CN111514464A

CN111514464A - Non-injury directional tumor therapeutic apparatus

Info

Publication number: CN111514464A
Application number: CN201910119336.2A
Authority: CN
Inventors: 凌春林
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-02-02
Filing date: 2019-02-02
Publication date: 2020-08-11

Abstract

The 'non-invasive directional tumor therapeutic apparatus' comprises: the motor makes the semicircular ring rotate and move, so that the B ultrasonic probe positions a tumor in the center of the semicircular ring, a plurality of infrared convergence heads on the semicircular ring are adjusted, the center of the semicircular ring is focused, infrared electromagnetic wave superposition resonance attenuation waves generated by the nondestructive directional therapeutic apparatus control box pass through the infrared convergence head extension frame, so that the infrared electromagnetic wave superposition resonance attenuation waves are injected into the convergence cavity, a strong or weak magnetic field is formed around the convergence cavity, and the infrared electromagnetic wave superposition resonance attenuation waves are focused on the cancer tumor to cause the cancer tumor to die without killing normal cells of a human body.

Description

Non-injury directional tumor therapeutic apparatus

1, field of the technology

A medical instrument features that the infrared electromagnetic waves are superposed on the damped oscillation waves generated by ultrasonic locating, capacitor, inductor and chip resonance, and in the magnetic field varying in opposite directions, the infrared electromagnetic waves are penetrated into deep tissue of human body for focusing the superposed resonant damped waves to kill tumor cells, but the normal cells of human body are not killed.

2, background of the invention

At present, infrared radiation is used for treating bedsore patients in hospitals, and is used for burn and plastic surgery and patients in orthopedics department.

The treatment of cancer patients is operations, radiotherapy and chemotherapy, and in the radiotherapy and chemotherapy, cancer cells are killed and normal beneficial cells of a human body are killed, so that the immunity of the patients is reduced, and the healing and recovery of the patients are greatly and negatively influenced.

In 2000, I have filed the invention patent of "non-invasive directed tumor therapeutic apparatus", application number: 00118454.7

I try to install a non-invasive directional tumor therapeutic apparatus by self,

i propose a project and a principle of a non-invasive directional tumor therapeutic instrument to Carxing city health bureau, I recommend by professor Zhejiang medical professor to see the current Zhejiang medical large and long old tree which introduces I to go to the main site of Deng in Zhejiang institute of Oncology, in 2003, I use the instrument to treat a testes of a tumor patient as big as goose eggs, wherein the testes of the tumor patient are treated twice a day and two weeks each time for 20 minutes, so that the testes of the tumor patient are recovered to be normal.

3, summary of the invention

The principle of the non-invasive directional tumor therapeutic apparatus is as follows:

when sunlight shines on a human body, the human body feels warm, and if the sunlight is focused on a point by the convex lens and shines on the skin of the human body, the skin can be burnt. The human body can endure the high fever temperature of 38-41 ℃ sometimes, normal cells of the human body die at 56 ℃, but cancer cells die at 39 ℃ experimentally, the cancer cells die, I use a large block of pork for experiment, the ultrasonic B-ultrasonic probe (27) is arranged on a semicircular ring (6) with the radius of 30 cm, a plurality of infrared convergence heads (25) are arranged on the semicircular ring (6) at equal radian intervals, the two ultrasonic probes are concentric with the center and have the radius of 30 cm, the telescopic positioning connecting scale rod (29) is arranged on the B-ultrasonic probe, the length of the sliding scale can enable the B-ultrasonic probe to move on a semicircular ring (6) fixing frame in a telescopic way along the diameter direction, the B-ultrasonic probe is close to the pork, and at the moment, the telescopic positioning connecting scale rod (29) like the B-ultrasonic probe can extend out 20 cm towards the center of the semicircular ring (6), then the virtual straight line of the connecting scale rod (29) along the extension direction is supposed to enter the pork, one point in the pork at 10 cm is the center of the semicircular ring (6), at the moment, the center of the infrared convergence heads (25) installed on the circular arc of the semicircular ring (6) at equal arc distance, the pork at the center of the circle is supposed to be a tumor, the infrared convergence heads (25) are also connected with the scale rod (29) through respective extension and extend to the center of the semicircular ring (6), the infrared convergence heads (25) converge different positions of the infrared electromagnetic wave superposition resonance attenuation wave emission pork outer layer, because the ultrasonic B ultrasonic probe and the infrared convergence heads (25) are installed on the same semicircular ring (6) circular arc, the infrared electromagnetic wave superposition resonance attenuation wave beams emitted by the infrared convergence heads (25) pass through the semicircular ring (6), so the center of the circle, the center of the semicircular ring is the focus point of the ultrasonic beam emitted by the ultrasonic B-mode probe and the superposition resonance attenuation beam of a plurality of infrared electromagnetic waves, the incident point temperature of the infrared convergence head (25) on the surface of pork reaches 38 ℃ at the moment, the pork is cut after 20 minutes, the burning mark is formed at the focus point position of 10 cm in the pork, the burning mark is the same as the burning mark formed by soaking the pork for 20 minutes by hot water at the temperature of 40 ℃, and therefore the temperature of the focus point position is 40 ℃, and cancer cells can be killed. When the human body is implemented, the following technical measures are adopted in consideration of blood flow, so that heat, obese patients, thick fat layers, ascites patients, blood flowing from white blood patients and the like can be taken away.

The 'non-invasive directional tumor therapeutic apparatus' comprises: a B-ultrasonic probe fixing frame (1) on the semicircular ring, a first N-pole infrared convergence head stretching frame (2), a second N-pole infrared convergence head stretching frame (3), a third N-pole infrared convergence head stretching frame (4), a convergence head outgoing line (5), a semicircular ring (6), a base upper support frame upper pulley (7), a base upper support frame (8), a first motor W1(9), a first motor W1 transmission gear (10), a second motor W2 transmission gear (11), a base lower support (12), a ground buckle lock (13), a track (14), a groove-shaped steel pulley (15), a base (16), a second motor W2(17), a semicircular ring edge gear (18), a tumor patient (19), a movable treatment bed (20), a first S-pole infrared convergence head stretching frame (21), a semicircular ring groove (22), a second S-pole convergence head stretching frame (23), A third S-pole infrared convergence head stretching frame (24), an infrared convergence head (25), a human tumor (26), an ultrasonic B-ultrasonic probe (27), a stretching frame fixing thread (28), a connecting scale rod (29) and a nondestructive directional tumor therapeutic apparatus control box (30),

an infrared electromagnetic wave superposition resonance attenuation wave (31), an N-pole convergence cavity (32), an N-pole close convergence cavity magnet (33), an S-pole close convergence cavity magnet (34), an S-pole close convergence cavity electromagnetic coil (35) and an S-pole convergence cavity (36), an infrared electromagnetic wave superposition resonance attenuation wave convergent beam (37), an N-pole close convergence cavity electromagnetic coil (38), a mobile treatment bed push handle (39), a ground buckle locking tail end (40), a mobile treatment bed rear end support rod (41), a third motor W3 connecting gear (42), a third motor W3(43), a mobile treatment bed middle lifting gear rod (44), a mobile treatment bed groove pulley (45), a mobile treatment bed positioning groove (46), a sliding spring (47) in the middle of a round wheel rod, a mobile treatment bed push handle connecting cam (48), a mobile treatment bed push handle control round wheel (49), A rubber top plug (50) at the front end of the round wheel rod,

wherein, a lower bracket (12) of the base is arranged at the lower part of the base (16), a groove-shaped steel pulley (15) is arranged at the lower end of the lower bracket (12) of the base, a first motor W1(9) drives a first motor W1 transmission gear (10), a first motor W1 transmission gear (10) drives a gear at the lower part of the base (16) to ensure that the base (16) slides on a track (14),

a third motor W3(43) drives a third motor W3 to connect with a gear (42), a group of reduction gears are driven by the third motor W3 to connect with the gear (42), the group of reduction gears drives a middle lifting gear rod (44) of the movable treatment bed to enable the movable treatment bed (20) to move up and down, and simultaneously a rear end support rod (41) of the treatment bed is moved and also moves up and down in a sliding chute, and a movable treatment bed with a groove steel pulley (45) of the movable treatment bed at the lower part of the movable treatment bed (20) is slowly pushed and slides into an inner circular ring of a semicircular ring (6) by a movable treatment bed push handle (39) to adjust the up and down height of the movable treatment bed (20) along a track (14), a movable treatment bed positioning groove (46) and the middle lifting gear rod (44) of the movable treatment bed are moved, the rear end support rod (41) of the movable treatment bed is connected together, the movable treatment bed (20) can slide in the middle of the positioning groove (46) of the movable treatment bed but cannot move left and right, a push handle (39) of the movable treatment bed is pressed downwards, a convex part of a connecting cam (48) of the push handle of the movable treatment bed is enabled to be upwards, a control round wheel (49) of the push handle of the movable treatment bed in the positioning groove of the movable treatment bed is tightly pushed, a rubber ejector plug (50) connected with the front end of a round wheel rod is enabled to tightly push a support rod (41) at the rear end of the movable treatment bed so that the movable treatment bed (20) is locked on the support rod (41) at the rear end of the movable treatment bed, when the push handle (39) of the movable treatment bed is upwards, the rubber ejector plug (50) at the front end of the round wheel rod is enabled to be separated from the support rod (41) at the rear end of the movable treatment bed under the elastic force of a sliding spring,

the ground buckle lock (13) is buckled upwards to lock the tail end (40) of the ground buckle to fix and move the treatment bed (20), the control box (30) of the nondestructive directional treatment instrument is opened, a plurality of infrared convergence heads (25) are communicated through the convergence head outgoing line (5),

adjusting the distance of a B ultrasonic connecting scale rod (29) on the semicircular ring (6), enabling an ultrasonic B ultrasonic probe (27) to detect the position of a human tumor (26), simultaneously enabling a second motor W2(17) to drive a second motor W2 transmission gear (11), a second motor W2 transmission gear (11) to drive a semicircular ring edge gear (18), thereby enabling the semicircular ring (6) to rotationally move, because a base upper support frame upper pulley (7) on a base upper support frame (8) on the base slides in a semicircular ring groove (22), enabling the semicircular ring (6) to rotationally slide, the lower part of the base upper support frame (8) is fixed on the base (16), the two base upper support frames (8) are respectively fixed on the left side and the right side of the base (16), enabling the semicircular ring (6) to slowly move, and the ultrasonic B ultrasonic probe (27) on the semicircular ring (6) is matched to move on the body of a tumor patient (19), if the tumor is 8 cm deep in the body, then adjusting a B-ultrasonic probe fixing frame (1) on the semicircular ring to ensure that a B-ultrasonic connecting scale rod (29) extends out 22 cm along the diameter direction and is fixed by a stretching frame fixing screw (28) to be exactly the circle center position of the semicircular ring (6), at the moment, a first N-pole infrared gathering head stretching frame (2) arranged on the semicircular ring (6) and a first S-pole infrared gathering head stretching frame (21) also arranged on the semicircular ring (6) correspond to each other in a linear position, a second N-pole infrared gathering head stretching frame (3) and a second S-pole infrared gathering head stretching frame (23) also correspond to each other in a linear position, a third N-pole infrared gathering head stretching frame (4) and a third S-pole infrared gathering head stretching frame (24) also correspond to each other in a linear position, and the front ends of the six stretching frames are all provided with infrared gathering heads (25).

The tumour therapeutic instrument is asked for to the not damaged deciding for or asking for, infrared ray converge head (25), it includes: an N pole convergence cavity (32) of an infrared electromagnetic wave superposition resonance attenuation wave (31), a magnet (33) with an N pole close to the convergence cavity, a magnet (34) with an S pole close to the convergence cavity, an electromagnetic coil (35) with an S pole close to the convergence cavity, an S pole convergence cavity (36), an infrared electromagnetic wave superposition resonance attenuation wave convergent beam (37), an electromagnetic coil (38) with an N pole close to the convergence cavity,

The method is characterized in that:

infrared electromagnetic wave superposition resonance attenuation wave (31) enters a first N-pole infrared convergence head extension frame (2), so that the infrared electromagnetic wave superposition resonance attenuation wave (31) enters an N-pole convergence cavity (32), an N-pole magnet (33) abutting against the convergence cavity introduces strong or weak direct current into an N-pole electromagnetic coil (38) abutting against the convergence cavity, a strong or weak N-pole magnetic field is formed around the N-pole convergence cavity (32), meanwhile, a corresponding S-pole of a first S-pole infrared convergence head extension frame (21) also introduces strong or weak direct current into an S-pole electromagnetic coil (35) abutting against the convergence cavity, a strong or weak S-pole magnetic field is formed in the S-pole convergence cavity, so that the infrared electromagnetic wave passing through the S-pole convergence cavity (36) is superposed with resonance attenuation wave, and is magnetized under the action of the S-pole abutting against the convergence cavity magnet (34), and an N-pole infrared convergence head extension frame (2) and the first S-pole infrared convergence head extension frame (21) form an N-pole magnetic field, And similarly, a second N-pole infrared gathering head extension frame (3) corresponds to a second S-pole infrared gathering head extension frame (23), and a third N-pole infrared gathering head extension frame (4) corresponds to a third S-pole infrared gathering head extension frame (24) to form an N, S magnetic circuit, so that infrared electromagnetic waves are superposed with resonance attenuation waves to be focused to kill cancer cells without killing normal cells of a human body.

FIG. 4 is a circuit diagram of a change magnetic field of infrared electromagnetic waves and a resonance attenuation wave generator of a noninvasive directional tumor therapeutic apparatus, wherein an alternating current 220V power supply passes through a switch K1, a fuse 3A, a path of direct current working voltage passes through a capacitor C7, a resistor R19, a resistor R20, a crystal diode D20, a dielectric capacitor C20 and a transistor T20 to form an emitter follower circuit, the working voltage VDD of a chip 555, a chip 4013 and a chip 4093 is provided, the chip 555, the resistors R20, the diodes D20 and D20 generate frequency spectrum signals suitable for a human body, the frequency spectrum signals are input to the base of the transistor T20 through the resistor R20, the resistor R20 provides the working voltage of the T20, a conduction angle of a bidirectional thyristor triggered by the resistor R20 and the light emitting diode D20, the chip 4013, the crystal diodes D20, the R36, the chip 4093, resistors R1, R2, R3, R4, R5, R6, R7, R8, capacitors C1, C2, C8, and crystal diode D1 form a square wave output, the square wave output is transmitted through a switch K3 to a resonant attenuation wave generating circuit formed by resistors R22, R23, R24, R25, R26, capacitors C9, C10, C11, transistors T4, a crystal oscillator CZ 4, an inductor L4, or L4, the switch K4 is controlled to turn on the L4 or L4 to generate resonant attenuation waves of different frequencies, the L4 can output a collector signal of the crystal triode T4, for example, the intensity of the output resonant attenuation wave is not enough to complement, the safety transistor D363A is further transmitted to the switch K4, when the alternating current varies in positive and negative half cycles, the crystal diodes D4, W4 mutually transform the voltage of the crystal resistor R4, the crystal resistor R4 and the infrared transistor R4 to generate voltage, an infrared electromagnetic wave which is suitable for the human body requirement is formed by a transistor triode through a T1, a resistor R17 and a controlled two-way conduction silicon controlled rectifier TLC, a W2 electromagnetic coil generates N, S magnetic poles, and the SN magnetic field of the S pole convergence cavity and the NS magnetic field of the N pole convergence cavity of the infrared convergence head (25) are changed with strong or weak direct current.

When the electromagnetic therapeutic instrument works, an alternating current 220V power supply is connected, power switches K1 and K2 are switched on, an indicator light emitting diode D15 flashes red light, an infrared generating circuit works, a W1 infrared two coils emit infrared spectrum suitable for human body requirements, meanwhile, a W2 electromagnetic coil also introduces strong or weak direct current to generate a strong or weak variable magnetic field, and then a switch K3 is switched on to enable a resonance attenuation wave generating circuit to work, a wafer CZ1 emits resonance attenuation waves, a switch K4 is used for converting resonance inductors L1 and L2 to control resonance frequency and intensity, and the inductor L3 is used for enhancing output electromagnetic waves when treating obesity and ascites patients.

FIG. 5 is a circuit diagram of the lifting and lowering of the movable therapeutic bed

In the figure, an alternating current power supply 220V outputs direct current through bridge rectification of switches KWa, KWb, a fuse wire FW1 to bridge rectifier diodes WD1, WD2, WD3 and WD4, and the direct current is output to a first motor W1, a second motor W2 and a third motor W3 in three ways, wherein the first motor W1 controls the forward and reverse directions of the first motor W1 through a switch ten KW1 and a switch KW1, the fuse FW4 plays an overload protection role, the second motor W2 controls the forward and reverse directions of the second motor W2 through a switch ten KW2 and a switch KW2, the fuse wire FW3 plays an overload protection role, the third motor W3 controls the forward and reverse directions of the third motor W3 through a switch ten KW3 and a switch KW3, and the fuse FW2 plays an overload protection role.

4 description of the drawings

FIG. 1 is a schematic view of the non-invasive directional tumor therapeutic apparatus

In the figure, a B-ultrasonic probe fixing frame (1) on a semicircular ring, a first N-pole infrared convergence head extension frame (2), a second N-pole infrared convergence head extension frame (3), a third N-pole infrared convergence head extension frame (4), a convergence head outgoing line (5), a semicircular ring (6), a base upper support frame upper pulley (7), a base upper support frame (8), a first motor W1(9), a first motor W1 transmission gear (10), a second motor W2 transmission gear (11), a base lower support (12), a ground buckle lock (13), a track (14), a groove-shaped steel pulley (15), a base (16), a second motor W2(17), a semicircular ring edge gear (18), a tumor patient (19), a mobile treatment bed (20), a first S-pole infrared convergence head extension frame (21), a semicircular ring groove (22) and a second S-pole infrared convergence head extension frame (23), A third S-pole infrared convergence head stretching frame (24), an infrared convergence head (25), a human tumor (26), an ultrasonic B-ultrasonic probe (27), a stretching frame fixing thread (28), a connecting scale rod (29) and a nondestructive directional tumor therapeutic apparatus control box (30),

fig. 2 is a schematic diagram of an infrared converging head:

in the figure, an infrared converging head (25), a human tumor (26), an infrared electromagnetic wave superposition resonance attenuation wave (31), an N-pole converging cavity (32), an N-pole magnet (33) close to the converging cavity, an S-pole magnet (34) close to the converging cavity, an S-pole electromagnetic coil (35) close to the converging cavity, an S-pole converging cavity (36), an infrared electromagnetic wave superposition resonance attenuation wave converging beam (37), an N-pole electromagnetic coil (38) close to the converging cavity,

FIG. 3 is a schematic view of the overall structure of the therapeutic apparatus

In the drawing, a semicircular ring (6), a base upper support frame upper pulley (7), a base upper support frame (8), a first motor W1(9), a first motor W1 transmission gear (10), a track (14), a groove-shaped steel pulley (15), a second motor W2(17), a tumor patient (19), a movable treatment bed (20), a movable treatment bed push handle (39), a ground buckle locking tail end (40), a movable treatment bed rear end support rod (41), a third motor W3 connecting gear (42), a third motor W3(43), a movable treatment bed middle lifting gear rod (44), a movable treatment bed positioning groove (46) with a concave channel steel pulley (45).

FIG. 4 is a circuit diagram of the varying magnetic field of the infrared electromagnetic wave and resonance attenuation wave generator of the control box of the nondestructive directional tumor therapeutic apparatus

FIG. 6 is a partial schematic view of a mobile treatment couch

A ground buckle lock (13) in the figure, a track (14), a groove-shaped steel pulley (15), a mobile treatment bed (20), a mobile treatment bed push handle (39), a ground buckle locking tail end (40), a mobile treatment bed positioning groove (46), a sliding spring (47) in the middle of a round wheel rod, a mobile treatment bed push handle connecting cam (48), a mobile treatment bed push handle control round wheel (49), a round wheel rod front end rubber top plug (50)

5, detailed embodiment:

see fig. 1, 2, 3, 6

The tumour therapeutic instrument is asked for to the not damaged deciding for or asking for, infrared ray converge head (25), it includes: the infrared electromagnetic wave superposition resonance attenuation wave device comprises an N pole convergence cavity (32), an N pole close to convergence cavity magnet (33), an S pole close to convergence cavity magnet (34), an S pole close to convergence cavity electromagnetic coil (35), an S pole convergence cavity (36), an infrared electromagnetic wave superposition resonance attenuation wave convergent beam (37) and an N pole close to convergence cavity electromagnetic coil (38), and is characterized in that:

infrared electromagnetic wave superposition resonance attenuation wave (31) enters a first N-pole infrared convergence head extension frame (2), so that the infrared electromagnetic wave superposition resonance attenuation wave (31) enters an N-pole convergence cavity (32), an N-pole magnet (33) abutting against the convergence cavity introduces strong or weak direct current into an N-pole electromagnetic coil (38) abutting against the convergence cavity, a strong or weak N-pole magnetic field is formed around the N-pole convergence cavity (32), meanwhile, a corresponding S-pole electromagnetic coil (35) of a first S-pole infrared convergence head extension frame (21) also introduces strong or weak direct current into an S-pole electromagnetic coil (35), a strong or weak S-pole magnetic field is formed in an S-pole convergence cavity, so that the infrared electromagnetic wave passing through the S-pole convergence cavity (36) is superposed with resonance attenuation wave, and is magnetized under the action of the S-pole abutting against the convergence cavity magnet (34), and an N-pole infrared convergence head extension frame (2) and the first S-pole infrared convergence head extension frame (21) form an N-pole magnetic field, And similarly, a second N-pole infrared gathering head extension frame (3) corresponds to a second S-pole infrared gathering head extension frame (23), and a third N-pole infrared gathering head extension frame (4) corresponds to a third S-pole infrared gathering head extension frame (24) to form an N, S magnetic circuit, so that infrared electromagnetic waves are superposed with resonance attenuation waves to be focused to kill cancer cells without killing normal cells of a human body.

FIG. 4 is a circuit diagram of the varying magnetic field of the infrared electromagnetic wave and resonance attenuation wave generator of the nondestructive directional tumor therapeutic apparatus control box: an alternating current 220V power supply forms a direct current working voltage through a switch K1, a fuse wire 3A, a path of the direct current working voltage through a capacitor C7, a resistor R19, an R20, an R21, a transistor D9, a D10, a D12, a dielectric capacitor C6 and a transistor T3, a transistor T2, a resistor R18 and a transistor D18 form an emitter follower circuit, the working voltage VDD of the chip 555, the chip 4013 and the chip 4093 is provided, the chip 555, the resistors R18, the diode D18 and the D18 generate frequency spectrum signals suitable for a human body, the frequency spectrum signals are input to a base of the transistor T18 through the resistor R18, the T18 provides the working voltage of the T18, the conduction angles of bidirectional thyristors are triggered through the resistor R18 and the light emitting diode D18, the chip 4013, the transistor D18, the resistors D18, the resistors 18, the clock frequency circuits, the R18, the resistors, the R18, the resistors 36, the crystal is composed of resistors R22, R23, R24, R25, R26, capacitors C9, C10, C11, crystal triodes T4, a crystal oscillator CZ 4, an inductor L4 or L4 through a switch K3, the switch K4 is controlled to be switched on to generate resonant attenuation waves with different frequencies, the L4 can output a collector signal of the crystal triode T4, if the intensity of the output resonant attenuation waves is not enough, the other path of the fuse 3A is connected to the switch K4, when the alternating current changes in the positive half cycle and the negative half cycle, the crystal diodes D4 and the D4 are mutually switched on, the voltage changed by the chip W4 enters the crystal triode T4 through the resistor R555, the resistor R4 provides the working voltage of the crystal triode T4, and the crystal is suitable for human body TLC control through the silicon controlled by the crystal silicon controlled rectifier T4, the W2 electromagnetic coil generates N, S magnetic poles, and changes the S pole convergence cavity SN magnetic field and the N pole convergence cavity NS magnetic field of the infrared convergence head (25) with stronger or weaker direct current.

In the figure, an alternating current power supply 220V outputs direct current through bridge rectification of switches KWa, KWb, a fuse wire FW1 to bridge rectifier diodes WD1, WD2, WD3 and WD4, the direct current is output to a first motor W1, a second motor W2 and a third motor W3 in three ways, the first motor W1 controls the forward and reverse directions of the first motor W1 through switches KW1 and KW1, the fuse wire FW4 performs overload protection, the second motor W2 controls the forward and reverse directions of the second motor W2 through switches ten KW2 and KW2, the fuse wire FW3 performs overload protection, the third motor W3 controls the forward and reverse directions of the third motor W3 through switches ten KW3 and KW3, and the fuse wire FW2 performs overload protection.

Claims

A non-invasive targeted tumor therapy apparatus comprising: a B-ultrasonic probe fixing frame (1) on the semicircular ring, a first N-pole infrared convergence head stretching frame (2), a second N-pole infrared convergence head stretching frame (3), a third N-pole infrared convergence head stretching frame (4), a convergence head outgoing line (5), a semicircular ring (6), a base upper support frame upper pulley (7), a base upper support frame (8), a first motor W1(9), a first motor W1 transmission gear (10), a second motor W2 transmission gear (11), a base lower support (12), a ground buckle lock (13), a track (14), a groove-shaped steel pulley (15), a base (16), a second motor W2(17), a semicircular ring edge gear (18), a tumor patient (19), a movable treatment bed (20), a first S-pole infrared convergence head stretching frame (21), a semicircular ring groove (22), a second S-pole convergence head stretching frame (23), A third S-pole infrared convergence head stretching frame (24), an infrared convergence head (25), a human tumor (26), an ultrasonic B-ultrasonic probe (27), a stretching frame fixing thread (28), a connecting scale rod (29) and a nondestructive directional tumor therapeutic apparatus control box (30),

an infrared electromagnetic wave superposition resonance attenuation wave (31), an N-pole convergence cavity (32), an N-pole close convergence cavity magnet (33), an S-pole close convergence cavity magnet (34), an S-pole close convergence cavity electromagnetic coil (35) and an S-pole convergence cavity (36), an infrared electromagnetic wave superposition resonance attenuation wave convergent beam (37), an N-pole close convergence cavity electromagnetic coil (38), a mobile treatment bed push handle (39), a ground buckle locking tail end (40), a mobile treatment bed rear end support rod (41), a third motor W3 connecting gear (42), a third motor W3(43), a mobile treatment bed middle lifting gear rod (44), a mobile treatment bed groove pulley (45), a mobile treatment bed positioning groove (46), a sliding spring (47) in the middle of a round wheel rod, a mobile treatment bed push handle connecting cam (48), a mobile treatment bed push handle control round wheel (49), A rubber top plug (50) at the front end of the round wheel rod,

it is characterized in that a lower base bracket (12) is arranged at the lower part of a base (16), a groove-shaped steel pulley (15) is arranged at the lower end of the lower base bracket (12), a first motor W1(9) drives a first motor W1 transmission gear (10), a first motor W1 transmission gear (20) drives a gear at the lower part of the base (16) to enable the base (16) to slide on a track (14),

a third motor W3(43) drives a third motor W3 to connect with a gear (42), a group of reduction gears are driven by the third motor W3 to connect with the gear (42), the group of reduction gears drives a middle lifting gear rod (44) of the movable treatment bed to enable the movable treatment bed (20) to move up and down, and simultaneously a rear end support rod (41) of the treatment bed is moved up and down in a sliding chute and matched with the middle lifting gear rod (44) of the movable treatment bed to slide up and down to adjust the up and down height of the movable treatment bed (20), so that the movable treatment bed (20) is along a track (14), a movable treatment bed push handle (39) is used for slowly pushing a steel pulley (45) with a groove of the movable treatment bed at the lower part of the movable treatment bed (20) into an inner circular ring of a semicircular ring (6), a positioning groove (46) of the movable treatment bed and the middle lifting gear rod (44) of the movable treatment bed are moved, the rear end support rod (41) of the movable treatment, the movable treatment bed (20) can slide in the middle of the positioning groove (46) of the movable treatment bed but cannot move left and right, a push handle (39) of the movable treatment bed is pressed downwards, a convex part of a connecting cam (48) of the push handle of the movable treatment bed is enabled to be upwards, a control round wheel (49) of the push handle of the movable treatment bed in the positioning groove of the movable treatment bed is tightly pushed, a rubber ejector plug (50) connected with the front end of a round wheel rod is enabled to be tightly pushed against a supporting rod (41) at the rear end of the movable treatment bed, the movable treatment bed (20) is enabled to be locked against the supporting rod (41) at the rear end of the movable treatment bed, when the push handle (39) of the movable treatment bed is upwards, the rubber ejector plug (50) at the front end of the round wheel rod is enabled to be separated from the supporting rod (41) at the rear end of the movable treatment bed under the elastic force,

the ground buckle lock (13) is buckled upwards to lock the tail end (40) of the ground buckle to fix and move the treatment bed (20), the control box (30) of the nondestructive directional tumor treatment apparatus is opened, a plurality of infrared convergence heads (25) are communicated through the convergence head outgoing line (5),

adjusting the distance of a B ultrasonic connecting scale rod (29) on the semicircular ring (6), enabling an ultrasonic B ultrasonic probe (27) to detect the position of a human tumor (26), simultaneously enabling a second motor W2(17) to drive a second motor W2 transmission gear (11), a second motor W2 transmission gear (11) to drive a semicircular ring edge gear (18), thereby enabling the semicircular ring (6) to rotationally move, because a base upper support frame upper pulley (7) on a base upper support frame (8) on the base slides in a semicircular ring groove (22), enabling the semicircular ring (6) to rotationally slide, the lower part of the base upper support frame (8) is fixed on the base (16), the two base upper support frames (8) are respectively fixed on the left side and the right side of the base (16), enabling the semicircular ring (6) to slowly move, and the ultrasonic B ultrasonic probe (27) on the semicircular ring (6) is matched to move on the body of a tumor patient (19), if the tumor is 8 cm deep in the body, then adjusting a B-ultrasonic probe fixing frame (1) on the semicircular ring to ensure that a B-ultrasonic connecting scale rod (29) extends out 22 cm along the diameter direction and is fixed by a stretching frame fixing screw (28) to be exactly the circle center position of the semicircular ring (6), at the moment, a first N-pole infrared gathering head stretching frame (2) arranged on the semicircular ring (6) and a first S-pole infrared gathering head stretching frame (21) also arranged on the semicircular ring (6) correspond to each other in a linear position, a second N-pole infrared gathering head stretching frame (3) and a second S-pole infrared gathering head stretching frame (23) also correspond to each other in a linear position, a third N-pole infrared gathering head stretching frame (4) and a third S-pole infrared gathering head stretching frame (24) also correspond to each other in a linear position, and the front ends of the six stretching frames are all provided with infrared gathering heads (25).
2. The atraumatic tumor-accessing therapeutic apparatus according to claim 1, said infrared focusing head (25) comprising: the infrared electromagnetic wave superposition resonance attenuation wave device comprises an N pole convergence cavity (32), an N pole close to convergence cavity magnet (33), an S pole close to convergence cavity magnet (34), an S pole close to convergence cavity electromagnetic coil (35), an S pole convergence cavity (36), an infrared electromagnetic wave superposition resonance attenuation wave convergent beam (37) and an N pole close to convergence cavity electromagnetic coil (38), and is characterized in that:

infrared electromagnetic wave superposition resonance attenuation wave (31) enters a first N-pole infrared convergence head extension frame (2), so that the infrared electromagnetic wave superposition resonance attenuation wave (31) enters an N-pole convergence cavity (32), an N-pole magnet (33) abutting against the convergence cavity introduces strong or weak direct current into an N-pole electromagnetic coil (38) abutting against the convergence cavity, a strong or weak N-pole magnetic field is formed around the N-pole convergence cavity (32), meanwhile, a corresponding S-pole of a first S-pole infrared convergence head extension frame (21) also introduces strong or weak direct current into an S-pole electromagnetic coil (35) abutting against the convergence cavity, a strong or weak S-pole magnetic field is formed in the S-pole convergence cavity, so that the infrared electromagnetic wave passing through the S-pole convergence cavity (36) is superposed with resonance attenuation wave, and is magnetized under the action of the S-pole abutting against the convergence cavity magnet (34), and an N-pole infrared convergence head extension frame (2) and the first S-pole infrared convergence head extension frame (21) form an N-pole magnetic field, And similarly, a second N-pole infrared gathering head extension frame (3) corresponds to a second S-pole infrared gathering head extension frame (23), and a third N-pole infrared gathering head extension frame (4) corresponds to a third S-pole infrared gathering head extension frame (24) to form an N, S magnetic circuit, so that infrared electromagnetic waves are superposed with resonance attenuation waves to be focused to kill cancer cells without killing normal cells of a human body.