell (21), a display interface (22), a plurality of quick setting buttons (23), two fine setting buttons (24) and an output interface (25) are arranged on the shell (21), the host machine (20) is connected with the terminal (10) through the output interface (25), the terminal (10) comprises a shell (11), a cutter bar assembly (12), a handle (13), a trigger button (14) and an angle adjusting knob (15), the cutter bar assembly (12) penetrates through the shell (11), the handle (13) is partially positioned in the shell (11) and is connected with the cutter bar assembly (12), the angle adjusting knob (15) is connected with the cutter bar assembly (12), a terminal dial button (16) is further arranged on the shell (11), a potentiometer is arranged in the shell (11), a control chip (26) and an energy generator (27) are further arranged in the host machine (20), the control chip (26) and the control chip (26) are connected with the quick setting buttons (23), the two buttons (24) and the energy generator (27) are connected with the terminal dial buttons (16) through data wires, the control chip (26) is internally provided with a memory, the memory stores optimal ultrasonic cutting power and adjustment algorithm parameters required by a plurality of organs or tissues of a human body, and the plurality of quick setting keys (23) correspond to the optimal ultrasonic cutting power and adjustment algorithm required by the plurality of organs or tissues of the human body in the memory. So can set up the energy fast, easy operation, set up swiftly, work efficiency is higher.
Drawings
Embodiments of the invention are described below with reference to the accompanying drawings, in which:
fig. 1 is a schematic perspective view of a rapid energy modulation ultrasonic surgical blade system provided by the present invention.
Fig. 2 is a schematic perspective view of the host in fig. 1.
Fig. 3 is a schematic side view of the terminal of fig. 1.
Fig. 4 is a block schematic diagram of a fast energy regulated ultrasonic surgical blade system provided by the present invention.
Detailed Description
Specific embodiments of the present invention will be described in further detail below based on the drawings. It should be understood that the description herein of the embodiments of the invention is not intended to limit the scope of the invention.
Referring to fig. 1, the rapid energy-adjusting ultrasonic surgical blade system provided by the present invention includes a terminal 10 and a main body 20 connected to each other.
Referring to fig. 2, the host 20 has a housing 21, a display interface 22, a plurality of quick setting buttons 23, two fine setting buttons 24, and an output interface 25 are disposed on the housing 21, and the host 20 is connected to the terminal 10 through the output interface 25.
Referring to fig. 3, the terminal 10 includes a housing 11, a cutter bar assembly 12, a handle 13, a trigger button 14, and an angle adjusting knob 15, wherein the cutter bar assembly 12 penetrates the housing 11, the handle 13 is partially disposed in the housing 11 and connected with the cutter bar assembly 12, the angle adjusting knob 15 is connected with the cutter bar assembly 12, the trigger button 14 is used for starting functions such as ultrasonic vibration, and the angle adjusting knob 15 is used for adjusting a rotation angle of the cutter bar assembly 12. The shell 11 is also provided with a terminal dial 16, a potentiometer is arranged in the shell 11, the terminal dial 16 is connected with the potentiometer, and the potentiometer is connected with the host 20 through a data line and an output interface 25.
Referring to fig. 4, a control chip 26 and an energy generator 27 are further disposed in the host 20, the control chip 26 is connected to the plurality of quick setting buttons 23, the two fine setting buttons 24 and the energy generator 27, and the control chip 26 is further connected to the terminal dial 16 through a data line and a potentiometer.
The control chip 26 has a memory therein which stores optimal ultrasonic cutting power required for a plurality of organs or tissues of the human body, such as blood vessels, liver, spleen, stomach, rectum, gall bladder, uterus, etc. The plurality of quick setting buttons 23 correspond to optimal ultrasonic cutting power and adjustment algorithm parameters required by a plurality of organs or tissues of a human body in a memory, and when one of the quick setting buttons 23 is pressed, the control chip 26 sets the output power of the energy generator 27 to the optimal ultrasonic cutting power and adjustment algorithm corresponding to the quick setting button 23, thereby rapidly realizing parameter setting. The optimal ultrasonic cutting power and the parameters of the regulation algorithm required by a plurality of organs or tissues of the human body are known through testing, experiments or experience.
The two trimming keys 24 are a trimming plus key for gradually increasing its power or adjusting algorithm parameters with a smaller amplitude based on the optimal ultrasonic cutting power and a trimming minus key for gradually decreasing its power or adjusting algorithm parameters with a smaller amplitude based on the optimal ultrasonic cutting power, respectively. After the corresponding optimal ultrasonic cutting power or the adjusting algorithm is set through the quick setting key 23, the output power of the energy generator 27 can be further finely adjusted through the fine adjustment adding key and the fine adjustment subtracting key, so that the output power of the energy generator 27 is set to be in an optimal state, and the method is convenient to adapt to actual operation conditions. The display interface 22 is used to display the output power of the final set energy generator 27 or to adjust algorithm parameters. The display interface 22 also provides a menu of operational functions for user operation.
Upon receiving the signal from the energy generator 27, the handle 13 converts the electrical energy into ultrasonic mechanical energy and causes the cutter bar assembly 12 to vibrate ultrasonically.
A number of main marks are provided at different positions on the terminal dial 16, the different main marks corresponding to the optimal ultrasonic cutting power or adjustment algorithm required for different organs or tissues. A plurality of fine tuning marks are arranged among the main marks. The output power of the energy generator 27 or the parameters of the adjustment algorithm can be quickly adjusted by pulling the potentiometer to different positions through the terminal pulling button 16. When a doctor cuts different tissues, the doctor does not need to return to the host 20 to carry out parameter adjustment, and the parameter adjustment can be directly realized at the terminal 10 by stirring the terminal poking button 16, so that the operation is simple and the efficiency is higher.
Compared with the prior art, the ultrasonic scalpel system capable of adjusting the energy rapidly comprises a terminal 10 and a host 20 which are connected with each other, wherein the host 20 is provided with a shell 21, a display interface 22, a plurality of quick setting buttons 23, two fine setting buttons 24 and an output interface 25 are arranged on the shell 21, the host 20 is connected with the terminal 10 through the output interface 25, the terminal 10 comprises a shell 11, a cutter bar assembly 12, a handle 13, a trigger button 14 and an angle adjusting knob 15, the cutter bar assembly 12 penetrates through the shell 11, the handle 13 is partially positioned in the shell 11 and is connected with the cutter bar assembly 12, the angle adjusting knob 15 is connected with the cutter bar assembly 12, a terminal poking button 16 is further arranged on the shell 11, a potentiometer is arranged in the shell 11, the terminal poking button 16 is connected with the potentiometer, a control chip 26 and an energy generator 27 are further arranged in the host 20, the control chip 26 is connected with the quick setting buttons 23, the two fine setting buttons 24 and the energy generator 27, the control chip 26 is further connected with the terminal poking button 16 through a data wire and the potentiometer, a memory is arranged in the control chip 26, a plurality of optimal buttons or optimal keys for cutting power of organs or tissues of a human body and a plurality of ultrasonic algorithms or optimal algorithms for cutting power and a plurality of optimal algorithms for cutting algorithms of organs or tissues of the human body are stored in the memory. So can set up the energy fast, easy operation, set up swiftly, work efficiency is higher.
The above is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions or improvements within the spirit of the present invention are intended to be covered by the claims of the present invention.