CN112155964A - Portable medical care equipment - Google Patents

Abstract

The invention relates to the field of medical equipment, in particular to portable medical nursing equipment. The novel multifunctional neck massage chair is characterized by comprising a fixing plate, wherein a first component groove is formed in the upper side of the fixing plate, a neck massage component which is rotatably opened/rotatably stored is fixed in the first component groove, a second component groove is further formed in the upper side of the fixing plate, a body massage component which is rotatably opened/rotatably stored is fixed in the second component groove, a plurality of supporting leg contraction grooves are formed in the lower side of the fixing plate, supporting legs which are rotatably opened/rotatably stored are fixed in each supporting leg contraction groove, and a handle is fixedly arranged on one side of the fixing plate.

Description

Portable medical care equipment

Technical Field

The invention relates to the field of medical equipment, in particular to portable medical nursing equipment.

Background

The massage in the medical care stimulates the channels and acupoints of the human body by pressing and kneading the surface of the muscle of the human body through certain manipulations, can stimulate a series of cell stress reactions of the human body when the muscle is damaged, finally relieves the pain of the body, achieves the aim of health care and disease treatment, and has a plurality of types and products of medical care equipment at present, wherein the common medical care equipment is equipment for massaging the neck or the arms/the legs of the body, and the equipment is basically large-scale equipment which cannot be carried and moved, even the equipment which can be carried and moved can only carry out friction massage generally and has poor effect, and a plurality of places which need improvement and innovation are also available.

Disclosure of Invention

In order to solve the technical problem, the invention provides a portable medical care device.

The technical scheme adopted by the invention for solving the technical problems is as follows:

portable medical care equipment, which comprises a fixing plate, the fixed plate upside set up first subassembly groove, first subassembly inslot fixed rotatable open/rotatable neck massage assembly who accomodate, the fixed plate upside still set up the second subassembly groove, the fixed rotatable body massage assembly who accomodates of opening/rotatable of second subassembly inslot, the fixed plate downside set up a plurality of landing leg shrink grooves, each landing leg shrink inslot all fixed rotatable open/rotatable landing leg of accomodating, fixed plate one side fixed set up the handle.

Further, the neck massage assembly comprises a body of the neck massage assembly, the body of the neck massage assembly is rotatably fixed on the inner bottom surface of the first assembly groove through a rotating base, and a slope surface is arranged on one side, away from the center of the fixed plate, of the first assembly groove, so that the neck massage assembly can be obliquely fixed when rotating towards one side, away from the center of the fixed plate;

the inclined angle of the slope surface is complementary with the most suitable inclined angle for massaging the neck of the human body.

Further, the landing leg top connect the rotating base to the landing leg top is passed through the rotating base and is connected with landing leg shrink inslot top surface, the landing leg on still overlap and establish the convex one-way bulge loop in one side, one-way bulge loop top establish through the cover and be connected with landing leg shrink inslot top surface at landing leg top, correspondingly, landing leg shrink inslot top surface upwards offers with the anastomotic draw-in groove of one-way bulge loop bulge, in order to realize when the landing leg is accomodate the single direction bulge loop lock, the rotation at its top is restricted by the single direction bulge loop when the landing leg is opened.

Further, one-way bulge loop include the bulge loop shell, bulge loop shell one end is the loop configuration for the other one end of bellying, and the loop configuration sets up the spring annular, spring annular lower part set up the ringlet that is used for passing the landing leg, ringlet and spring annular transition edge upside fixed spring, the internal diameter of spring annular be greater than the external diameter of spring, the external diameter of spring be greater than the internal diameter of ringlet.

Further, the landing leg includes the landing leg pipe fitting, and the landing leg pipe fitting includes first landing leg pipe, cover and establish inside first landing leg pipe and slidable second landing leg pipe, cover and establish the inside and slidable third landing leg pipe at second landing leg pipe, the bottom inside pipe wall of first landing leg pipe and second landing leg pipe all set up the snap ring, the outer peripheral diameter of the top portion of second landing leg pipe and third landing leg pipe all be greater than its outer peripheral diameter at non-top portion so that form the bulge loop between the top and the non-top of second landing leg pipe and third landing leg pipe, the snap ring be used for restricting the bulge loop position and move down.

Furthermore, a plurality of strip-shaped clamping seams are formed in the side surfaces of the first/second/third leg pipes, a clamping needle can be rotatably fixed on the side surface of the first leg pipe through a micro rotating seat, and the clamping needle can rotate into the clamping seams of the first/second/third leg pipes to lock and clamp the relative sliding of the first/second/third leg pipes.

Furthermore, the cross sections of the first leg tube/the second leg tube/the third leg tube are oval, the side surface of the circle center end of the first leg tube can rotatably fix the clamping needle through the micro rotating seat, the clamping needle can rotate to the clamping seam of the first leg tube/the second leg tube to lock and clamp the relative sliding of the first leg tube/the second leg tube, the side surface of the circle center end of the second leg tube can rotatably fix the clamping needle through the micro rotating seat, and the clamping needle can rotate to the clamping seam of the second leg tube/the third leg tube to lock and clamp the relative sliding of the second leg tube/the third leg tube.

Further, the body massage subassembly include the U-shaped bearing, U-shaped bearing middle part inslot set up a plurality of protective layers, the part protective layer in be fixed with blood flow sensor, the part protective layer in be fixed with pulse sensor, the part protective layer in be fixed with the swiveling wheel of connecting motor massage subassembly, motor massage subassembly include the massage motor through output shaft connecting swiveling wheel, the massage motor fix inside the U-shaped bearing shell, the U-shaped bearing in the middle lower part set up the base, the fixed pull ring that sets up in U-shaped bearing both sides, the inside cavity of base set up and the fixed circuit board in the upper portion of base, the lower part sets up a driving motor and the carousel of being connected with driving motor's axle in the base, the carousel on the fixed pulley in base inner wall both sides, fixed pulley set up the rope hole on one side, the pull ring pass the rope hole and wind fixed pulley back and be connected with the carousel through, a return spring is fixed between the U-shaped bearing bottom shell and the base top shell, so that: when the driving motor drives the turntable to rotate forwards, the two sides of the U-shaped support can be pulled to bend outwards through the transmission of the pull rope so as to enlarge the U-shaped opening, and when the driving motor drives the turntable to rotate reversely from the maximum forward rotation angle to the initial angle, the U-shaped opening is restored through the spring of the restoring spring; a leather layer is arranged on the outer side of the protective layer, and an elastic shell is arranged between the outer side of the U-shaped bearing and the outer side of the base; the middle part of the pull rope is provided with a rotary connecting piece, the rotary connecting piece comprises a first rotary piece and a second rotary piece which is rotatably clamped with the first rotary piece, and the outer ends of the first rotary piece and the second rotary piece are both provided with a rope buckle for connecting the pull rope.

Furthermore, the circuit board is provided with a control circuit, an analog-to-digital conversion circuit and a motor driving circuit, the blood flow sensor and the pulse sensor are electrically connected with the control circuit through the analog-to-digital conversion circuit, the driving motor and the massage motor are electrically connected with the control circuit through the motor driving circuit, and the control circuit specifically adopts a single chip microcomputer.

Furthermore, the circuit board is also provided with a communication circuit, the control circuit is electrically connected with an upper computer through the communication circuit, and the upper computer comprises a data acquisition module, a blood flow data analysis module, a pulse data analysis module, a comprehensive data analysis module, a data dynamic modeling module, a data analysis feedback adjustment module and a data analysis display interface module which are connected; the data dynamic modeling module is used for acquiring originally recorded case data from the outside, simulating blood flow volume data, blood flow velocity change rate data, blood flow velocity change integral quantity data, pulse frequency change data, and second derivative data of a function formed by pulse frequency change and a time coordinate of each single case from the originally recorded case data as source characteristic data, and extracting symptom expression data of the corresponding case, wherein the symptom expression data comprises the type of vascular diseases and the symptom severity of the vascular diseases; establishing a mapping relation between the case source representation data and the disease manifestation data of the case, so that the disease manifestation data can be correspondingly found through the source representation data;

the data acquisition module is used for acquiring blood flow data and pulse data corresponding to sensing signals of the blood flow sensor and the pulse sensor; the blood flow data analysis module is used for separating blood flow volume data, blood flow velocity change rate data and blood flow velocity change integral data through the blood flow data;

the pulse data analysis module is used for separating pulse frequency data, pulse frequency change data, and second derivative data of a function formed by pulse frequency change and a time coordinate from the pulse data;

the comprehensive data analysis module is used for acquiring blood flow volume data, blood flow velocity change rate data and blood flow velocity change integral quantity data of the blood flow data analysis module and second derivative data of a function formed by pulse frequency data, pulse frequency change and a time coordinate of the pulse data analysis module, then calling the data dynamic modeling module and correspondingly searching the disease manifestation data;

a data analysis feedback adjustment module for generating control data for the driving motor 613/massage motor 632 according to the disease manifestation data;

and the data analysis display interface module is used for generating display data according to the disease manifestation data.

The invention has the beneficial effects that:

the utility model provides a neck massage subassembly/body massage subassembly is used for the massage nursing to human neck/body, can be rotatory opening in corresponding first subassembly groove/second subassembly groove with neck massage subassembly/body massage subassembly when needs use, then accomodate first subassembly groove/second subassembly groove with neck massage subassembly/body massage subassembly when not using, can also follow landing leg shrink groove with the landing leg and rotatory opening or accomodate, the landing leg then can provide the supporting role to the fixed plate and can increase the height of placing of fixed plate after rotatory opening in the landing leg shrink groove. The storage function of the neck massage assembly/body massage assembly and the storage function of the supporting legs enable the portable multifunctional neck massage device to be convenient to carry and place; in specific details, the angle of inclination of the human body is suitable in the massage process, so that the comfort is increased, and the massage nursing effect is improved; in specific details, the structure of the one-way convex ring and the clamping groove can achieve a good fixing effect after the supporting leg is stored and can also achieve a good fixing effect after the supporting leg is opened; in more specific details, in the process that the unidirectional convex ring moves upwards along the supporting leg by means of the elasticity of the spring, the spring can be completely contained in the spring ring groove, and the sliding of the small ring and the relative position between the small ring and the supporting leg cannot be influenced, so that the gap between the top of the unidirectional convex ring and the inner wall of the supporting leg contraction groove can be reduced, the supporting leg can be more stably fixed by the unidirectional convex ring, the length of the supporting leg is convenient to adjust in specific details, and particularly, the body massage component is used for adjusting the postures of massage nursing when different heights are used for massaging arms, thighs and calves of a human body; in specific details, the height of the supporting leg can be fixed through the matching of the clamping seam design of the first supporting leg tube/the second supporting leg tube/the third supporting leg tube and the adjustable micro rotating seat, in more specific details, the sections of the first supporting leg tube/the second supporting leg tube/the third supporting leg tube are all in an oval design, and a spacing space can be increased on a certain circle center end shaft between the first supporting leg tube/the second supporting leg tube/the third supporting leg tube, so that the space is increased for the installation of the micro rotating seat (particularly on the second supporting leg tube), the installation and the production are convenient, the use is also convenient, in addition, the two designed micro rotating seats can realize the relative sliding adjustment independence of the first supporting leg tube and the second supporting leg tube and the relative sliding adjustment of the second supporting leg tube and the third supporting leg tube, and the flexibility of height adjustment is increased; in the specific details, the motor massage component is used for massaging and nursing the neck, the structure of the corresponding neck massage component can massage and nurse the arms, the thighs, the calves and the like of the human body, the blood flow and the pulse data of the blood vessels of the neck, the arms, the thighs and the calves of the human body can be acquired by the corresponding configuration of the blood flow sensor/pulse sensor or the neck massage component, and in the massage process of the corresponding structure of the body massage component/neck massage component, the massage and nursing of the neck, the arms, the thighs and the calves of the human body from deep to shallow can be realized by the dynamic change of the U-shaped opening, and the channels and the acupoints of. In addition, the user of the application can regularly obtain own physical condition data from the configured upper computer and provide data support for discovering cardiovascular diseases in advance.

Description of the drawings:

FIG. 1 is a schematic view of the overall structure of an embodiment of the present application and particularly a state diagram of the components when they are opened;

FIG. 2 is a schematic view of the overall structure of the embodiment of the present application, and is a state diagram of the components when being stored;

FIG. 3 is a schematic overall structural view of an embodiment of the present application and in particular a top view of FIG. 1;

FIG. 4 is a schematic view of a portion of the structure of an embodiment of the present application and in particular a view of a neck massage assembly component;

FIG. 5 is a partial schematic structural view of an embodiment of the present application and particularly a leg member view;

FIG. 6 is a schematic view of a portion of the structure of an embodiment of the present application and in particular a cross-sectional view of a male ring housing member;

FIG. 7 is a schematic diagram of a portion of the structure of an embodiment of the present application and in particular a top view of FIG. 6;

FIG. 8 is a partial structural schematic view of an embodiment of the present application and in particular a cross-sectional view of a leg member;

FIG. 9 is a partial schematic structural view of an embodiment of the present application and particularly a detail view of a leg member;

FIG. 10 is a schematic view of a portion of the structure of an embodiment of the present application and in particular a cross-sectional view of a leg member;

FIG. 11 is a schematic view of a portion of an embodiment of the present application and in particular a cross-sectional view of the leg of FIG. 10;

FIG. 12 is a schematic diagram of a portion of an embodiment of the present application and is particularly a further state diagram of FIG. 11;

FIG. 13 is a schematic diagram of a portion of an embodiment of the present application and in particular a cross-sectional view of an alternative implementation of the leg of FIG. 10;

FIG. 14 is a schematic diagram of a portion of an embodiment of the present application and in particular of an embodiment of a body massaging assembly;

FIG. 15 is a schematic, partial, structural view of an embodiment of a rotational coupling in a body massaging assembly according to an embodiment of the present application;

FIG. 16 is a block diagram of the electrical connections within the body massage assembly according to an embodiment of the present application;

fig. 17 is a data structure presentation diagram in the upper computer data processing according to the embodiment of the present application;

in the figure, a plate 1 is fixed; a circuit control board 2; a first component groove 3; a second assembly groove 4; a neck massage assembly 5; a body massage unit 6; a handle 7; a leg contraction groove 8; a support leg 9; a rotating base 51; a ramp surface 52; a leg tube 90; a one-way convex ring 91; a card slot 92; a U-shaped support 61; a resilient shell 62; a motor massage assembly 63; a pull ring 64; a leather layer 65; a pull cord 66; a circuit board 67; a blood flow sensor 68; a pulse sensor 69; a snap ring 900; a first leg tube 901; a second leg tube 902; a third leg tube 903; a small ring 910; a convex ring housing 911; a spring ring groove 912; a spring 913; a micro rotary mount 931; a latch 932; a snap slot 933; a rotating connector 610; a restoring spring 611; a fixed pulley 612; a drive motor 613; a cord hole 614; a turntable 615; a base 616; a protective layer 631; a massage motor 632; a first rotating member 6101; a second rotating member 6102; a rope buckle 6103.

Detailed Description

In specific implementation, as shown in fig. 1-3, an embodiment of the present application includes a fixing plate 1, a first component groove 3 is formed in an upper side of the fixing plate 1, a neck massage component 5 that can be rotatably opened/rotatably received is fixed in the first component groove 3, a second component groove 4 is further formed in an upper side of the fixing plate 1, a body massage component 6 that can be rotatably opened/rotatably received is fixed in the second component groove 4, a plurality of leg retraction grooves 8 are formed in a lower side of the fixing plate 1, a leg 9 that can be rotatably opened/rotatably received is fixed in each leg retraction groove 8, and a handle 7 is fixedly disposed on one side of the fixing plate 1; in the specific implementation, the neck massage component 5/body massage component 6 is used for massaging and caring the neck/body of a human body, when in use, the neck massage component 5/body massage component 6 can be rotated and opened from the corresponding first component groove 3/second component groove 4, when not in use, the neck massage component 5/body massage component 6 is received in the first component groove 3/second component groove 4, in the implementation, a push plate structure can be arranged at the side edge of the first component groove 3/second component groove 4, when the neck massage component 5/body massage component 6 is received in the first component groove 3/second component groove 4, the neck massage component 5/body massage component can be fixed by sliding the push plate, in addition, the support legs 9 can be rotated and opened from the leg contraction grooves 8, when the support legs 9 are rotated and opened from the leg contraction grooves 8, the support effect on the fixing plate 1 can be provided, and the support effect can be increased The placement height of the fixed plate 1. The storage function of the neck massage assembly 5/body massage assembly 6 and the storage function of the legs 9 are both convenient for carrying and placing the present application, but the neck massage assembly 5/body massage assembly 6/legs 9 in the specific implementation can be configured with more inventive functions.

As shown in fig. 4, more specifically, the neck massage assembly 5 includes a body of the neck massage assembly 5, the body of the neck massage assembly 5 is rotatably fixed on the inner bottom surface of the first assembly groove 3 through a rotating base 51, and a slope surface 52 is provided on a side of the first assembly groove 3 away from the center of the fixed plate 1, so that the neck massage assembly 5 can be obliquely fixed when rotating to the side away from the center of the fixed plate 1; in the implementation, the neck massage component 5 is mainly used for massaging and nursing the neck of the human body, generally, the neck massage component 5 needs to incline the neck backwards from one side of the human body, after the neck massage component 5 rotates towards one side far away from the center of the fixing plate 1 and can be fixed in an inclined mode, the inclined angle of the slope surface 52 is complementary with the optimum inclined angle of the neck massage, so that the inclined angle of the human body in the massage process can be suitable, the comfortable sensation is increased, the massage nursing effect is improved, and the optimum inclined angle of the neck massage in the practice can be obtained through statistics.

As shown in fig. 5 and fig. 4, more specifically, the top of the leg 9 is connected to a rotating base 51, and the top of the leg 9 is connected to the top surface of the leg contracting groove 8 through the rotating base 51, the leg 9 is further sleeved with a one-way convex ring 91 with a convex side, the top of the one-way convex ring 91 is connected to the top surface of the leg contracting groove 8 through a spring 913 sleeved on the top of the leg 9, and correspondingly, the top surface of the leg contracting groove 8 is provided with a slot 92 upwards to match with the convex part of the one-way convex ring 91, so that the leg 9 is buckled by the one-way convex ring 91 when being stored, and the rotation of the top of the leg 9 is limited by the one-way convex ring 91 when being opened; in implementation, the smart structure of the unidirectional convex ring 91 and the locking groove 92 designed by the present application can be realized, when the leg 9 is stored, some springs 913 can be pulled downwards to change the position of the unidirectional convex ring 91, and then the protruding portion of the unidirectional convex ring 91 is locked inside the locking groove 92, so that the pressure between the protruding portion of the unidirectional convex ring 91 and the inner wall of the locking groove 92 can increase the friction force for the downward movement of the leg 9, thereby limiting the downward movement (rotation) of the leg 9, when the leg 9 needs to be opened, some springs 913 can be pulled downwards to change the position of the unidirectional convex ring 91, and then the protruding portion of the unidirectional convex ring 91 is taken out from the locking groove 92, the size inside of the locking groove 92 in implementation should be slightly larger than the size outside of the unidirectional convex ring 91, then after the unidirectional convex ring 91 is released, the unidirectional convex ring 91 can move upwards depending on the elasticity of the springs 913, generally until the unidirectional convex ring, in this way, the rotation of the leg 9 is also restricted by the one-way convex ring 91, thereby fixing the leg 9. Therefore, the structure of the one-way convex ring 91 and the clamping groove 92 designed by the application can realize the good fixing effect obtained after the landing leg 9 is stored and also can realize the good fixing effect obtained after the landing leg 9 is opened

As shown in fig. 6 and 7, more specifically, the one-way protruding ring 91 includes a protruding ring housing 911, one end of the protruding ring housing 911 is a protruding portion, and the other end is an annular structure, the annular structure is provided with a spring ring groove 912, a small ring 910 for passing through the leg 9 is provided at the lower part of the spring ring groove 912, a spring 913 is fixed at the upper side of the transition edge between the small ring 910 and the spring ring groove 912, the inner diameter of the spring ring groove 912 is greater than the outer diameter of the spring, and the outer diameter of the spring 913 is greater than the inner diameter of the small ring 910; the ingenious design structure of this application, in further implementation, at one-way bulge loop 91 and rely on the elasticity of spring 913 to move up the in-process along landing leg 9, spring 913 then can all be accomodate in spring ring groove 912 to can not influence the slip of relative position between ringlet 910 and the landing leg 9, can reduce the clearance between one-way bulge loop 91 top and the landing leg shrink groove 8 inner wall like this, make one-way bulge loop 91 more stable to landing leg 9's fixed.

As shown in fig. 8 and 9, more specifically, the leg 9 includes a leg tube 90, where the leg tube 90 includes a first leg tube 901, a second leg tube 902 slidably fitted inside the first leg tube 901, and a third leg tube 903 slidably fitted inside the second leg tube 902, where the inner walls of the bottom end tubes of the first leg tube 901 and the second leg tube 902 are each provided with a snap ring 900, the outer diameters of the second leg tube 902 and the third leg tube 903 are each larger than the outer diameter of the non-top end portion thereof so as to form a raised ring between the top end and the non-top end of the second leg tube 902 and the third leg tube 903, and the snap ring 900 is used for limiting the position of the raised ring to move downwards; in specific implementation, the length of the leg 9 can be increased by adjusting the second leg tube 902 to slide downwards along the first leg tube 901, or adjusting the third leg tube 903 to slide downwards along the second leg tube 902, so that the length of the leg 9 in implementation is convenient to adjust, especially the body massage assembly 6 of the present application is used for facilitating posture adjustment of massage care when being used for massaging arms/thighs/calves of a human body at different heights, and the nursing posture is also required to be adjusted for obtaining the optimal nursing effect in implementation.

As shown in fig. 10 and 11, and referring to fig. 12, more specifically, a plurality of strip-shaped clamping slots 933 are formed in the side surfaces of the first leg tube 901/the second leg tube 902/the third leg tube 903, a clamping pin 932 is rotatably fixed to the side surface of the first leg tube 901 through a micro rotating seat 931, and the clamping pin 932 can rotate to the clamping slots 933 of the first leg tube 901/the second leg tube 902/the third leg tube 903 to lock the first leg tube 901/the second leg tube 902/the third leg tube 903 in a relative sliding manner; in the implementation, after the height of the leg 9 is adjusted, the height of the leg 9 needs to be fixed, in the implementation, one end of the micro-rotating seat 931 is adjusted to rotate around the micro-rotating seat 931, and the snap pin 932 is placed in the snap gap 933 of the first leg tube 901/the second leg tube 902/the third leg tube 903 after the height adjustment, so that the relative sliding between the first leg tube 901 and the second leg tube 902 or the relative sliding between the second leg tube 902 and the third leg tube 903 is limited, and the height of the leg 9 is fixed.

As shown in fig. 13, more specifically, the cross sections of the first leg tube 901/the second leg tube 902/the third leg tube 903 are all oval, the side surface of the center end of the first leg tube 901 can rotatably fix the clamping needle 932 through the micro rotating seat 931, the clamping needle 932 can rotate into the clamping slot 933 of the first leg tube 901/the second leg tube 902 to lock the relative sliding of the first leg tube 901/the second leg tube 902, the side surface of the center end of the second leg tube 902 can rotatably fix the clamping needle 932 through the micro rotating seat 931, the clamping needle 932 can rotate to the clamping slot 933 of the second leg tube 902/the third leg tube 903 to lock the relative sliding of the second leg tube 902/the third leg tube 903, and the cross sections of the first leg tube 901/the second leg tube 902/the third leg tube 903 in the implementation can be all oval, and the cross sections of the first leg tube 901/the second leg tube 902/the third leg tube 903 can be designed to be oval, and the cross sections of the first leg tube 901/the second leg tube 902/the third leg tube 903 can be oval The spindle is provided with a space to increase the installation space of the micro rotary seat 931 (especially on the second leg pipe 902), so that the installation and the production are convenient, and the use is also convenient.

As shown in fig. 14 and fig. 15, in the implementation, the neck massage component 5 and the body massage component 6 have the same structure and only have different structure sizes, the body massage component 6 includes a U-shaped support 61, a plurality of protective layers 631 are disposed in a central groove of the U-shaped support 61, a blood flow sensor 68 is fixed in a part of the protective layers 631, a pulse sensor 69 is fixed in a part of the protective layers 631, a rotation wheel connected to the motor massage component 63 is fixed in a part of the protective layers 631, the motor massage component 63 includes a massage motor 632 connected to the rotation wheel through an output shaft, the massage motor 632 is fixed in the U-shaped support 61, a base 616 is disposed at a lower middle portion of the U-shaped support 61, pull rings 64 are fixedly disposed at two sides of the U-shaped support 61, a circuit board 67 is disposed in a cavity inside the base 616, a driving motor 613 and a rotating disc 615 connected with the shaft of the driving motor 613 are arranged at the lower part in the base 616, fixed pulleys 612 are fixed on both sides of the inner wall of the base 616 on the rotating disc 615, a rope hole 614 is arranged beside the fixed pulleys 612, the pull ring 64 passes through the rope hole 614 through a pull rope 66 and is connected with the rotating disc 615 after winding the fixed pulleys 612, and a restoring spring 611 is fixed between the bottom shell of the U-shaped support 61 and the top shell of the base 616, so that: when the driving motor 613 drives the rotary disc 615 to rotate forwards, the two sides of the U-shaped support 61 can be pulled to bend outwards through the transmission of the pull rope 66 so as to enlarge the U-shaped opening, and when the driving motor 613 drives the rotary disc 615 to rotate reversely from the maximum angle of the forward rotation to the initial angle, the U-shaped opening is restored through the spring of the restoring spring 611; a leather layer 65 is arranged on the outer side of the protective layer 631, and an elastic shell 62 is arranged between the outer side of the U-shaped support 61 and the outer side of the base 616; a rotary connecting piece 610 is arranged in the middle of the pulling rope 66, the rotary connecting piece 610 comprises a first rotary piece 6101 and a second rotary piece 6102 rotatably clamped with the first rotary piece 6101, and both outer ends of the first rotary piece 6101 and the second rotary piece 6102 are provided with a rope buckle 6103 for connecting the pulling rope 66; in the implementation, the motor massage component 63 is used for massaging and nursing the neck, the corresponding structure of the neck massage component 5 can massage and nurse the arms, thighs, and calves of the human body, the blood flow sensor 68/pulse sensor 69 or the corresponding configuration on the neck massage component 5 can acquire the blood flow and pulse data of the blood vessels of the neck, arms, thighs, and calves of the human body, the massage motor 632 and the blood flow sensor 68/pulse sensor 69 of the motor massage component 63 are both electrically connected with the circuit board 67, and the massage motor 632 is controlled by the circuit board 67, in addition, in the implementation, the circuit board 67 is also electrically connected with the driving motor 613 and controls the driving motor 613 to periodically rotate, the material of the U-shaped support 61 is selected from an elastic material, when the driving motor 613 drives the rotating disc 615 to rotate in the forward direction, the two sides of the U-shaped support 61 can be pulled to bend outwards through the transmission of the pull rope, when the driving motor 613 drives the turntable 615 to reversely rotate from the maximum forward rotation angle to the initial angle, the U-shaped opening is restored through the spring of the restoring spring 611, in the above process, the dynamic change of the U-shaped opening of the U-shaped support 61 can realize massage nursing on the neck of the human body from deep to shallow, so that the nursing effect is good, the acupuncture points of the human body can be really stimulated, and the massage nursing is not realized in the prior art.

As shown in fig. 16, the circuit board 67 is provided with a control circuit, an analog-to-digital conversion circuit and a motor driving circuit, the blood flow sensor 68 and the pulse sensor 69 are electrically connected to the control circuit through the analog-to-digital conversion circuit, the driving motor 613 and the massage motor 632 are electrically connected to the control circuit through the motor driving circuit, and the control circuit is specifically a single chip microcomputer; the control circuit obtains blood flow and pulse signals through the blood flow sensor 68/pulse sensor 69, and controls the rotation of the driving motor 613/massage motor 632 through the motor driving circuit, such as the cycle time, cycle frequency, rotation speed, etc.

The circuit board 67 is also provided with a communication circuit, the control circuit is electrically connected with an upper computer through the communication circuit, and the upper computer comprises a data acquisition module, a blood flow data analysis module, a pulse data analysis module, a comprehensive data analysis module, a data dynamic modeling module, a data analysis feedback adjustment module and a data analysis display interface module which are connected;

the data dynamic modeling module is used for acquiring originally recorded case data from the outside, simulating blood flow volume data, blood flow velocity change rate data, blood flow velocity change integral quantity data, pulse frequency change data, and second derivative data of a function formed by pulse frequency change and a time coordinate of each single case from the originally recorded case data as source characteristic data, and extracting symptom expression data of the corresponding case, wherein the symptom expression data comprises the type of vascular diseases and the symptom severity of the vascular diseases; establishing a mapping relation between the case source representation data and the disease manifestation data of the case, so that the disease manifestation data can be correspondingly found through the source representation data;

the data acquisition module is used for acquiring blood flow data and pulse data corresponding to sensing signals of the blood flow sensor and the pulse sensor;

the blood flow data analysis module is used for separating blood flow volume data, blood flow velocity change rate data and blood flow velocity change integral data through the blood flow data;

the pulse data analysis module is used for separating pulse frequency data, pulse frequency change data, and second derivative data of a function formed by pulse frequency change and a time coordinate from the pulse data;

the comprehensive data analysis module is used for acquiring blood flow volume data, blood flow velocity change rate data and blood flow velocity change integral quantity data of the blood flow data analysis module and second derivative data of a function formed by pulse frequency data, pulse frequency change and a time coordinate of the pulse data analysis module, then calling the data dynamic modeling module and correspondingly searching the disease manifestation data;

a data analysis feedback adjustment module for generating control data for the driving motor 613/massage motor 632 according to the disease manifestation data;

and the data analysis display interface module is used for generating display data according to the disease manifestation data.

Host computer in the implementation can adopt pc machine or server, data acquisition module, blood flow data analysis module, pulse data analysis module, comprehensive data analysis module, data dynamic modeling module, data analysis feedback adjustment module wherein, then can adopt software implementation mode, data analysis show interface module then can adopt memory or display of being connected with pc machine or server, show data can directly generate the disease manifestation result, wherein the memory can be configured and read the copy through modes such as usb by outside user. In this way, in implementation, the user of the application can regularly obtain own physical condition data from the upper computer and provide data support for discovering cardiovascular diseases in advance.

The blood flow data may be indicative of vascular transfusion or pumping capacity of the heart; blood flow velocity data may characterize vascular transfusion efficiency or pumping efficiency of the heart; the blood flow velocity change rate data can represent the change direction of the blood pumping capacity of blood vessel transfusion or heart and can be used as a local sample of the change direction of the blood vessel or heart disease; the blood flow velocity change integral quantity data can also represent the change direction of the blood pumping capacity of blood vessel transfusion or heart and can be used as a macroscopic sample of the blood vessel or heart change direction; the pulse frequency data can directly represent the pumping times of the heart and can be used as a basis for calculating other data; the pulse frequency variation data represents the pump blood frequency variation of the heart and can be used as a local sample of the heart disease variation direction; the second derivative data of the pulse frequency variation as a function of the time coordinate characterizes the second data of the pump frequency variation of the heart and can be a more substantial sample of the direction of the heart disease.

The simulation of the blood flow volume data, the blood flow velocity change rate data, the blood flow velocity change integral quantity data, the pulse frequency change data, the second derivative data of the function formed by the pulse frequency change and the time coordinate of each single case as the source characteristic data is concretely as follows:

firstly, allocating specific data formats to each data in blood flow volume data, blood flow velocity change rate data, blood flow velocity change integral quantity data, pulse frequency change data, and second derivative data of a pulse frequency change and time coordinate forming function, and then quantizing the data (quantizing the data according to original signals of sources), for example, the blood flow volume data is quantized into xl; the blood flow velocity data is quantized as xs; quantifying the blood velocity change rate data as xb; the blood flow velocity change integral data is quantized into xj; pulse frequency data is quantized to mp; the pulse frequency change data is quantized into mb; the second derivative data of the function formed by the pulse frequency change and the time coordinate is quantized to me; then, establishing a possible correlation between the quantized data to form a new data volume, for example, if the blood flow data xl may have a direct causal relationship with the pulse frequency data mp, a new data volume may be established: blood flow-pulse frequency data xl-mp, at least xl-mp, xl-mb, xl-me, xs-mp, xs-mb, xs-me, xb-mp, xb-mb, xb-me, xj-mp, xj-mb, xj-me are constructed in the same way, then the data volumes xl-mp, xl-mb, xl-me, xs-mp, xs-mb, xs-me, xb-mp, xb-mb, xj-me, xj-mp, xj-mb-me and xj-me are respectively endowed with a data grade and a data influence weight, as shown in figure 17, the relation among different data volumes is shown through a data display graph with a circular middle part and a circular outer part and a ring shape, and the relation among different data volumes is firstly shown according to the cardiovascular pathology, The data quantity of the xl-mb, the xl-me, the xs-mp, the xs-mb, the xs-me, the xb-mp, the xb-mb, the xb-me, the xj-mp, the xj-mb and the xj-me is respectively endowed with a data level and a data influence weight, the factors which are close to the center of a circle in the graph are core factors, such as the angle of the sector position of the xl-mp, the xb-mp, the xj-mp, the xl-mp, the xb-mp and the xj-mp or the radian corresponding to the annular area ring are corresponding to the data influence weight, the closer the corresponding certain data quantity is to the center, the higher the data level is, the influence is the more the core, the lower the data level of the corresponding certain data quantity is far from the center, the influence is the less important, however, the data quantity with the lower data level is probably the secondary influence data of the data quantity with the higher data level, therefore, the data volume with low data level can be placed in the fan-shaped outer ring corresponding to the data volume with high data level, for example, xl-me is placed outside xl-mp, and in addition, the data volume which is unknown in the data of a certain level layer may exist, the corresponding ring part area is blackened, for example, the ring part area where xl-mb is located is blackened, as shown in fig. 17, the data volumes of xl-mp, xl-mb, xl-me, xs-mp, xs-mb, xs-me, xb-mp, xb-mb, xb-me, xj-mp, xj-mb and xj-me are respectively given a data level and a data influence weight according to the above mode, so as to form the data structure of the data volume, and then the scientificity of the data structure is verified through actual data measurement, and adjusting the data level and the data influence weight of each data volume in an iterative inspection mode, wherein the data structure of the adjusted data volume is source representation data.

Therefore, the specific way to simulate the "blood flow data, blood flow velocity change rate data, blood flow velocity change integral quantity data, pulse frequency change data, and second derivative data of the function formed by the pulse frequency change and the time coordinate" of each single case as the source characteristic data is that: firstly, allocating specific data formats to each data in blood flow volume data, blood flow velocity change rate data, blood flow velocity change integral quantity data, pulse frequency change data, and second derivative data of a pulse frequency change and time coordinate forming function, and then quantifying: blood flow data is quantized to xl; the blood flow velocity data is quantized as xs; quantifying the blood velocity change rate data as xb; the blood flow velocity change integral data is quantized into xj; pulse frequency data is quantized to mp; the pulse frequency change data is quantized into mb; the second derivative data of the function formed by the pulse frequency change and the time coordinate is quantized to me; establishing possible association relations among all quantized data to form a new data volume, respectively endowing the new data volume with a data level and a data influence weight, then testing the scientificity of a data structure through actual data measurement, adjusting the data level and the data influence weight of each data volume in an iterative test mode, and obtaining source representation data serving as the data structure of the adjusted data volume; the technology provides scientific basis and data structure foundation for a user to regularly acquire own physical condition data from an upper computer or discover cardiovascular diseases in advance.

Claims (10)

1. Portable medical care equipment, its characterized in that, including the fixed plate, the fixed plate upside set up first subassembly groove, first subassembly inslot fixed rotatable neck massage subassembly of opening/rotatable accomodating, the fixed plate upside still set up the second subassembly groove, the second subassembly inslot fixed rotatable body massage subassembly of opening/rotatable accomodating, the fixed plate downside set up a plurality of landing leg shrink grooves, the landing leg of all fixed rotatable opening/rotatable accomodating in each landing leg shrink groove, fixed plate one side fixed set up the handle.

2. The portable medical care apparatus as claimed in claim 1, wherein the neck massage assembly includes a body of the neck massage assembly, the body of the neck massage assembly is rotatably fixed on the inner bottom surface of the first assembly groove by a rotating base, and a slope surface is provided on a side of the first assembly groove away from the center of the fixing plate, so that the neck massage assembly can be obliquely fixed when rotating to the side away from the center of the fixing plate; the inclined angle of the slope surface is complementary with the most suitable inclined angle for massaging the neck of the human body.

3. The portable medical care device as claimed in claim 2, wherein the top of the leg is connected to a rotating base, and the top of the leg is connected to the top surface of the leg shrinking groove through the rotating base, the leg is further sleeved with a one-way convex ring with a convex side, the top of the one-way convex ring is connected to the top surface of the leg shrinking groove through a spring sleeved on the top of the leg, and correspondingly, a slot matched with the convex part of the one-way convex ring is formed in the top surface of the leg shrinking groove upwards, so that the leg is buckled by the one-way convex ring when being stored, and the rotation of the top of the leg is limited by the one-way convex ring when being opened.

4. The portable medical care device as claimed in claim 3, wherein the one-way protruding ring comprises a protruding ring shell, one end of the protruding ring shell is a protruding part, the other end of the protruding ring shell is an annular structure, the annular structure is provided with a spring ring groove, a small ring for penetrating through the supporting leg is arranged at the lower part of the spring ring groove, a spring is fixed on the upper side of the transition edge of the small ring and the spring ring groove, the inner diameter of the spring ring groove is larger than the outer diameter of the spring, and the outer diameter of the spring is larger than the inner diameter of the small ring.

5. The portable medical care apparatus according to claim 2, wherein the leg comprises a leg tube member, the leg tube member comprises a first leg tube, a second leg tube slidably fitted in the first leg tube, and a third leg tube slidably fitted in the second leg tube, the inner walls of the bottom end tubes of the first leg tube and the second leg tube are each provided with a snap ring, the outer diameters of the top end portions of the second leg tube and the third leg tube are each larger than the outer diameter of the non-top end portion thereof so as to form a convex ring between the top end and the non-top end of the second leg tube and the third leg tube, and the snap ring is used for limiting the position of the convex ring from moving downwards.

6. The portable medical care device as claimed in claim 5, wherein the side surfaces of the first/second/third leg tubes are provided with a plurality of strip-shaped locking slits, the side surface of the first leg tube is rotatably fixed with a locking needle through a micro rotary seat, and the locking needle can rotate into the locking slits of the first/second/third leg tubes to lock the relative sliding of the first/second/third leg tubes.

7. The portable medical care device as claimed in claim 6, wherein the cross section of the first/second/third leg tubes is elliptical, the side surface of the center end of the first leg tube is rotatably fixed with a clamping needle through a micro rotary seat, the clamping needle can be rotated into the clamping slot of the first/second leg tubes to lock the relative sliding of the first/second leg tubes, the side surface of the center end of the second leg tube is rotatably fixed with a clamping needle through a micro rotary seat, and the clamping needle can be rotated into the clamping slot of the second/third leg tubes to lock the relative sliding of the second/third leg tubes.

8. The portable medical care device according to claim 1, wherein the body massage assembly comprises a U-shaped support, a plurality of protective layers are disposed in a groove in the middle of the U-shaped support, a blood flow sensor is fixed in a part of the protective layers, a pulse sensor is fixed in a part of the protective layers, a rotating wheel connected with the motor massage assembly is fixed in a part of the protective layers, the motor massage assembly comprises a massage motor connected with the rotating wheel through an output shaft, the massage motor is fixed in the U-shaped support shell, a base is disposed at the middle lower part of the U-shaped support, pull rings are fixed at both sides of the U-shaped support, a circuit board is fixed at the upper part in the base in a cavity manner, a driving motor and a turntable connected with the shaft of the driving motor are disposed at the lower part in the base, fixed pulleys are fixed at both sides of the inner wall of the base, rope holes are formed on one side of the fixed pulley, the pull ring penetrates through the rope holes through the pull rope and is connected with the rotary table after winding the fixed pulley, and a recovery spring is fixed between the U-shaped bearing bottom shell and the base top shell, so that: when the driving motor drives the turntable to rotate forwards, the two sides of the U-shaped support can be pulled to bend outwards through the transmission of the pull rope so as to enlarge the U-shaped opening, and when the driving motor drives the turntable to rotate reversely from the maximum forward rotation angle to the initial angle, the U-shaped opening is restored through the spring of the restoring spring; a leather layer is arranged on the outer side of the protective layer, and an elastic shell is arranged between the outer side of the U-shaped bearing and the outer side of the base; the middle part of the pull rope is provided with a rotary connecting piece, the rotary connecting piece comprises a first rotary piece and a second rotary piece which is rotatably clamped with the first rotary piece, and the outer ends of the first rotary piece and the second rotary piece are both provided with a rope buckle for connecting the pull rope.

9. The portable medical care device as claimed in claim 8, wherein the circuit board is provided with a control circuit, an analog-to-digital conversion circuit and a motor driving circuit, the blood flow sensor and the pulse sensor are electrically connected to the control circuit through the analog-to-digital conversion circuit, the driving motor and the massage motor are electrically connected to the control circuit through the motor driving circuit, and the control circuit is a single chip microcomputer.

10. The portable medical care device according to claim 9, wherein the circuit board is further provided with a communication circuit, the control circuit is electrically connected with an upper computer through the communication circuit, and the upper computer comprises a data acquisition module, a blood flow data analysis module, a pulse data analysis module, a comprehensive data analysis module, a data dynamic modeling module, a data analysis feedback adjustment module, and a data analysis display interface module which are connected;

the data dynamic modeling module is used for acquiring originally recorded case data from the outside, simulating blood flow volume data, blood flow velocity change rate data, blood flow velocity change integral quantity data, pulse frequency change data, and second derivative data of a function formed by pulse frequency change and a time coordinate of each single case from the originally recorded case data as source characteristic data, and extracting symptom expression data of the corresponding case, wherein the symptom expression data comprises the type of vascular diseases and the symptom severity of the vascular diseases; establishing a mapping relation between the case source representation data and the disease manifestation data of the case, so that the disease manifestation data can be correspondingly found through the source representation data;

the data acquisition module is used for acquiring blood flow data and pulse data corresponding to sensing signals of the blood flow sensor and the pulse sensor;

the blood flow data analysis module is used for separating blood flow volume data, blood flow velocity change rate data and blood flow velocity change integral data through the blood flow data;

the pulse data analysis module is used for separating pulse frequency data, pulse frequency change data, and second derivative data of a function formed by pulse frequency change and a time coordinate from the pulse data;

the comprehensive data analysis module is used for acquiring blood flow volume data, blood flow velocity change rate data and blood flow velocity change integral quantity data of the blood flow data analysis module and second derivative data of a function formed by pulse frequency data, pulse frequency change and a time coordinate of the pulse data analysis module, then calling the data dynamic modeling module and correspondingly searching the disease manifestation data;

a data analysis feedback adjustment module for generating control data for the driving motor 613/massage motor 632 according to the disease manifestation data;

and the data analysis display interface module is used for generating display data according to the disease manifestation data.

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