CN114176537A

CN114176537A - A nursing supervisory equipment for cardiovascular and cerebrovascular disease

Info

Publication number: CN114176537A
Application number: CN202111545528.3A
Authority: CN
Inventors: 房晨鹂; 黄刚
Original assignee: No 3 Peoples Hospital of Chengdu
Current assignee: No 3 Peoples Hospital of Chengdu
Priority date: 2021-12-16
Filing date: 2021-12-16
Publication date: 2022-03-15
Anticipated expiration: 2041-12-16
Also published as: CN114176537B

Abstract

The invention provides a nursing monitoring device for cardiovascular and cerebrovascular diseases, which comprises a base (1), an induction component (2) and a magnetic therapy component (3), the base (1) is provided with an installation groove (12), the magnetic therapy component (3) is placed in the installation groove (12), the induction component (2) is placed on the magnetic therapy component (3), the sensing component (2) comprises a cushion layer (21), a body temperature sensor (22), a respiration sensor (23) and a pulse sensor (24), the body temperature sensor (22), the respiration sensor (23) and the pulse sensor (24) are arranged on the cushion layer (21) and are respectively used for detecting the body temperature, the respiration frequency and the pulse frequency of a human body, and the detected body temperature, respiratory frequency and pulse frequency are sent to a control terminal so as to realize monitoring of the human body. The embodiment of the application can conveniently monitor the human body, and greatly improves the working efficiency.

Description

A nursing supervisory equipment for cardiovascular and cerebrovascular disease

Technical Field

The embodiments of the present application belong to the technical field of cardiovascular and cerebrovascular disease care, and in particular, relate to a care monitoring device for cardiovascular and cerebrovascular diseases.

Background

At present, in the elderly population, the number of people suffering from cardiovascular and cerebrovascular diseases is increasing, and patients suffering from cardiovascular and cerebrovascular diseases are easy to contract, spasm and insufficient blood supply in cold winter, and are likely to have embolism conditions, so that physical and mental health of the patients is seriously threatened, and the patients are shocked and die in serious cases.

Some current cardiovascular internal medicine nursing monitoring appearance operation is complicated, when monitoring the patient, and the monitoring process is loaded down with trivial details complicacy, consequently is more troublesome, so urgently need to improve.

Disclosure of Invention

An object of the embodiment of the application is to provide a nursing supervisory equipment for cardiovascular and cerebrovascular disease, when using, through placing magnetotherapy subassembly in the mounting groove, then lie on magnetotherapy subassembly with the human body, can carry out the effect of magnetotherapy to the human body, help the health, through with body temperature sensor, respiratory sensor and pulse sensor set up in on the bed course, can be used for detecting human body temperature, respiratory frequency and pulse frequency respectively to body temperature, respiratory frequency and the pulse frequency that will detect send to control terminal, thereby realize monitoring the human body, facilitate the use has greatly improved work efficiency, thereby solve the problem in the background art.

In order to solve the above technical problem, a technical solution of a nursing monitoring device for cardiovascular and cerebrovascular diseases provided in an embodiment of the present application is as follows:

the embodiment of the application discloses nursing supervisory equipment for cardiovascular and cerebrovascular diseases, including base, response subassembly and magnetotherapy subassembly, be provided with the mounting groove on the base, the magnetotherapy subassembly place in the mounting groove, the response subassembly place in on the magnetotherapy subassembly, just the response subassembly includes bed course, body temperature sensor, respiratory sensor and pulse sensor set up in on the bed course, be used for detecting human body temperature, respiratory frequency and pulse frequency respectively to body temperature, respiratory frequency and pulse frequency that will detect send to control terminal, in order to realize monitoring the human body.

In an embodiment preferred in any one of the above schemes, the magnetotherapy component includes a protective layer, an adsorption layer, a flow guiding layer, a shock absorbing layer, a storage layer and a wall breaking layer, the protective layer wraps the outsides of the adsorption layer, the flow guiding layer, the shock absorbing layer, the storage layer and the wall breaking layer, the wall breaking layer is located at the lower part of the storage layer, the shock absorbing layer is located at the upper part of the storage layer, the flow guiding layer is located at the upper part of the shock absorbing layer, and the adsorption layer is located at the upper part of the flow guiding layer.

In the preferred embodiment in any one of the above schemes, the adsorption layer comprises a non-woven fabric surface layer and a sponge layer, the non-woven fabric surface layer is wrapped outside the sponge layer, the sponge layer is provided with an utricule, the utricule is made of silica gel material, and the utricule is filled with gas.

In an embodiment preferred in any one of the above schemes, the damping layer includes a first spring, a first supporting layer and a first through hole, one side of the flow guiding layer is connected with one end of the first spring, the other end of the first spring is connected with the first supporting layer, and the first supporting layer is provided with the first through hole.

In a preferred embodiment of any of the above solutions, the first spring is provided in plurality and uniformly distributed between the flow guide layer and the first support layer, so as to separate the flow guide layer from the first support layer.

In the preferred embodiment in any one of the above schemes, the storage layer comprises a partition plate, second through holes and health-care balls, one end of the partition plate is connected with the first supporting layer, the other end of the partition plate is connected with the wall breaking layer, the partition plate is provided with a plurality of holes, so that the first supporting layer and the wall breaking layer are divided into a plurality of independent spaces, the health-care balls are arranged in the independent spaces at intervals, and the second through holes are formed in the partition plate.

In an embodiment preferred in any of the above schemes, the wall-breaking layer includes a second supporting layer, a second spring, a protrusion, a bottom plate, and a third through hole, one side of the second supporting layer is connected to one end of the partition plate, the other side of the second supporting layer is connected to one end of the second spring, the other end of the second spring is connected to the bottom plate, the bottom plate is provided with the protrusion, the second supporting layer is provided with a third through hole, and the position of the third through hole corresponds to the position of the protrusion, so that the protrusion can penetrate through the third through hole.

In a preferred embodiment of any of the above aspects, the protrusion is tapered, and the tapered tip faces the health care ball.

In the preferred embodiment in any one of the above schemes, the health care ball is composed of a silica gel shell and a magnetic filler, the magnetic filler is arranged in the silica gel shell, when the convex one end is stabbed into the silica gel shell, the silica gel shell is broken, and the magnetic filler flows out.

In the preferred embodiment of any one of the above schemes, the nursing monitoring equipment further comprises a heating component, the heating component is installed in a plurality of independent spaces divided by the partition plate at intervals, the heating component is not in contact with the health care ball, the heating component comprises a winding layer, a conduit and a heating wire, the winding layer and the heating wire are wound outside the conduit, the winding layer is formed by winding a spinning thread and the heating wire, one end of the conduit is connected with an air pump, and a plurality of vent holes for exhausting air are formed in the conduit and the winding layer.

Compared with the prior art, the nursing monitoring equipment for cardiovascular and cerebrovascular diseases of this application embodiment, when using, through placing magnetotherapy subassembly in the mounting groove, then lie on magnetotherapy subassembly with the human body, can carry out the effect of magnetotherapy to the human body, help the health, through with body temperature sensor, respiratory sensor and pulse sensor set up in on the bed course, can be used for detecting human body temperature, respiratory frequency and pulse frequency respectively to body temperature, respiratory frequency and the pulse frequency that will detect send to control terminal, thereby realize monitoring the human body, facilitate the use, greatly improved work efficiency.

Through inciting somebody to action the inoxidizing coating parcel is in the outside on adsorbed layer, water conservancy diversion layer, buffer layer, storage layer and broken wall layer can play the effect of protection, wherein, the inoxidizing coating can adopt non-woven fabrics material to make, will adsorbed layer, water conservancy diversion layer, buffer layer, storage layer and broken wall layer parcel are in the same place to make the structure firmer, through setting up broken wall layer can puncture some magnetic fillers with the storage layer of its top and flow, thereby play the effect of carrying out the magnetotherapy to the human body, help human healthy, through setting up the buffer layer, can play buffering absorbing effect, make human more comfortable, through setting up water conservancy diversion layer, can let in some magnetic fillers, and finally adsorb on the adsorbed layer, lie when the magnetotherapy on the inoxidizing coating, can play the effect of some.

Through inciting somebody to action the adsorbed layer sets to and comprises non-woven fabrics surface course and sponge layer, just the non-woven fabrics surface course parcel is in the outside on sponge layer, consequently, its volume ratio is soft, can adsorb some magnetic fillers, through setting up the utricule of being made by silica gel material, its ratio is soft to at its inside gas filling, when the human body lies on the upper surface, can make the human body more comfortable.

When in use, the diversion layer can be a frame made of a silica gel material, wherein the frame is provided with a plurality of holes penetrating through the frame, so that the holes can be reserved or passed through some magnetic fillers to enter the adsorption layer, and the first spring can play a role in supporting the diversion layer, so that the diversion layer and the first support layer are separated.

When the medical health-care ball is used, the first support layer and the wall breaking layer are divided into a plurality of independent spaces by the aid of the plurality of partition plates, the health-care balls are arranged in the independent spaces at intervals, the second through holes are formed in the partition plates, so that when gas enters the independent spaces through the second through holes, magnetic fillers in the health-care balls can circulate through the first through holes.

When the device is used, the second supporting layer is made of silica gel, the other side of the second supporting layer is connected with one end of a second spring, the other end of the second spring is connected with the bottom plate, so that the device can play a role in supporting, when the second supporting layer is under external pressure, the second spring deforms, so that the bottom plate is slowly close to the second supporting layer, when the second spring is compressed to the maximum amount, the convex one end of the second spring penetrates through the third through hole and punctures the silica gel shell, so that the magnetic filler in the silica gel shell flows out, when external force is continuously reduced, the second spring is slowly restored to the original state, so that the protrusion is slowly far away from the third through hole, the use is facilitated, and in order to further improve the puncture capacity of the protrusion, the position of the third through hole corresponds to the convex position, the protrusion can penetrate through the third through hole, in the invention, the magnetic filler is strontium-iron oxide, barium-iron oxide, cobalt-iron oxide or neodymium iron boron with the diameter of-mu m, and the strontium-iron oxide, the barium-iron oxide, the cobalt-iron oxide or the neodymium iron boron is magnetized by the magnetizer after being made into a finished product, so that the strontium-iron oxide, the barium-iron oxide, the cobalt-iron oxide or the neodymium iron boron has magnetic capacity.

When in use, the magnetic therapy component below the human body can be heated for further health care of the human body, the heating components are arranged in a plurality of independent spaces divided by the partition board at intervals and are not contacted with the health care balls, when heating is needed, the power supply is switched on, the heating wire starts to heat, so that the heating wire heats and transfers heat to the conduit, the conduit can then heat the gas therein, so that the heated gas enters each of the separate spaces through the second through holes via the plurality of vent holes on the conduit and the wrapping layer, thereby blowing the punctured magnetic filler flowing out and entering the diversion layer through the first through hole, and then the magnetic filler is respectively adsorbed in the diversion layer and the adsorption layer, so that the magnetic filler can be dispersed more uniformly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. Some specific embodiments of the present application will be described in detail hereinafter by way of illustration and not limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or components, and it will be understood by those skilled in the art that the drawings are not necessarily drawn to scale, and wherein:

fig. 1 is a schematic view of a nursing monitoring device for cardiovascular and cerebrovascular diseases according to an embodiment of the present application.

Fig. 2 is a schematic view of a base of a nursing monitoring device for cardiovascular and cerebrovascular diseases according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a magnetic therapy component and a sensing component of the nursing and monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the application.

Fig. 4 is a schematic view of a magnetic therapy component of the nursing monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the application.

Fig. 5 is an enlarged schematic view at a of a nursing monitoring device for cardiovascular and cerebrovascular diseases according to an embodiment of the present application.

Fig. 6 is a schematic view of a heating assembly of a care monitoring device for cardiovascular and cerebrovascular diseases according to an embodiment of the present application.

Reference numerals:

1. a base; 11. a roller; 2. an inductive component; 21. a cushion layer; 22. a body temperature sensor; 23. a respiration sensor; 24. a pulse sensor; 3. a magnetic therapy component; 31. a protective layer; 32. an adsorption layer; 321. a capsule body; 33. a flow guiding layer; 34. a shock-absorbing layer; 341. a first spring; 342. a first support layer; 343. a first through hole; 35. a storage layer; 351. a partition plate; 352. a second through hole; 353. a health care ball; 36. a wall-breaking layer; 361. a second support layer; 362. a second spring; 363. a protrusion; 364. a base plate; 37. a heating assembly; 371. a winding layer; 372. a conduit; 373. a heating wire.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It should be apparent that the described embodiments are merely one example of a component of the present application and not an all component embodiment. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present application, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings, which is solely for the purpose of facilitating the description and simplifying the description, and does not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, is not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The following embodiments of the present application illustrate the solution of the present application in detail by taking a nursing monitoring device for cardiovascular and cerebrovascular diseases as an example, but the scope of the present application is not limited by the embodiments.

Examples

As shown in fig. 1 to 6, the embodiment of the present application provides a nursing monitoring equipment for cardiovascular and cerebrovascular diseases, including base 1, response subassembly 2 and magnetotherapy subassembly 3, be provided with mounting groove 12 on the base 1, magnetotherapy subassembly 3 place in mounting groove 12, response subassembly 2 place in on the magnetotherapy subassembly 3, just response subassembly 2 includes bed course 21, body temperature sensor 22, respiratory sensor 23 and pulse sensor 24 set up in on the bed course 21, be used for detecting human body temperature, respiratory frequency and pulse frequency respectively to the body temperature, respiratory frequency and the pulse frequency that will detect send to control terminal, in order to realize monitoring the human body.

In the nursing monitoring device for cardiovascular and cerebrovascular diseases, when in use, the bottom of the base 1 is connected with the roller 11 and can conveniently slide, the magnetic therapy component 3 is placed in the mounting groove 12, then a human body lies on the magnetic therapy component 3, the magnetic therapy effect on the human body can be performed, the health of the human body is facilitated, the body temperature sensor 22, the breathing sensor 23 and the pulse sensor 24 are arranged on the cushion layer 21 and can be respectively used for detecting the body temperature, the breathing frequency and the pulse frequency of the human body and sending the detected body temperature, breathing frequency and pulse frequency to the control terminal, so that the human body is monitored, the use is convenient, and the working efficiency is greatly improved.

As shown in fig. 1 to 6, the magnetotherapeutic component 3 includes a protective layer 31, an absorbent layer 32, a flow guiding layer 33, a shock absorbing layer 34, a storage layer 35 and a wall breaking layer 36, wherein the protective layer 31 covers the absorbent layer 32, the flow guiding layer 33, the shock absorbing layer 34, the storage layer 35 and the wall breaking layer 36, the wall breaking layer 36 is located at the lower part of the storage layer 35, the shock absorbing layer 34 is located at the upper part of the storage layer 35, the flow guiding layer 33 is located at the upper part of the shock absorbing layer 34, and the absorbent layer 32 is located at the upper part of the flow guiding layer 33.

In the nursing monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the present invention, the protective layer 31 is wrapped outside the adsorption layer 32, the flow guiding layer 33, the shock absorbing layer 34, the storage layer 35 and the wall breaking layer 36 to play a role of protection, wherein the protective layer 31 can be made of non-woven fabric materials, the adsorption layer 32, the flow guiding layer 33, the shock absorbing layer 34, the storage layer 35 and the wall breaking layer 36 are wrapped together to make the structure stronger, the storage layer 35 above the wall breaking layer 36 can be punctured to allow some magnetic fillers to flow out, so as to perform a magnetic therapy function on the human body, thereby helping the health of the human body, the shock absorbing layer 34 can play a role of buffering and shock absorbing to make the human body more comfortable, the flow guiding layer 33 can be filled with some magnetic fillers, and finally the magnetic fillers are adsorbed on the adsorption layer 32, when a human body lies on the protective layer 31, some magnetic therapy effects can be achieved.

As shown in fig. 1 to 6, the adsorption layer 32 is composed of a non-woven fabric surface layer and a sponge layer, the non-woven fabric surface layer is wrapped outside the sponge layer, the sponge layer is provided with a capsule 321, the capsule 321 is made of a silica gel material, and the capsule 321 is filled with gas.

In the nursing monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the present invention, the adsorption layer 32 is formed by a non-woven fabric surface layer and a sponge layer, and the non-woven fabric surface layer is wrapped outside the sponge layer, so that, the volume of the bag is soft, the bag can absorb some magnetic fillers, and by arranging the bag body 321 made of silica gel material, which is relatively soft and filled with gas therein, and makes the human body more comfortable when lying on the upper surface, and when in use, the flow guide layer 33 may be a frame made of a silica gel material, wherein, the frame is provided with a plurality of holes which penetrate through the frame, therefore, some magnetic fillers can be retained or passed through the holes, thereby entering the adsorption layer 32, and the first spring 341 may function to support the flow guide layer 33, thereby achieving separation between the flow guide layer 33 and the first support layer 342.

As shown in fig. 1 to 6, the damping layer 34 includes a first spring 341, a first support layer 342, and a first through hole 343, one side of the flow guide layer 33 is connected to one end of the first spring 341, the other end of the first spring 341 is connected to the first support layer 342, the first support layer 342 is provided with the first through hole 343, and the first spring 341 is provided with a plurality of springs and is uniformly distributed between the flow guide layer 33 and the first support layer 342, so as to separate the flow guide layer 33 and the first support layer 342.

As shown in fig. 1 to 6, the storage layer 35 includes a partition plate 351, a second through hole 352, and a plurality of health balls 353, one end of the partition plate 351 is connected to the first support layer 342, the other end of the partition plate 351 is connected to the rupture layer 36, the partition plate 351 is provided with a plurality of partitions to divide the space between the first support layer 342 and the rupture layer 36 into a plurality of independent spaces, the health balls 353 are provided at intervals in the independent spaces, and the partition plate 351 is provided with the second through hole 352.

In the nursing monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the present invention, when in use, the plurality of partition plates 351 divide the space between the first support layer 342 and the wall rupture layer 36 into a plurality of independent spaces, and the independent spaces are provided with the health care balls 353 at intervals, and the partition plates 351 are provided with the second through holes 352, so that when gas enters the independent spaces through the second through holes 352, the magnetic fillers in the health care balls can flow through the first through holes 343.

As shown in fig. 1 to 6, the rupture layer 36 includes a second supporting layer 361, a second spring 362, a protrusion 363, a bottom plate 364, and a third through hole 365, one side of the second supporting layer 361 is connected to one end of the partition plate 351, the other side of the second supporting layer 361 is connected to one end of the second spring 362, the other end of the second spring 362 is connected to the bottom plate 364, the bottom plate 364 is provided with the protrusion 363, the second supporting layer 361 is provided with a third through hole 365, and the third through hole 365 is located at a position corresponding to the protrusion 363, so that the protrusion 363 can pass through the third through hole 365, the protrusion 363 is tapered, and the taper of the protrusion 363 faces the health care ball 353, the health ball 353 is composed of a silicone shell and a magnetic filler, and the magnetic filler is located inside the silicone shell, when one end of the protrusion 363 faces the silicone shell, the silica gel shell is broken, and the magnetic filler flows out.

In the nursing monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the present invention, when in use, the second supporting layer 361 is made of a silicone material, the other side of the second supporting layer 361 is connected to one end of the second spring 362, and the other end of the second spring 362 is connected to the bottom plate 364, so that the second supporting layer 361 can play a supporting role, when the second supporting layer 361 is subjected to an external pressure, the second spring 362 deforms, so that the bottom plate 364 is gradually close to the second supporting layer 361, when the second spring 362 is compressed to a maximum amount, one end of the protrusion 363 passes through the third through hole 365 and punctures the silicone shell, so that the magnetic filler in the silicone shell flows out, when the external force is continuously reduced, the second spring 362 is slowly restored, so that the protrusion 363 is gradually separated from the third through hole 365, the magnetic filler is strontium iron oxide, barium iron oxide, cobalt iron oxide or neodymium iron boron with the diameter of 0.5-2 mu m, and the strontium iron oxide, the barium iron oxide, the cobalt iron oxide or the neodymium iron boron is magnetized by the magnetizer after being made into a finished product, so that the strontium iron oxide, the barium iron oxide, the cobalt iron oxide or the neodymium iron boron has magnetic capacity.

As shown in fig. 1 to 6, the nursing monitoring device further includes a heating element 37, the heating element 37 is installed in a plurality of independent spaces divided by the partition plate 351 at intervals, and the heating element 37 is not in contact with the health care ball 353, the heating element 37 includes a winding layer 371, a conduit 372 and a heating wire 373, the winding layer 371 and the heating wire 373 are wound outside the conduit 372, the winding layer 371 is formed by winding a spinning thread and the heating wire 373, one end of the conduit 372 is connected to an air pump, and a plurality of vent holes for exhausting air are provided on the conduit 372 and the winding layer 371.

In the nursing monitoring device for cardiovascular and cerebrovascular diseases according to the embodiment of the present invention, when in use, in order to further protect the health of the human body, the magnetic therapy component 3 below the human body can be heated, the heating components 37 are installed in the plurality of independent spaces divided by the partition plate 351 at intervals, the heating components 37 are not in contact with the health care ball 353, when heating is needed, the power is turned on, the heating wires 373 start to heat, the heat is transferred to the conduit 372, then the conduit 372 can heat the gas inside the conduit 372, therefore, the heated gas enters the independent spaces through the conduit 372 and the plurality of vent holes on the winding layer 371, the magnetic filler flowing out after puncturing is blown up and enters the diversion layer 33 through the first vent hole 343, and then adsorbed in the current guiding layer 33 and the adsorption layer, respectively, so that the magnetic filler can be dispersed more uniformly.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments can be modified, or technical features of components or all components thereof can be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A nursing monitoring device for cardiovascular and cerebrovascular diseases is characterized by comprising a base (1), an induction component (2) and a magnetic therapy component (3), the base (1) is provided with an installation groove (12), the magnetic therapy component (3) is placed in the installation groove (12), the induction component (2) is placed on the magnetic therapy component (3), the sensing component (2) comprises a cushion layer (21), a body temperature sensor (22), a respiration sensor (23) and a pulse sensor (24), the body temperature sensor (22), the respiration sensor (23) and the pulse sensor (24) are arranged on the cushion layer (21) and are respectively used for detecting the body temperature, the respiration frequency and the pulse frequency of a human body, and the detected body temperature, respiratory frequency and pulse frequency are sent to a control terminal so as to realize monitoring of the human body.

2. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 1, wherein the magnetic therapy component (3) comprises a protective layer (31), an adsorption layer (32), a flow guide layer (33), a shock absorption layer (34), a storage layer (35) and a wall breaking layer (36), the protective layer (31) is wrapped outside the adsorption layer (32), the flow guide layer (33), the shock absorption layer (34), the storage layer (35) and the wall breaking layer (36), the wall breaking layer (36) is located at the lower part of the storage layer (35), the shock absorption layer (34) is located at the upper part of the storage layer (35), the flow guide layer (33) is located at the upper part of the shock absorption layer (33), and the adsorption layer (32) is located at the upper part of the flow guide layer (33).

3. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 2, wherein the adsorption layer (32) is composed of a non-woven fabric surface layer and a sponge layer, the non-woven fabric surface layer is wrapped outside the sponge layer, the sponge layer is provided with a balloon (321), the balloon (321) is made of silica gel material, and the balloon (321) is filled with gas.

4. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 3, wherein the shock absorbing layer (34) comprises a first spring (341), a first supporting layer (342) and a first through hole (343), one side of the flow guiding layer (33) is connected with one end of the first spring (341), the other end of the first spring (341) is connected with the first supporting layer (342), and the first through hole (343) is arranged on the first supporting layer (342).

5. The care monitoring device for cardio cerebrovascular disease according to claim 4, wherein the first spring (341) is provided in plurality and evenly distributed between the flow guiding layer (33) and the first support layer (342) to achieve a separation between the flow guiding layer (33) and the first support layer (342).

6. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 5, wherein the storage layer (35) comprises a partition plate (351), a second through hole (352) and health care balls (353), one end of the partition plate (351) is connected with the first supporting layer (342), the other end of the partition plate (351) is connected with the broken wall layer (36), the partition plate (351) is provided in plurality to realize the division between the first supporting layer (342) and the broken wall layer (36) into a plurality of independent spaces, the health care balls (353) are arranged in the independent spaces at intervals, and the second through hole (352) is arranged on the partition plate (351).

7. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 6, wherein the rupture layer (36) comprises a second supporting layer (361), a second spring (362), a protrusion (363), a bottom plate (364) and a third through hole (365), one side of the second supporting layer (361) is connected with one end of the separation plate (351), the other side of the second supporting layer (361) is connected with one end of the second spring (362), the other end of the second spring (362) is connected with the bottom plate (364), the bottom plate (364) is provided with the protrusion (363), the second supporting layer (361) is provided with the third through hole (365), and the position of the third through hole (365) corresponds to the position of the protrusion (363), so that the protrusion (363) can penetrate through the third through hole (365).

8. The care monitoring device for cardiovascular and cerebrovascular diseases according to claim 7, characterized in that said protrusion (363) is conical with a cone tip facing said health care ball (353).

9. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 8, characterized in that the health care ball (353) is composed of a silica gel shell and a magnetic filler, and the magnetic filler is disposed inside the silica gel shell, when one end of the protrusion (363) pierces the silica gel shell, the silica gel shell is broken, and the magnetic filler flows out.

10. The nursing monitoring device for cardiovascular and cerebrovascular diseases according to claim 8, further comprising a heating element (37), wherein the heating element (37) is installed at intervals in a plurality of independent spaces divided by the partition plate (351), the heating element (37) comprises a winding layer (371), a conduit (372) and a heating wire (373), the winding layer (371) and the heating wire (373) are wound outside the conduit (372), the winding layer (371) is formed by winding a spinning thread and the heating wire (373), one end of the conduit (372) is connected with an air pump, and a plurality of vent holes for exhausting air are arranged on the conduit (372) and the winding layer (371).