CN114404265A

CN114404265A - Dual-method type blood vessel relieving device for preventing aortic dissection based on dual-heat type hypertension

Info

Publication number: CN114404265A
Application number: CN202210105978.9A
Authority: CN
Inventors: 徐灿; 王东进; 周庆; 潘俊; 骆璇; 葛敏; 曹海龙; 言翊光; 范阜东; 陈小芳; 李铠; 程晓峰; 宋之昭; 薛云星; 徐贞俊; 卢子润; 许万紫; 麻明; 潘沱; 李坤生
Original assignee: Nanjing Drum Tower Hospital
Current assignee: Nanjing Drum Tower Hospital
Priority date: 2022-01-28
Filing date: 2022-01-28
Publication date: 2022-04-29
Anticipated expiration: 2042-01-28
Also published as: CN114404265B

Abstract

The invention discloses a dual-method type blood vessel relieving device for preventing an aortic interlayer based on dual-heat type hypertension, which comprises a bottom plate, a support frame, a sectional type medium object translation overturning relieving mechanism and a lying and collecting type dual-method pollution reduction type anti-crossing mechanism, wherein the support frame is arranged on the upper wall of one end of the bottom plate, the sectional type medium object translation overturning relieving mechanism is arranged at one end of the support frame far away from the bottom plate, and the lying and collecting type dual-method pollution reduction type anti-crossing mechanism is arranged on the upper wall of the bottom plate. The invention belongs to the technical field of blood vessel relieving, and particularly relates to a dual-method type blood vessel relieving device for preventing aortic dissection based on dual-heat type hypertension; the invention provides a dual-method type blood vessel relaxing device for preventing aortic dissection, which adopts dual-heat evaporation mist to realize treatment on a patient and dimensionality reduction treatment on waste liquid, and completes fumigation treatment on the patient through sectional thinking.

Description

Dual-method type blood vessel relieving device for preventing aortic dissection based on dual-heat type hypertension

Technical Field

The invention belongs to the technical field of blood vessel relieving, and particularly relates to a dual-method type blood vessel relieving device for preventing aortic dissection based on dual-heat type hypertension.

Background

Hypertension refers to the condition that the pressure value of blood flowing in blood vessels is higher than normal, and is one of the most common cardiovascular diseases, and is also an important risk factor for diseases such as cerebral apoplexy, coronary heart disease, heart failure, aortic dissection rupture and the like.

The current blood vessel relieving device has the following problems:

1. most of existing hypertension patients adopt a foot soaking or exercising mode to promote blood circulation and ensure the stability of blood pressure, but the foot soaking time of the hypertension patients is not too long, and the temperature of water temperature is limited to a certain extent, so that the blood circulation effect of the patients is not ideal;

2. the exercise mode is adopted to promote the blood circulation, and the use efficiency is low for some patients who are inconvenient to exercise.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the scheme provides a dual-method type blood vessel relieving device for preventing aortic dissection based on dual-heat type hypertension, aiming at the problem that the blood circulation of a hypertensive is not smooth, creatively combines a segmented structure, a pressure-boosting prevention idea and an ion coverage effect, is applied to the technical field of blood vessel relieving, realizes fumigation treatment of the hypertensive at high temperature through the arranged segmented medium object translation and turnover type relieving mechanism under the condition of interference of various medium substances, and solves the technical problems that the prior art is difficult to solve, namely, the prior art does not need to perform fumigation treatment on the hypertensive (the fumigation treatment can quickly promote the blood circulation of the hypertensive and does not need to perform fumigation treatment on the hypertensive (the hypertensive is subjected to high temperature and has insufficient blood volume and can generate larger fluctuation on the blood pressure);

the invention simultaneously provides a lying and collecting type two-method pollution-reduction anti-cross mechanism, which realizes double dimensionality reduction treatment on waste liquid under the action of two methods (a physical method and a chemical method), and destroys a bacterial structure from the inside of bacteria under the fusion of hedging, so that the treated mist is purified and discharged, and the phenomenon of cross infection is avoided;

the scheme provides a dual-heat type hypertension prevention aorta interlayer based dual-method type blood vessel relieving device which adopts dual-heat evaporation mist to realize treatment of a patient and dimensionality reduction treatment of waste liquid, and completes fumigation treatment on the patient through sectional thinking.

The technical scheme adopted by the scheme is as follows: the double-heat type hypertension prevention aorta interlayer based dual-method blood vessel relieving device comprises a bottom plate, a support frame, a sectional type medium object translation overturning relieving mechanism and a lying and collecting type dual-method pollution reduction type anti-crossing mechanism, wherein the support frame is arranged on the upper wall of one end of the bottom plate, the sectional type medium object translation overturning relieving mechanism is arranged on one end, far away from the bottom plate, of the support frame, the lying and collecting type dual-method pollution reduction type anti-crossing mechanism is arranged on the upper wall of the bottom plate, the sectional type medium object translation overturning relieving mechanism comprises a positioning overturning mechanism, a steam water mist mechanism and a sectional translation mechanism, the positioning overturning mechanism is arranged on one end, far away from the bottom plate, of the support frame, the sectional translation mechanism is arranged on one end, far away from the support frame, of the positioning overturning mechanism, the lying and collecting type dual-method pollution reduction type anti-crossing mechanism comprises a moving lying and collecting mechanism, the movable lying flat mechanism is arranged on the upper wall of the bottom plate, and the two-method pollution reducing mechanism is arranged on the upper wall of the bottom plate on one side, close to the support frame, of the movable lying flat mechanism.

As a further optimization of the scheme, the positioning turnover mechanism comprises connecting plates, folding grooves, folding blocks, a rotary table, a rotary shaft, positioning electromagnets, iron blocks and a frame, wherein the connecting plates are symmetrically arranged on two sides of a support frame, the frame is arranged between the connecting plates, the folding grooves are symmetrically arranged on two sides of the frame, the folding grooves are cavities with one open ends, the folding blocks are slidably arranged in the folding grooves, the rotary shaft is arranged on one side, away from the folding grooves, of the folding blocks, the rotary table is rotatably arranged on the outer side of the rotary shaft, one ends, away from the support frame, of the connecting plates are arranged on the side wall of the rotary table, the positioning electromagnets are symmetrically arranged on one ends, away from a bottom plate, of the support frame, the positioning electromagnets are arranged on one side, close to the frame, of the iron blocks are symmetrically arranged on one side, close to the positioning electromagnets, and the positioning electromagnets are arranged opposite to the iron blocks; the steam water mist mechanism comprises a fumigation box, a partition plate, a fumigation pipe, a connector, a steam telescopic pipe, an anion generator, an air outlet and a first heating rod, the fumigation box is arranged on the support frame in a penetrating way, the partition plate is arranged on the inner wall of the fumigation box, the fumigation pipe is communicated with the upper wall of the fumigation box, the steam telescopic pipe is arranged on the side wall of the frame in a penetrating way, the connector is communicated with one side of the steam telescopic pipe close to the fumigating pipe, one end of the fumigation tube far away from the fumigation box is inserted into the connector, the negative ion generator is arranged on the side wall of the fumigation box below the partition plate, the power end of the negative ion generator is penetrated and arranged on the inner wall of the fumigation box, a plurality of groups of air outlets are arranged on the side wall of the fumigation box below the partition plate, the air outlet is arranged on one side of the fumigation box far away from the negative ion generator, and the first heating rod is arranged on the inner wall of the fumigation box above the partition plate; the segmented translation mechanism comprises translation grooves, sliding blocks, a flow collecting box, fumigation telescopic pipes, springs, vibration reduction plates, fixed electromagnets and movable electromagnets, wherein the translation grooves are symmetrically formed in the inner walls of two sides of the frame, the translation grooves are cavities with one ends open, the sliding blocks are slidably arranged in the translation grooves, the flow collecting box is arranged between the sliding blocks, multiple groups of the fumigation telescopic pipes are communicated and arranged on the bottom wall of the flow collecting box, one ends, away from the fumigation pipes, of the steam telescopic pipes are communicated and arranged on the side walls of the flow collecting box, every two fixed electromagnets are symmetrically arranged on the inner walls of two sides of the frame in a group, every two movable electromagnets are symmetrically arranged on the inner walls of two sides of the fumigation box in a group, every two springs are symmetrically arranged on the inner wall of the frame outside the fixed electromagnets in a group, and the vibration reduction plates are arranged on one side, away from the inner wall of the frame, of the springs; in an initial state, the fumigating pipe is separated from the connector, the frame is in a vertical state, the frame is pulled, the frame is changed from the vertical state to a horizontal state through the rotation of the rotary table around the rotary shaft, the positioning electromagnet and the iron block are oppositely arranged to push the frame, the frame slides along the folding block through the folding groove to drive the iron block to be close to the positioning electromagnet, the positioning electromagnet is electrified to generate magnetism, the positioning electromagnet adsorbs the iron block through magnetic force to fix the frame on a horizontal position, the fumigating pipe is inserted into the connector, the fumigating pipe is communicated with the steam telescopic pipe, the heating rod heats the traditional Chinese medicine liquid in the fumigating box, the traditional Chinese medicine liquid is evaporated after being heated, water mist enters the steam telescopic pipe through the fumigating pipe, the steam telescopic pipe conveys the mist into the fumigating box, the fumigating box shunts the mist, and the shunted mist is sprayed out to fumigate a patient through the fumigating telescopic pipe, fixed electro-magnet circular telegram produces magnetism, the removal electro-magnet of stifling case both sides sets up for different magnetic poles, the stifling case is close to the fixed electro-magnet and the homopolar setting of removal electro-magnet of the flexible pipe one side of steam, fixed electro-magnet passes through the repulsion and promotes the removal of removal electro-magnet, the removal electro-magnet drives the fumigation case and passes through the sliding block and slide along the translation groove, the fixed electro-magnet and the heteropole setting of removal electro-magnet of the flexible pipe one side of steam are kept away from to the fumigation case, fixed electro-magnet passes through magnetic force and adsorbs the removal electro-magnet, the removal electro-magnet drives the fumigation case and passes through the sliding block and slide along the translation groove, the fumigation case drives the flexible pipe of fumigation in the removal and carries out segmentation fumigation to the patient, thereby avoid the whole body of patient to generate heat simultaneously and cause unfavorable influence.

Preferably, the movable lying flat mechanism comprises a lying groove, a movable frame, a bed plate, a flow collecting groove and a through hole, the lying groove is symmetrically arranged on the upper wall of the bottom plate, the lying groove is a cavity with an opening at the upper end, the movable frame is slidably arranged on the bottom wall of the lying groove, the bed plate is arranged on the upper wall of the movable frame, the flow collecting groove is arranged on the upper wall of the bed plate, the flow collecting groove is a cavity with an opening at the upper end, and the through hole is arranged on the bottom wall of the flow collecting groove; the two-method pollution reducing mechanism comprises a degradation barrel, a collection telescopic pipe, a partition plate, a second heating rod, an exhaust pipe, an exhaust valve, an ion pipe and a steam port, wherein the degradation barrel is arranged on the upper wall of a bottom plate, the collection telescopic pipe is communicated with one side, close to a bed plate, of the degradation barrel, one end, far away from the degradation barrel, of the collection telescopic pipe is arranged below an opening, the partition plate is arranged on the inner wall of the degradation barrel, the second heating rod is arranged between the side wall of the partition plate and the inner wall, close to one side, of the degradation barrel, the steam port is arranged on the side wall, above the second heating rod, of the partition plate, the exhaust pipe penetrates through the bottom plate and is communicated with one side, far away from the collection telescopic pipe, of the degradation barrel, the exhaust valve is arranged on the exhaust pipe, the ion pipe is communicated between the side wall of a fumigation box, below a partition plate, and the degradation barrel, and the steam port and the ion pipe are horizontally arranged; the patient lies and lie the flat groove upper wall of lying, the sweat that the patient flowed in fumigation falls into the flat inslot of lying, lie flat groove through the opening with the sweat through collecting flexible pipe transport inside the degradation section of thick bamboo, two pairs of sweat heat sterilization of heating rod, evaporation after the heating of sweat partly heating, the fog that contains the bacterium after the evaporation enters into the degradation section of thick bamboo that the baffle was kept away from two one sides of heating rod through the steam port inside, the ion tube carries degradation section of thick bamboo inside with the fog with the anion and dashes mutually and fuse, the anion is after the bacterium with in the fog combines, thereby can let the bacterium produce the structural change and kill the bacterium, open discharge valve, the fog after the processing passes through the blast pipe and discharges.

Further, the one end that the connector was kept away from to the frame is equipped with screw hole, bolt, fixed block and connecting hole, the screw hole is located the frame and is kept away from one side of connector, the screw hole is located to the bolt, and the bolt is in screw hole threaded connection, the one side that the flexible pipe of steam was kept away from to the collection flow box is located to the fixed block to the connecting hole, when needing to fix the collection flow box and place, the collection flow box passes through the sliding block and slides along the translation groove and drive collection flow box and the laminating of damping plate, rotates the bolt, and the bolt rotates along the screw hole and carries out threaded connection with the connecting hole.

Furthermore, two sides of the bottom plate are symmetrically provided with a group of walking wheels in pairs.

Specifically, the support frame lateral wall is equipped with the controller.

The controller is respectively electrically connected with the positioning electromagnet, the anion generator, the first heating rod, the fixed electromagnet, the first movable electromagnet heating rod and the second heating rod.

The beneficial effect who adopts above-mentioned structure this scheme to gain is as follows: the proposal provides a dual-heating type blood vessel relaxing device for preventing aortic dissection, the automatic segmented fumigation therapy for the patient is realized by the arranged segmented medium substance translation and turnover type relieving mechanism, the method promotes blood circulation of patients through sectional fumigation therapy, ensures that metabolism of the body of the patients is inconvenient to exercise, and various tissues of the body obtain various nutrient substances, moisture, oxygen and the like from blood, the substances are oxidized to generate heat energy to ensure normal function, waste such as carbon dioxide, urea, uric acid and the like generated by metabolism are discharged to blood, are respectively conveyed to respiratory organs and excretory organs and are discharged out of the body so as to keep the physicochemical property inside the tissues relatively constant, meanwhile, the problem of insufficient blood volume caused by fluctuation of blood pressure due to stimulation of high temperature to the body when a hypertensive performs fumigation is avoided;

compared with the prior art, the present hypertension patient adopts the mode of bubble foot or exercise mostly, promote the stability of blood circulation assurance blood pressure, but the time of the bubble foot of hypertension patient should not be of a specified duration, and also there is certain restriction to the temperature of temperature, it is unsatisfactory to lead to patient's blood circulation effect, the mode that adopts the motion to take exercise in addition promotes blood circulation, the availability factor is low to the patient of some motion of being not convenient for, and this scheme adopts sectional type fumigation, can remove fumigation to the patient organism, the effectual harmful part of bringing of fumigation of having avoided.

Drawings

Fig. 1 is a schematic overall structure diagram of a dual-method type blood vessel relaxation device for preventing aortic dissection based on dual-heat type hypertension according to the present scheme;

fig. 2 is a perspective view of the dual-method type blood vessel soothing device for preventing aortic dissection based on dual-heat type hypertension proposed by the present scheme;

fig. 3 is an exploded view of the dual-modality vaso-soothing device for aortic dissection prevention based on hyperthermia;

fig. 4 is a front view of the dual-method vaso-soothing device for aortic dissection prevention based on dual-heat hypertension according to the present scheme;

FIG. 5 is a side view of the dual-modality vaso-soothing device for aortic dissection prevention based on hyperthermia according to the present protocol;

fig. 6 is a top view of the dual-heating type blood vessel soothing device for preventing aortic dissection based on dual-heating type hypertension proposed by the present scheme;

FIG. 7 is a sectional view taken along section A-A of FIG. 6;

fig. 8 is a schematic structural view of a lying-down and collecting type dual-method anti-fouling and anti-crossing mechanism of the dual-heat type hypertension prevention aortic dissection based dual-method blood vessel soothing device provided by the scheme;

fig. 9 is a circuit diagram of the dual-method vaso-soothing device controller for aortic dissection prevention based on dual-heat hypertension according to the present embodiment;

fig. 10 is a circuit diagram of a positioning electromagnet, a fixed electromagnet and a movable electromagnet of the dual-method type blood vessel relaxation device for preventing aortic dissection based on dual-heat type hypertension according to the present scheme;

fig. 11 is a schematic block diagram of the dual-method type blood vessel relaxing device for preventing aortic dissection based on dual-heat type hypertension according to the present scheme.

The device comprises a base plate 1, a bottom plate 2, a support frame 3, a sectional type medium object translation and turnover type relieving mechanism 4, a positioning and turnover mechanism 5, a connecting plate 6, a folding groove 7, a folding block 8, a rotary table 9, a rotary shaft 10, a positioning electromagnet 11, an iron block 12, a steam water mist mechanism 13, a fumigation box 14, a dividing plate 15, a fumigation pipe 16, a connector 17, a steam expansion pipe 18, an anion generator 19, an air outlet 20, a sectional translation mechanism 21, a translation groove 22, a sliding block 23, a collecting box 24, a fumigation expansion pipe 25, a spring 26, a vibration damping plate 27, a fixed electromagnet 28, a movable electromagnet 29, a lying and collecting type two-method pollution reduction type anti-crossing mechanism 30, a movable lying mechanism 31, a flat groove 32, a movable lying frame 33, a bed plate 34, a collecting, 35, a through hole 36, a through hole 35, a through hole 36, a movable lying flat groove, a connecting plate, a connecting, The device comprises a two-method pollution reducing mechanism, 37, a degradation barrel, 38, a collection telescopic pipe, 39, a partition plate, 40, a second heating rod, 41, an exhaust pipe, 42, an exhaust valve, 43, an ion pipe, 44, a steam port, 45, a controller, 46, a frame, 47, a first heating rod, 48, a threaded hole, 49, a bolt, 50, a fixed block, 51, a connecting hole, 52 and a traveling wheel.

The accompanying drawings are included to provide a further understanding of the present solution and are incorporated in and constitute a part of this specification, illustrate embodiments of the solution and together with the description serve to explain the principles of the solution and not to limit the solution.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present disclosure without any creative effort belong to the protection scope of the present disclosure.

In the description of the present solution, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present solution.

As shown in fig. 1-3, the dual-heat type blood vessel relaxation device for preventing aortic dissection based on dual-heat type hypertension provided by the present invention comprises a bottom plate 1, a support frame 2, a sectional type medium translation and inversion type relaxation mechanism 3 and a lying and collecting type dual-method contamination reduction and anti-crossing mechanism 29, wherein the support frame 2 is arranged on the upper wall of one end of the bottom plate 1, the sectional type medium translation and inversion type relaxation mechanism 3 is arranged on one end of the support frame 2 away from the bottom plate 1, the lying and collecting type dual-method contamination reduction and anti-crossing mechanism 29 is arranged on the upper wall of the bottom plate 1, the sectional type medium translation and inversion type relaxation mechanism 3 comprises a positioning and inversion mechanism 4, a steam and water mist mechanism 12 and a sectional translation mechanism 20, the positioning and inversion mechanism 4 is arranged on one end of the support frame 2 away from the bottom plate 1, the steam and water mist mechanism 12 is arranged on the support frame 2, the sectional translation mechanism 20 is arranged on one end of the positioning and inversion 4 away from the support frame 2, the lying and collecting type two-method pollution-reduction anti-crossing mechanism 29 comprises a moving lying mechanism 30 and a two-method pollution-reduction mechanism 36, wherein the moving lying mechanism 30 is arranged on the upper wall of the bottom plate 1, and the two-method pollution-reduction mechanism 36 is arranged on the upper wall of the bottom plate 1 on one side, close to the support frame 2, of the moving lying mechanism 30.

As shown in fig. 1, 2, 3, 5, 6 and 7, the positioning and turning mechanism 4 includes a connecting plate 5, a folding groove 6, a folding block 7, a rotary table 8, a rotating shaft 9, a positioning electromagnet 10, an iron block 11 and a frame 46, the connecting plate 5 is symmetrically disposed on two sides of the supporting frame 2, the frame 46 is disposed between the connecting plates 5, the folding groove 6 is symmetrically disposed on two sides of the frame 46, the folding groove 6 is a cavity with an open end, the folding block 7 is slidably disposed in the folding groove 6, the rotating shaft 9 is disposed on one side of the folding block 7 away from the folding groove 6, the rotary table 8 is rotatably disposed on the outer side of the rotating shaft 9, one end of the connecting plate 5 away from the supporting frame 2 is disposed on the side wall of the rotary table 8, the positioning electromagnet 10 is symmetrically disposed on one end of the supporting frame 2 away from the bottom plate 1, the positioning electromagnet 10 is disposed on one side of the supporting frame 2 close to the frame 46, the iron block 11 is symmetrically disposed on one side of the frame 46 close to the positioning electromagnet 10, the positioning electromagnet 10 is arranged opposite to the iron block 11; the steam water mist mechanism 12 comprises a fumigation box 13, a partition plate 14, a fumigation pipe 15, a connector 16, a steam expansion pipe 17, an anion generator 18, a gas outlet 19 and a heating rod 47, wherein the fumigation box 13 is arranged on the support frame 2 in a penetrating manner, the partition plate 14 is arranged on the inner wall of the fumigation box 13, the fumigation pipe 15 is arranged on the upper wall of the fumigation box 13 in a communicating manner, the steam expansion pipe 17 is arranged on the side wall of the frame 46 in a penetrating manner, the connector 16 is arranged on one side, close to the fumigation pipe 15, of the steam expansion pipe 17 in a communicating manner, one end, far away from the fumigation box 13, of the fumigation pipe 15 is inserted into the connector 16, the anion generator 18 is arranged on the side wall of the fumigation box 13 below the partition plate 14, the power end of the anion generator 18 is arranged on the inner wall of the fumigation box 13 in a penetrating manner, the gas outlet 19 is arranged on the side wall of the fumigation box 13 below the partition plate 14 in a penetrating manner, and the gas outlet 19 is arranged on one side, far away from the anion generator 18, the first heating rod 47 is arranged on the inner wall of the fumigation box 13 above the partition plate 14; the segmented translation mechanism 20 comprises a translation groove 21, a sliding block 22, a collecting box 23, a fumigation telescopic pipe 24, a spring 25, a damping plate 26, a fixed electromagnet 27 and a movable electromagnet 28, the translation grooves 21 are symmetrically arranged on the inner walls of the two sides of the frame 46, the translation grooves 21 are cavities with one ends opened, the sliding block 22 is arranged inside the translation groove 21 in a sliding mode, the collecting box 23 is arranged between the sliding blocks 22, a plurality of groups of fumigation telescopic pipes 24 are communicated with the bottom wall of the collecting box 23, one end of the steam telescopic pipe 17 far away from the fumigation pipe 15 is communicated with the side wall of the collecting box 23, the fixed electromagnets 27 are symmetrically arranged on the inner walls of the two sides of the frame 46 in pairs, the movable electromagnets 28 are symmetrically arranged on the inner walls of the two sides of the fumigation box 13 in pairs, the springs 25 are divided into a group two by two and symmetrically arranged on the inner wall of the frame 46 at the outer side of the fixed electromagnet 27, and the vibration damping plate 26 is arranged on one side of the spring 25 far away from the inner wall of the frame 46; in an initial state, the fumigating pipe 15 is separated from the connecting head 16, the frame 46 is in a vertical state, the frame 46 is pulled, the frame 46 is changed from the vertical state to a horizontal state from the vertical state through the rotation of the rotary table 8 around the rotating shaft 9, the positioning electromagnet 10 is arranged opposite to the iron block 11, the frame 46 is pushed, the frame 46 slides along the folding block 7 through the folding groove 6 to drive the iron block 11 to be close to the positioning electromagnet 10, the positioning electromagnet 10 is electrified to generate magnetism, the positioning electromagnet 10 adsorbs the iron block 11 through magnetic force, the frame 46 is fixed on a horizontal position, the fumigating pipe 15 is inserted into the connecting head 16, the fumigating pipe 15 is conducted with the steam telescopic pipe 17, the heating rod I47 heats the traditional Chinese medicine liquid in the fumigating box 13, the traditional Chinese medicine liquid is heated and evaporated, the water mist enters the steam 17 through the fumigating pipe 15, the steam telescopic pipe 17 conveys the mist into the fumigating box 13, and the fumigating box 13 shunts the mist, the fog after reposition of redundant personnel carries out the fumigation through stifling flexible pipe 24 blowout to the patient, fixed electromagnet 27 circular telegram produces magnetism, movable electromagnet 28 circular telegram produces magnetism, the movable electromagnet 28 of fumigation case 13 both sides is different magnetic pole settings, the fixed electromagnet 27 and the movable electromagnet 28 homopolar setting of fumigation case 13 near flexible pipe 17 one side of steam, fixed electromagnet 27 promotes movable electromagnet 28 through the repulsion and removes, movable electromagnet 28 drives fumigation case 13 and slides along translation groove 21 through sliding block 22, fixed electromagnet 27 and the heteropolar setting of movable electromagnet 28 of fumigation case 13 keeping away from flexible pipe 17 one side of steam, fixed electromagnet 27 adsorbs movable electromagnet 28 through magnetic force, movable electromagnet 28 drives fumigation case 13 and slides along translation groove 21 through sliding block 22, fumigation case 13 drives stifling flexible pipe 24 in the removal and carries out the segmentation fumigation to the patient, thereby avoid whole body of patient to generate heat simultaneously and cause unfavorable influence.

As shown in fig. 2, 4, 5, 6, 7 and 8, the movable lying mechanism 30 includes a lying tank 31, a moving frame 32, a bed plate 33, a collecting tank 34 and a through opening 35, the lying tank 31 is symmetrically disposed on the upper wall of the base plate 1, the lying tank 31 is a cavity with an open upper end, the moving frame 32 is slidably disposed on the bottom wall of the lying tank 31, the bed plate 33 is disposed on the upper wall of the moving frame 32, the collecting tank 34 is disposed on the upper wall of the bed plate 33, the collecting tank 34 is a cavity with an open upper end, and the through opening 35 is disposed on the bottom wall of the collecting tank 34; the two-method pollution reducing mechanism 36 comprises a degradation barrel 37, a collection telescopic pipe 38, a partition plate 39, a heating rod two 40, an exhaust pipe 41, an exhaust valve 42, an ion pipe 43 and a steam port 44, wherein the degradation barrel 37 is arranged on the upper wall of the bottom plate 1, the collection telescopic pipe 38 is communicated with one side of the degradation barrel 37 close to the bed plate 33, one end of the collection telescopic pipe 38 far away from the degradation barrel 37 is arranged below the through hole 35, the partition plate 39 is arranged on the inner wall of the degradation barrel 37, the heating rod two 40 is arranged between the side wall of the partition plate 39 and the inner wall of the degradation barrel 37 close to one side of the collection telescopic pipe 38, the steam port 44 is arranged on the side wall of the partition plate 39 above the heating rod two 40, the exhaust pipe 41 penetrates through the bottom plate 1 and is communicated with one side of the degradation barrel 37 far away from the collection telescopic pipe 38, the exhaust valve 42 is arranged on the exhaust pipe 41, the ion pipe 43 is communicated between the side wall of the fumigation box 13 arranged below the partition plate 14 and the degradation barrel 37, the vapor port 44 and the ion tube 43 are horizontally arranged; the patient lies in the groove 31 upper wall of lying, the sweat that the patient flowed out falls into the groove 31 of lying in fumigation, lie flat groove 31 through opening 35 with sweat through collect flexible pipe 38 transport inside the degradation section of thick bamboo 37, second heating rod 40 heats the sweat and disinfects, evaporation after the sweat partly heats, the evaporation back contains the fog of bacterium and enters into the degradation section of thick bamboo 37 that baffle 39 is kept away from second heating rod 40 one side through steam port 44 inside, the ion tube 43 carries degradation section of thick bamboo 37 inside with the fog with the anion and dashes and fuse mutually, the anion can let the bacterium produce the structural change thereby kill the bacterium after combining with the bacterium in the fog, open discharge valve 42, the fog after the processing is discharged through blast pipe 41.

As shown in fig. 2, 3 and 5, a threaded hole 48, a bolt 49, a fixing block 50 and a connecting hole 51 are formed in one end, away from the connecting head 16, of the frame 46, the threaded hole 48 is formed in one side, away from the connecting head 16, of the frame 46, the bolt 49 is arranged in the threaded hole 48, the bolt 49 is in threaded connection with the threaded hole 48, the fixing block 50 is arranged on one side, away from the steam telescopic pipe 17, of the collecting tank 23, the connecting hole 51 is formed in one side, away from the collecting tank 23, of the fixing block 50, when the collecting tank 23 needs to be fixedly placed, the collecting tank 23 slides along the translation groove 21 through the sliding block 22 to drive the collecting tank 23 to be attached to the vibration damping plate 26, the bolt 49 is rotated, and the bolt 49 rotates along the threaded hole 48 to be in threaded connection with the connecting hole 51.

As shown in fig. 4, two sides of the bottom plate 1 are symmetrically provided with a group of walking wheels 52.

As shown in fig. 2, the side wall of the support frame 2 is provided with a controller 45.

As shown in fig. 9 to 11, the controller 45 is electrically connected to the positioning electromagnet 10, the negative ion generator 18, the fixed electromagnet 27, the moving electromagnet 28, the first heating rod 47, and the second heating rod 40, respectively.

During the specific use, on bottom plate 1 moved the position that the user required through walking wheel 52, under the initial condition, stifling pipe 15 and connector 16 part, collect flexible pipe 38 for shortening the state, and bed board 33 slides along lying flat groove 31 through removing frame 32 and places in stifling case 13 below, and frame 46 is vertical on one side of bed board 33, and bolt 49 is located inside connecting hole 51 and is fixed header 23.

In the first embodiment, the fumigation apparatus is prepared for use by the patient lying on the bed plate 33.

Specifically, the frame 46 is pulled, the frame 46 rotates around the rotating shaft 9 through the turntable 8 and is changed from a vertical state to a horizontal state, the positioning electromagnet 10 is arranged opposite to the iron block 11, the frame 46 is pushed, the frame 46 slides along the folding block 7 through the folding groove 6 to drive the iron block 11 to be close to the positioning electromagnet 10, the controller 45 controls the positioning electromagnet 10 to be electrified, the positioning electromagnet 10 is electrified to generate magnetism, the positioning electromagnet 10 is adsorbed and attached to the iron block 11 through magnetic force, thereby fixing the frame 46 in a horizontal position, inserting the fumigation tube 15 into the connector 16, communicating the fumigation tube 15 with the steam telescopic tube 17, rotating the bolt 49, moving the bolt 49 along the threaded hole 48 to be far away from the connecting hole 51, header 23 is released and fixed, bed plate 33 is slid along lying groove 31 to a position required by a user by moving frame 32, collecting telescopic pipe 38 is pulled, and collecting telescopic pipe 38 is extended to a position below opening 35.

Example two, this example is based on the above example, where the patient is started on fumigation.

Specifically, the controller 45 controls the first heating rod 47 to start, the first heating rod 47 heats the traditional Chinese medicine liquid in the fumigation box 13, the traditional Chinese medicine liquid is evaporated after being heated, the water mist enters the steam telescopic pipe 17 through the fumigation pipe 15, the steam telescopic pipe 17 conveys the mist into the fumigation box 13, the fumigation box 13 divides the mist, the divided mist is sprayed out through the fumigation telescopic pipe 24 to perform fumigation treatment on a patient, the fumigation telescopic pipe 24 is pulled, the distance between the air outlet end of the fumigation telescopic pipe 24 and the patient is adjusted, the controller 45 controls the fixed electromagnet 27 to be electrified, the fixed electromagnet 27 is electrified to generate magnetism, the controller 45 controls the movable electromagnet 28 to be electrified, the movable electromagnets 28 are electrified to generate magnetism, the movable electromagnets 28 on two sides of the fumigation box 13 are arranged with different magnetic poles, the fixed electromagnet 27 on one side of the fumigation box 13, which is close to the steam telescopic pipe 17, and the movable electromagnet 28 are arranged in the same pole, the fixed electromagnet 27 pushes the movable electromagnet 28 to move through repulsion, the movable electromagnet 28 drives the fumigation box 13 to slide along the translation groove 21 through the sliding block 22, the fixed electromagnet 27 and the movable electromagnet 28 on one side of the fumigation box 13, which is far away from the steam telescopic pipe 17, are arranged in different poles, the fixed electromagnet 27 adsorbs the movable electromagnet 28 through magnetic force, the movable electromagnet 28 drives the fumigation box 13 to slide along the translation groove 21 through the sliding block 22, the fumigation box 13 drives the fumigation telescopic pipe 24 to perform segmented fumigation treatment on a patient in movement, so that adverse effects caused by simultaneous heating of the whole body of the patient are avoided, a certain magnetic field generated by the fixed electromagnet 27 and the movable electromagnet 28 when the power is on is performed on the patient, the controller 45 controls the anion generator 18 to be started, the anion generator 18 generates anions to the interior of the fumigation box 13 through a power end, and the anions are discharged through the air outlet 19, the patient can inhale negative ions to improve the expansion degree of blood vessels, relieve arterial vasospasm and achieve the purpose of lowering blood pressure.

Example three, this example is based on the above example, and treats waste liquid generated in the fumigation treatment.

Specifically, a patient lies on the upper wall of the lying groove 31, sweat flowing out of the patient in fumigation falls into the bottom wall of the lying groove 31, the lying groove 31 conveys the sweat to the inside of the degradation cylinder 37 through the collection telescopic pipe 38 through the through hole 35, the controller 45 controls the second heating rod 40 to be started, the second heating rod 40 heats and sterilizes the sweat, a part of the sweat is evaporated after being heated, the evaporated mist containing bacteria enters the degradation cylinder 37 on one side, away from the second heating rod 40, of the partition plate 39 through the steam port 44, the ion pipe 43 shunts negative ions in the fumigation box 13, the negative ions are conveyed to the inside of the degradation cylinder 37 to be flushed and fused with the mist, after the negative ions are combined with the bacteria in the mist, the bacteria can be structurally changed to kill the bacteria, the exhaust valve 42 is opened, and the treated mist is exhausted through the exhaust pipe 41; repeating the above operation when using next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present solution have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the solution, the scope of which is defined in the appended claims and their equivalents.

The present solution and its embodiments have been described above, but the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present solution, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the present disclosure without inventive faculty to devise similar arrangements and embodiments without departing from the spirit and scope of the present disclosure.

Claims

1. Based on two hot type hypertension prevention aorta intermediate layer with two french formula blood vessels device of releiving, its characterized in that: comprises a bottom plate (1), a supporting frame (2), a sectional type medium object translation overturning type relieving mechanism (3) and a lying and collecting type two-method pollution-reducing type anti-crossing mechanism (29), the support frame (2) is arranged on the upper wall of one end of the bottom plate (1), the sectional type medium object translation and turnover type relieving mechanism (3) is arranged at one end of the support frame (2) far away from the bottom plate (1), the lying and collecting type two-method pollution-reducing type anti-crossing mechanism (29) is arranged on the upper wall of the bottom plate (1), the sectional type medium object translation overturning type relieving mechanism (3) comprises a positioning overturning mechanism (4), a steam water mist mechanism (12) and a sectional translation mechanism (20), the positioning turnover mechanism (4) is arranged at one end of the support frame (2) far away from the bottom plate (1), the steam water mist mechanism (12) is arranged on the support frame (2), and the segmented translation mechanism (20) is arranged at one end, far away from the support frame (2), of the positioning turnover mechanism (4).

2. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 1, wherein: the lying and collecting type two-method pollution-reduction type anti-crossing mechanism (29) comprises a movable lying mechanism (30) and a two-method pollution-reduction mechanism (36), wherein the movable lying mechanism (30) is arranged on the upper wall of the bottom plate (1), and the two-method pollution-reduction mechanism (36) is arranged on the upper wall of the bottom plate (1) on one side, close to the support frame (2), of the movable lying mechanism (30).

3. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 2, wherein: the positioning turnover mechanism (4) comprises a connecting plate (5), a folding groove (6), folding blocks (7), a turntable (8), a rotating shaft (9), positioning electromagnets (10), iron blocks (11) and a frame (46), wherein the connecting plate (5) is symmetrically arranged on two sides of the support frame (2), the frame (46) is arranged between the connecting plates (5), the folding groove (6) is symmetrically arranged on two sides of the frame (46), the folding groove (6) is a cavity with an open end, the folding blocks (7) are slidably arranged in the folding groove (6), the rotating shaft (9) is arranged on one side, away from the folding groove (6), of the folding blocks (7), the turntable (8) is rotatably arranged on the outer side of the rotating shaft (9), one end, away from the support frame (2), of the connecting plate (5) is arranged on the side wall of the turntable (8), and the positioning electromagnets (10) are symmetrically arranged on one end, away from the bottom plate (1), of the support frame (2), the positioning electromagnet (10) is arranged on one side, close to the frame (46), of the support frame (2), the iron blocks (11) are symmetrically arranged on one side, close to the positioning electromagnet (10), of the frame (46), and the positioning electromagnet (10) and the iron blocks (11) are arranged oppositely.

4. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 3, wherein: the steam water mist mechanism (12) comprises a fumigation box (13), a partition plate (14), a fumigation pipe (15), a connector (16), a steam telescopic pipe (17), a negative ion generator (18), an air outlet (19) and a first heating rod (47).

5. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 4, wherein: the fumigation box (13) is arranged on the support frame (2) in a penetrating way, the inner wall of the fumigation box (13) is arranged on the partition plate (14), the upper wall of the fumigation box (13) is arranged in a communicated way through the fumigation tube (15), the side wall of the frame (46) is arranged in a penetrating way through the steam expansion tube (17), one side of the steam expansion tube (17) close to the fumigation tube (15) is arranged in a communicated way through the connector (16), one end of the fumigation tube (15) far away from the fumigation box (13) is inserted into the connector (16), the side wall of the fumigation box (13) below the partition plate (14) is arranged on the negative ion generator (18), the power end of the negative ion generator (18) is arranged on the inner wall of the fumigation box (13) in a penetrating way, the side wall of the fumigation box (13) below the partition plate (14) is arranged on a plurality of gas outlets (19), one side of the fumigation box (13) far away from the negative ion generator (18) is arranged on the gas outlets (19), the first heating rod (47) is arranged on the inner wall of the fumigation box (13) above the dividing plate (14).

6. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 5, wherein: the segmented translation mechanism (20) comprises a translation groove (21), a sliding block (22), a collecting box (23), a fumigation telescopic pipe (24), a spring (25), a vibration damping plate (26), a fixed electromagnet (27) and a movable electromagnet (28).

7. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 6, wherein: the translation grooves (21) are symmetrically arranged on the inner walls of the two sides of the frame (46), the translation grooves (21) are cavities with one ends open, the sliding block (22) is arranged in the translation groove (21) in a sliding manner, the collecting box (23) is arranged between the sliding blocks (22), a plurality of groups of fumigation telescopic pipes (24) are communicated with the bottom wall of the collecting box (23), one end of the steam telescopic pipe (17) far away from the fumigation pipe (15) is communicated with the side wall of the collecting box (23), the fixed electromagnets (27) are symmetrically arranged on the inner walls of the two sides of the frame (46) in pairs, the moving electromagnets (28) are symmetrically arranged on the inner walls of the two sides of the fumigation box (13) in pairs, the springs (25) are arranged in pairs on the inner wall of the frame (46) at the outer side of the fixed electromagnet (27), the damping plate (26) is arranged on one side of the spring (25) far away from the inner wall of the frame (46).

8. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 7, wherein: remove flat mechanism of lying (30) including lying flat groove (31), removal frame (32), bed board (33), mass flow groove (34) and opening (35), bottom plate (1) upper wall is located to lie flat groove (31) symmetry, lie flat groove (31) for upper end open-ended cavity, remove frame (32) and slide and locate flat groove (31) diapire of lying, bed board (33) are located and are removed frame (32) upper wall, bed board (33) upper wall is located in mass flow groove (34), mass flow groove (34) are upper end open-ended cavity, mass flow groove (34) diapire is located in opening (35).

9. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 8, wherein: the two-method pollution reducing mechanism (36) comprises a degradation barrel (37), a collection telescopic pipe (38), a partition plate (39), a second heating rod (40), an exhaust pipe (41), an exhaust valve (42), an ion pipe (43) and a steam port (44).

10. The dual-hot type hypertension-prevention aortic dissection based dual-method vasorelaxation device of claim 9, wherein: the upper wall of the bottom plate (1) is arranged on the degradation barrel (37), the collection telescopic pipe (38) is communicated with one side of the degradation barrel (37) close to the bed plate (33), one end of the collection telescopic pipe (38) far away from the degradation barrel (37) is arranged below the through hole (35), the partition plate (39) is arranged on the inner wall of the degradation barrel (37), the second heating rod (40) is arranged between the side wall of the partition plate (39) and the inner wall of the degradation barrel (37) close to one side of the collection telescopic pipe (38), the steam port (44) is arranged on the side wall of the partition plate (39) above the second heating rod (40), the exhaust pipe (41) penetrates through the bottom plate (1) and is communicated with one side of the degradation barrel (37) far away from the collection telescopic pipe (38), the exhaust valve (42) is arranged on the exhaust pipe (41), the ion pipe (43) is communicated with the side wall of the fumigation box (13) below the partition plate (14) and the degradation barrel (37), the steam port (44) and the ion tube (43) are horizontally arranged.