CN113331939A

CN113331939A - Cardiovascular and cerebrovascular softening ablation equipment

Info

Publication number: CN113331939A
Application number: CN202110470985.4A
Authority: CN
Inventors: 林世杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2021-09-03

Abstract

The invention discloses a cardiovascular and cerebrovascular softening and ablation device, which structurally comprises: the invention discloses a torsion spring injection tube, a magnetic ring double-tube bundle tube, a liquid guide tube, a man-machine interface screen and a central control mainframe box, which are matched with each other by using the torsion spring injection tube and the magnetic ring double-tube bundle tube, and form a blood clot ablation electrothermal treatment effect of penetrating through a human body to soften blood vessels and improving the cardiovascular and cerebrovascular blood vessels by the injection needle tube inserted magnetic ring branch tube microelectrode electric shock adaptive liquid collection drip tube groove nutrient solution vein dredging, so that the weak electric shock therapy during the human blood circulation reduces high load voltage, forms a magnetic ring sleeve winding linkage adaptive overcurrent limiting operation effect, assists in improving the high efficiency of softening and ablating hard blood vessel blocks by equipment, promotes the high efficiency of penetrating through the whole cardiovascular and cerebrovascular circulation, continuously assists in recovering the blood vessel activity, and activates cell proliferation.

Description

Cardiovascular and cerebrovascular softening ablation equipment

Technical Field

The invention relates to a softening and ablation device for cardiovascular and cerebrovascular vessels, belonging to the field of medical treatment.

Background

The softening and ablation equipment for the cardiovascular and cerebrovascular is to assist medical care personnel to dredge vessels of postoperative patients to prevent myocardial infarction and cerebral infarction, and improve the overall cardiovascular and cerebrovascular protection degree and the adaptive degree of hospital bed adaptive cannula infusion, and the public defect to be optimized in the prior art is as follows:

the cardio-cerebrovascular sclerosis easily causes the blockage of myocardial infarction and cerebral infarction blood clots, easily generates intermittent shock risk to a human body, has deep influence on the pathological change deterioration degree of a patient, and the electrode therapy for softening the cardio-cerebrovascular easily stimulates the stress reaction between skin and blood vessels, thereby promoting the dispersion of blood heat circulation, only performing transient softening treatment, not obtaining the continuous efficient deep treatment, and easily causing the condition that equipment has over-electric shock and large loss of brain neurons.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a cardiovascular and cerebrovascular softening and ablating device, which solves the problems that the sclerosis of the cardiovascular and cerebrovascular easily causes the blockage of myocardial and cerebral infarction blood clots, the intermittent shock risk is easily generated to the human body, the influence on the lesion deterioration degree of a patient is deep, the stress reaction between the skin and the blood vessels is easily stimulated by the electrode therapy for softening the cardiovascular and cerebrovascular vessels, the blood heat circulation dredging is promoted, only transient softening treatment is carried out, the continuous efficient deep treatment cannot be obtained, and the condition that the device is easy to electrically shock and greatly consume brain neurons is easily caused.

In order to achieve the purpose, the invention is realized by the following technical scheme: a cardiovascular softening and ablating device structurally comprises: the magnetic ring double-bundle barrel is buckled with the liquid guide pipe and communicated with each other, the human-computer interface screen is installed on the front side of the central control mainframe box and is positioned on the same vertical surface, the liquid guide pipe is inserted and embedded on the right side of the central control mainframe box, the magnetic ring double-bundle barrel is provided with a liquid collecting pipe groove, a magnetic ring branch guide pipe and a pressing plate bundle barrel groove, the liquid collecting pipe groove and the magnetic ring branch guide pipe are inserted and embedded inside the pressing plate bundle barrel groove and are parallel to each other, the liquid collecting pipe groove and the magnetic ring branch guide pipe are in clearance fit and are positioned on the same vertical surface, and the pressing plate bundle barrel groove is embedded on the right side of the torsion spring injection pipe and is collinear with the axis.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the drip collecting pipe groove consists of a drip collecting pipe and a thin pipeline groove, the thin pipeline groove is arranged in the drip collecting pipe, and the drip collecting pipe and the thin pipeline groove are nested together and are communicated with each other.

As a further improvement of the invention, the liquid collecting dropper is composed of a hair needle transverse pipe and a buckling column plate, wherein the buckling column plate is installed inside the hair needle transverse pipe, and the hair needle transverse pipe and the buckling column plate are buckled together and are positioned on the same vertical plane.

As a further improvement of the invention, the magnetic ring branch conduit consists of a magnetic ring sleeve and a branch conduit, the branch conduit is arranged in the magnetic ring sleeve, and the magnetic ring sleeve and the branch conduit are in clearance fit.

As a further improvement of the invention, the magnetic ring sleeve is composed of a magnet piece frame ring and a bundle sleeve, the magnet piece frame ring is arranged inside the bundle sleeve, the magnet piece frame ring and the bundle sleeve are nested into a whole, and the axes of the magnet piece frame ring and the bundle sleeve are collinear.

As a further improvement of the invention, the torsion spring injection tube consists of a torsion spring tube and an injection needle tube, wherein the torsion spring tube is arranged inside the injection needle tube, and the torsion spring tube and the injection needle tube are inserted together and have collinear axes.

As a further improvement of the invention, the torsion spring tube consists of a thin needle frame tube and a torsion spring wire, the thin needle frame tube is arranged inside the torsion spring wire, and the thin needle frame tube is mechanically connected with the torsion spring wire and the axle center of the thin needle frame tube is collinear.

As a further improvement of the invention, the liquid guide pipe consists of a lock sleeve plate frame seat and a liquid guide hose, the lock sleeve plate frame seat is arranged on the left side of the liquid guide hose, and the lock sleeve plate frame seat and the liquid guide hose are buckled together and are positioned on the same vertical plane.

As a further improvement of the invention, the lock sleeve plate frame seat consists of a through hole arc sleeve plate and a lock clamp seat block, wherein the through hole arc sleeve plate is arranged inside the lock clamp seat block, and the through hole arc sleeve plate and the lock clamp seat block are nested into a whole and are positioned on the same vertical plane.

As a further improvement of the invention, the hair needle transverse tube is of a composite burette structure with the hair needle frame inserted from top to bottom, so that the operation effect of assisting in the titration of nutrient solution to form the intravenous injection by weak electric shock and softening blood vessels, assisting in the ablation of the internal circulation of blood clots and promoting the recovery of the body is facilitated.

As a further improvement of the invention, the magnet sheet frame ring is of a composite ring frame structure with a magnet wheel plate and a shaft wheel frame ring, so that the operation effect of activating vascular wall cell proliferation and softening the vascular wall by raising weak breakdown current mixed nutrient solution through centered magnetic attraction is facilitated.

As a further improvement of the invention, the thin needle frame tube is a composite tube frame structure with an upper valve filler strip and a lower valve filler strip in the body of the thin needle tube, so that the blood vessel is softened by electric shock therapy conveniently by passing electrified nutrient solution transversely, and the cardiovascular and cerebrovascular blood vessels of the ablated blood clot are assisted to recover and go deep into the blood vessel.

As a further improvement of the invention, the locking and clamping seat block is of a composite clamping seat structure with upper and lower trapezoidal cushion strips, so that the butt joint interlocking anti-tripping of the pipeline port is convenient, the stability of nutrient solution dredging intravenous injection is improved, and the quantitative anti-overflow efficiency of the cardiovascular and cerebrovascular in-vivo circulation is assisted.

Advantageous effects

The invention relates to a cardiovascular and cerebrovascular softening and ablating device, which is characterized in that a medical worker holds a pressing plate tube slot of a magnetic ring double-tube bundle tube to drive an injection needle tube of a torsional spring injection tube to drive the torsional spring tube to pull a thin needle frame tube and a torsional spring wire to penetrate into a vein, so that the vein of the cardiovascular and cerebrovascular flows throughout the body to be monitored by operating a human-computer interface screen and a central control host box, and the transfusion drip tube of a transfusion drip tube slot for transfusion of nutrient solution and a capillary needle transverse tube and a pressing buckle column plate in the thin tube slot are ensured to form a fluid anti-stamping sustained-release titration operation effect, then, the micro electrostatic breakdown current mixed nutrient solution shock therapy is formed by matching the nutrient solution in the shunting catheter of the magnetic ring shunting catheter in a swirling manner with the magnet sheet frame ring of the magnetic ring sleeve and electromagnetically rotating the bundle sleeve to promote the cardiovascular and cerebrovascular softening and ablation circulation operation effect, so that the real-time monitoring on the cardiovascular and cerebrovascular health condition is ensured, and the stimulation operation effect of assisting in recovering the softened blood vessel and promoting the proliferation of vascular cells is promoted.

The invention has the following advantages after operation:

the torsion spring injection tube is matched with the magnetic ring double-tube bundle tube, the needle insertion type magnetic ring branch tube microelectrode electric shock is matched with the liquid collecting dropper groove nutrient solution vein dredging through the injection needle tube, so that a blood clot ablation electric heating treatment effect of penetrating through a human body softened blood vessel and improving a cardiovascular and cerebrovascular blood vessel is formed, the high load voltage is reduced by a weak electric shock therapy during human blood circulation, the magnetic ring sleeve winding linkage matching overcurrent limiting operation effect is formed, the high efficiency of softening and ablating hard blood vessel blocks of equipment is assisted to be improved, the high efficiency of penetrating through of the whole body cardiovascular and cerebrovascular circulation is promoted, the blood vessel activity is continuously assisted to be recovered, and the cell proliferation is activated.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a cardiovascular softening and ablation apparatus of the invention.

FIG. 2 is a detailed cross-sectional structural diagram of the torsion spring injection tube and the magnetic ring double tube bundle cylinder of the present invention.

FIG. 3 is a detailed cross-sectional view of the magnetic ring double-tube bundle tube and the catheter of the present invention.

FIG. 4 is a detailed sectional structure diagram of the magnetic ring double tube bundle cylinder, the liquid collecting drop tube slot and the magnetic ring branch tube of the present invention.

FIG. 5 is an enlarged cross-sectional view of the torsion spring tube according to the present invention.

Fig. 6 is a schematic cross-sectional enlarged structure view of the lock sleeve plate frame seat in the working state of the invention.

FIG. 7 is an enlarged structural diagram of the cross section of the drip-collecting tube in the working state.

Fig. 8 is a schematic side sectional enlarged structure view of the magnetic ring sleeve in the working state of the invention.

Description of reference numerals: torsion spring injection tube-1, magnetic ring double-tube bundle tube-2, liquid guide tube-3, man-machine interface screen-4, central control mainframe box-5, liquid collecting dropper groove-2A, magnetic ring branch tube-2B, pressing plate bundle tube groove-2C, liquid collecting dropper-2A 1, fine pipeline groove-2A 2, capillary needle transverse tube-2A 11, pressing buckle column plate-2A 12, magnetic ring sleeve-2B 1, tapping guide tube-2B 2, magnet sheet frame ring-2B 11, bundle sleeve-2B 12, torsion spring tube-11, injection needle tube-12, fine needle frame tube-111, torsion spring wire-112, lock sleeve plate frame seat-31, liquid guide hose-32, through hole arc sleeve plate-311 and lock clamp seat block-312.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-8, the present invention provides a cardiovascular and cerebrovascular softening and ablation apparatus, which comprises: a torsion spring injection tube 1, a magnetic ring double-tube bundle barrel 2, a liquid guide tube 3, a man-machine interface screen 4 and a central control mainframe box 5, the magnetic ring double-tube bundle barrel 2 is nested at the right side of the torsion spring injection tube 1, the axes of the magnetic ring double-tube bundle barrel 2 and the liquid guide tube 3 are collinear, the magnetic ring double-tube bundle barrel 2 and the liquid guide tube 3 are buckled together and are communicated with each other, the hmi screen 4 is installed at the front side of the central control main cabinet 5 and on the same vertical plane, the liquid guide pipe 3 is inserted and embedded at the right side of the central control mainframe box 5, the magnetic ring double-tube bundle cylinder 2 is provided with a liquid collecting dropping pipe groove 2A, a magnetic ring branch pipe 2B and a pressure plate bundle cylinder groove 2C, the liquid collecting and dropping pipe groove 2A and the magnetic ring branch pipe 2B are inserted and embedded in the pressing plate bundling barrel groove 2C and are parallel to each other, the liquid collecting and dropping pipe groove 2A and the magnetic ring branch pipe 2B are in clearance fit and are positioned on the same vertical surface, and the pressing plate barrel bundling groove 2C is nested on the right side of the torsion spring injection pipe 1, and the axes of the pressing plate barrel groove and the torsion spring injection pipe are collinear.

Referring to fig. 4, the liquid collecting and dropping pipe groove 2A is composed of a liquid collecting dropper 2A1 and a fine pipe groove 2A2, the fine pipe groove 2A2 is installed inside the liquid collecting dropper 2A1, the liquid collecting dropper 2A1 and the fine pipe groove 2A2 are nested together and are communicated with each other, the magnetic ring branch pipe 2B is composed of a magnetic ring sleeve 2B1 and a branch pipe 2B2, the branch pipe 2B2 is installed inside the magnetic ring sleeve 2B1, the magnetic ring sleeve 2B1 and the branch pipe 2B2 are in clearance fit, and the branch pipe 2B2 is conducted through the fine pipe groove 2A2 to form a micro-electromagnetic blood vessel softening and deep stimulation operation effect of shunting and reconverging.

Referring to fig. 7, the drip collecting dropper 2a1 is composed of a hair needle horizontal tube 2a11 and a buckling column plate 2a12, the buckling column plate 2a12 is installed inside the hair needle horizontal tube 2a11, the hair needle horizontal tube 2a11 and the buckling column plate 2a12 are buckled together and are located on the same vertical plane, the hair needle horizontal tube 2a11 is a composite burette structure with a hair needle frame inserted vertically, so that the operation effect of assisting in softening blood vessels by weak electric shock when intravenous injection is formed by assisting in titration of nutrient solution to assist in ablating blood clot internal circulation and promoting body recovery is achieved, and the operation effect of titrating slow-release nutrient solution intravenous injection is achieved by clamping the hair needle horizontal tube 2a11 on two sides of the buckling column plate 2a 12.

Referring to fig. 8, the magnetic ring sleeve 2B1 is composed of a magnet frame ring 2B11 and a bundle sleeve 2B12, the magnet frame ring 2B11 is installed inside the bundle sleeve 2B12, the magnet frame ring 2B11 and the bundle sleeve 2B12 are nested into a whole, and the axes of the magnet frame ring and the bundle sleeve are collinear, the magnet frame ring 2B11 is a composite ring frame structure of a magnet wheel plate with a wheel frame ring, so that the operation effect of activating the cell proliferation of the vascular wall by raising the weak breakdown current mixed nutrient solution by centered magnetic attraction is facilitated, and the operation effect of softening the vascular wall by activating the cell proliferation of the vascular wall is formed, and the operation effect of conducting the electrostatic ion current of the electromagnetic winding is formed by adapting the fluid to be pushed and rotated in the bundle sleeve 2B12 through the magnet frame ring 2B 11.

Referring to fig. 2, the torsion spring injection tube 1 is composed of a torsion spring tube 11 and an injection needle tube 12, the torsion spring tube 11 is installed inside the injection needle tube 12, the torsion spring tube 11 and the injection needle tube 12 are inserted and embedded together, the axes are collinear, and nutrient solution is collected in the injection needle tube 12 through the torsion spring tube 11 to form an injection operation effect of deep butting to blood vessels.

Referring to fig. 5, the torsion spring tube 11 is composed of a thin needle frame tube 111 and a torsion spring wire 112, the thin needle frame tube 111 is installed inside the torsion spring wire 112, the thin needle frame tube 111 is mechanically connected with the torsion spring wire 112, and the axis of the thin needle frame tube is collinear, the thin needle frame tube 111 is a composite tube frame structure with upper and lower flap filler strips in a slender needle tube body, so that electric shock therapy is conveniently conducted to form electric shock nutrient solution, the blood vessel softening is promoted, the cardiovascular and cerebrovascular blood vessels with blood clots are assisted to recover and go deep into the blood vessel, the thin needle frame tube 111 is wound in the torsion spring wire 112 in a rotating frame, the flow is guaranteed to be small, the pressure is reduced, and the vein flowing smoothness is improved.

The working process is as follows: the medical staff holds the pressing plate tube slot 2C of the magnetic ring double-tube 2 to drive the injection needle tube 12 of the torsion spring injection tube 1 to drive the torsion spring tube 11 to draw the thin needle frame tube 111 and the torsion spring wire 112 to go deep into the vein, so that the vein of the heart and cerebral vessels flows through the operation man-machine interface screen 4 and the central control main case 5 to be monitored, the nutrient solution is also ensured to be delivered to the liquid collection dropper 2A1 of the liquid collection dropper slot 2A of the liquid collection tube slot 3 and the capillary channel slot 2A2, the capillary needle transverse tube 2A11 and the pressing buckle column plate 2A12 form the fluid anti-impact pressure slow release titration operation effect, then the micro electrostatic breakdown current electric shock therapy is formed by the electromagnetic mixing of the slice frame ring 2B11 of the nutrient solution cyclone adapting magnetic ring sleeve 2B1 and the bundle sleeve 2B12 in the tapping conduit 2B2 of the magnetic ring to promote the cardiovascular and cerebral vessel ablation cycle operation effect, thereby ensuring the real-time monitoring of the health condition of the heart and cerebral vessels, the stimulation operation effect of assisting recovery and softening of blood vessels and promoting proliferation of blood vessel cells is improved.

Example two:

referring to fig. 1-8, the present invention provides a cardiovascular and cerebrovascular softening and ablating device, which is otherwise the same as in embodiment 1, except that:

referring to fig. 3, the liquid guide tube 3 is composed of a lock sleeve plate frame seat 31 and a liquid guide hose 32, the lock sleeve plate frame seat 31 is installed on the left side of the liquid guide hose 32, the lock sleeve plate frame seat 31 and the liquid guide hose 32 are buckled together and are located on the same vertical plane, and the double-tube end interlocking anti-tripping operation effect is formed on one section of the liquid guide hose 32 through the lock sleeve plate frame seat 31.

Referring to fig. 6, the lock sleeve plate frame seat 31 is composed of a through hole arc sleeve plate 311 and a lock clamp seat block 312, the through hole arc sleeve plate 311 is installed inside the lock clamp seat block 312, the through hole arc sleeve plate 311 and the lock clamp seat block 312 are nested into a whole and located on the same vertical plane, the lock clamp seat block 312 is a composite clamp seat structure with upper and lower trapezoidal filler strips, the butt joint, interlocking and anti-tripping of the pipeline ports are facilitated, the stability of nutrient solution vein dredging injection and the quantitative anti-overflow efficiency of the cardiovascular and cerebrovascular internal circulation are improved, and the operation effect of wrapping the front side of the lock clamp seat block 312 with an arc surface to soften the vascular blockage of the ablation blood vessel is achieved through the through hole arc sleeve plate 311.

The power supply and nutrient solution delivery are realized through the early-stage human-computer interface regulation and control equipment, after the adaptive needle tube for the butt joint operation of the pipelines is deeply inserted into the vein, the through hole arc sleeve plate 311 of the lock sleeve plate frame seat 31 and the interlocking needle frame input end of the lock clamp seat block 312 are pulled and buckled through the liquid guide hose 32 of the liquid guide tube 3, so that the operation effects of steady-flow leakage-proof quantitative delivery and conduction of the blood vessel to assist the micro electric shock softening and the ablation of the coagulated blood are achieved.

The invention achieves the aims of utilizing the torsion spring injection tube 1 to be matched with the magnetic ring double-tube bundle cylinder 2, forming the blood clot ablation electric heating treatment effect which penetrates through the human body to soften the blood vessel and improves the cardiovascular and cerebrovascular blood vessels by matching the insertion needle type magnetic ring branch tube 2B with the injection needle tube 12 and the micro-electrode electric shock of the needle insertion type magnetic ring branch tube 2B to adapt to the intravenous dredging of the nutrient solution in the liquid collecting drop tube groove 2A, reducing the high load voltage of the weak electric shock treatment during the blood circulation of the human body, forming the winding linkage of the magnetic ring sleeve 2B1 to be matched with the overcurrent limiting operation effect, assisting the improvement of the high efficiency of softening and ablating hard blood vessel blocks of equipment, promoting the high efficiency of the circulation and the continuous auxiliary recovery of the blood vessel activity of the whole body and activating the cell proliferation so as to solve the problems that the cardiovascular and cerebrovascular sclerosis easily cause the blockage of the blood clot of the myocardial and the intermittent shock risk to the human body and have deep influence on the lesion deterioration degree of a patient, the electrode therapy for softening the cardiovascular and cerebrovascular is easy to stimulate the stress reaction between the skin and the blood vessels so as to promote the dispersion of blood heat circulation, and only the transient softening treatment is adopted, so that the continuous efficient deep treatment cannot be obtained, and the problem that the device is easy to cause the condition of excessive electric shock and brain neuron loss is easily caused.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims

1. A cardiovascular softening and ablating device structurally comprises: torsional spring injection tube (1), the double-barrelled bundle of a section of thick bamboo of magnetic ring (2), catheter (3), man-machine interface screen (4), well accuse mainframe box (5), its characterized in that:

the magnetic ring double-tube bundle barrel (2) is nested on the right side of the torsion spring injection tube (1), the magnetic ring double-tube bundle barrel (2) is buckled with the liquid guide tube (3), the man-machine interface screen (4) is installed on the front side of the central control mainframe box (5), and the liquid guide tube (3) is inserted and embedded on the right side of the central control mainframe box (5);

the magnetic ring double-tube bundle cylinder (2) is provided with a liquid collecting dropping pipe groove (2A), a magnetic ring branch pipe (2B) and a pressing plate bundle cylinder groove (2C);

the liquid collecting and dropping pipe groove (2A) and the magnetic ring branch pipe (2B) are inserted and embedded in the pressing plate bundling barrel groove (2C), the liquid collecting and dropping pipe groove (2A) is matched with the magnetic ring branch pipe (2B), and the pressing plate bundling barrel groove (2C) is embedded and embedded on the right side of the torsion spring injection pipe (1).

2. The cardiovascular softening and ablating device of claim 1, wherein: the drip collecting pipe groove (2A) is composed of a drip collecting dropper (2A1) and a thin pipeline groove (2A2), the thin pipeline groove (2A2) is installed inside the drip collecting dropper (2A1), and the drip collecting dropper (2A1) and the thin pipeline groove (2A2) are nested together.

3. The cardiovascular softening and ablating device of claim 2, wherein: the liquid collecting dropper (2A1) is composed of a hair needle transverse tube (2A11) and a buckling column plate (2A12), the buckling column plate (2A12) is installed inside the hair needle transverse tube (2A11), and the hair needle transverse tube (2A11) and the buckling column plate (2A12) are buckled together.

4. The cardiovascular softening and ablating device of claim 1, wherein: the magnetic ring branch conduit (2B) is composed of a magnetic ring sleeve (2B1) and a branch conduit (2B2), the branch conduit (2B2) is installed inside the magnetic ring sleeve (2B1), and the magnetic ring sleeve (2B1) is matched with the branch conduit (2B 2).

5. The apparatus for softening and ablating blood vessels of heart and brain according to claim 4, wherein: the magnetic ring sleeve (2B1) is composed of a magnet piece frame ring (2B11) and a beam sleeve (2B12), the magnet piece frame ring (2B11) is installed inside the beam sleeve (2B12), and the magnet piece frame ring (2B11) and the beam sleeve (2B12) are nested into a whole.

6. The cardiovascular softening and ablating device of claim 1, wherein: the torsion spring injection tube (1) is composed of a torsion spring tube (11) and an injection needle tube (12), the torsion spring tube (11) is installed inside the injection needle tube (12), and the torsion spring tube (11) and the injection needle tube (12) are inserted and embedded together.

7. The apparatus according to claim 6, wherein: the torsion spring tube (11) is composed of a thin needle frame tube (111) and a torsion spring wire (112), the thin needle frame tube (111) is installed inside the torsion spring wire (112), and the thin needle frame tube (111) is mechanically connected with the torsion spring wire (112).

8. The cardiovascular softening and ablating device of claim 1, wherein: catheter (3) comprises lock sleeve plate frame seat (31), drain hose (32), install in the left side of drain hose (32) lock sleeve plate frame seat (31), lock sleeve plate frame seat (31) and drain hose (32) lock are in the same place.

9. The cardiovascular softening and ablating device of claim 8, wherein: the lock sleeve plate frame seat (31) is composed of a through hole arc sleeve plate (311) and a lock clamp seat block (312), the through hole arc sleeve plate (311) is installed inside the lock clamp seat block (312), and the through hole arc sleeve plate (311) and the lock clamp seat block (312) are nested into a whole.