CN114650684A - Physiological signal acquisition equipment and method for cardiovascular health detection - Google Patents

Abstract

The invention discloses a physiological signal acquisition device and a method for cardiovascular health detection, and the physiological signal acquisition device comprises a base, a protective box, a box cover, a damping mechanism, a fixing mechanism, a heat dissipation mechanism and a wire arrangement mechanism, wherein the protective box is fixedly connected to the top of the base, the box cover is rotatably connected to the top of the protective box, the damping mechanism is arranged in the protective box, and the fixing mechanism is arranged above the damping mechanism, so that the physiological signal acquisition device has the beneficial effects that: through adding damper, be favorable to removing the in-process to the device, reduce the vibrations that physiological signal collection equipment body received, prevent to reduce physiological signal collection equipment body and receive vibrations damage, the life of extension physiological signal collection equipment body, through adding fixed establishment, be favorable to making fixed splint and movable clamp plate press from both sides the tight to physiological signal collection equipment body fast, prevent to rock at removal in-process physiological signal collection equipment body, through adding winding displacement mechanism, be favorable to pressing from both sides the tight fast to the electric wire of different diameters size, prevent that the electric wire is in a mixed and disorderly in the inside distribution of protective housing, influence follow-up maintenance.

Description

Physiological signal acquisition equipment and method for cardiovascular health detection

Technical Field

The invention relates to the technical field of signal acquisition equipment, in particular to physiological signal acquisition equipment and a physiological signal acquisition method for cardiovascular health detection.

Background

The signal acquisition equipment is a medical scientific research instrument used in the technical fields of biology, electronics and communication technology and computer science.

The existing signal acquisition equipment can be vibrated in the moving process, so that the internal electrical elements of the signal acquisition equipment are damaged, and the normal use of the signal acquisition equipment is influenced.

Disclosure of Invention

In view of the above problems, the present invention provides a physiological signal acquisition device and method for cardiovascular health detection, so as to solve the problems that the conventional signal acquisition device is vibrated in the moving process, so that the internal electrical components of the signal acquisition device are damaged, and the normal use of the signal acquisition device is affected.

The technical scheme of the invention is as follows: a physiological signal acquisition device for cardiovascular health detection comprises a base, a protective box, a box cover, a damping mechanism, a fixing mechanism, a heat dissipation mechanism and a wire arrangement mechanism, wherein the protective box is fixedly connected to the top of the base;

damper includes the slide bar, the inside bilateral symmetry fixedly connected with slide bar of protective housing, the outside sliding connection of slide bar has the supporting seat, a spring of bottom fixedly connected with of supporting seat, the outside sliding connection of a spring and slide bar, the bottom both sides of supporting seat just are located the fixedly connected with push rod between two slide bars, the spout has been seted up to the inside bilateral symmetry of protective housing, two the inside of spout all is equipped with the slider No. one, two the equal fixedly connected with dwang in top of a slider, two the dwang all is connected with the inner wall rotation of base.

The working principle of the technical scheme is as follows: when physiological signal collection equipment body receives vibrations, can promote the supporting seat downwards and make the supporting seat slide downwards in the outside of slide bar, simultaneously spring atress shrink, a spring reverse promotion supporting seat forms the buffering under the elastic action of self, the one end that the push rod can promote the dwang downwards makes the dwang rotate simultaneously, then a slider is No. two springs at the inside slip extrusion of spout, thereby No. two springs reverse promotion slider formation buffering under the elastic action of self, be favorable to removing the in-process at the device, reduce the vibrations that physiological signal collection equipment body received, prevent to reduce physiological signal collection equipment body and receive vibrations damage, the life of extension physiological signal collection equipment body.

In a further technical scheme, fixed establishment includes solid fixed splint, top one side fixedly connected with solid fixed splint of supporting seat, the top of supporting seat and the one side that is located solid fixed splint are equipped with movable splint, No. two sliders of bottom fixedly connected with of movable splint, the inside sliding connection of No. two sliders and supporting seat, the equal fixedly connected with installation piece in one side of solid fixed splint and movable splint, one of them the inside of installation piece is rotated and is connected with the lead screw, the one end fixedly connected with turning block of lead screw, the other end of lead screw passes the outside of another installation piece, the inside threaded connection of lead screw and another installation piece.

The working principle of the technical scheme is as follows: the rotating block is rotated to enable the screw rod to rotate along with the screw rod, then one of the mounting blocks drives the movable clamping plate to move leftwards, the fixed clamping plate and the movable clamping plate are enabled to clamp the physiological signal acquisition equipment body, then the threaded rod is rotated for one time, the sliding block for three times drives the fixed pressing plate to move downwards, and the fixed pressing plate is enabled to press the top of the physiological signal acquisition equipment body.

In a further technical scheme, the inside equal sliding connection of solid fixed splint and movable splint has No. three sliders, two the equal fixedly connected with holding plate of one end of No. three sliders, the inside of solid fixed splint and movable splint all rotates and is connected with the threaded rod No. one, the internal thread connection of threaded rod and No. three sliders.

The working principle of the technical scheme is as follows: rotate a threaded rod, make No. three sliders drive the holding plate downstream, be favorable to holding plate to the top of physiological signal collection equipment body to compress tightly fast, improve the stability of physiological signal collection equipment body.

In a further technical scheme, the heat dissipation mechanism comprises a heat dissipation fan, the inside fixed mounting of case lid has the heat dissipation fan, the top fixedly connected with dust screen that the top just is located the case lid of heat dissipation fan, the water-storing chamber has been seted up to the inside of supporting seat, the inside fixedly connected with heat radiation fins of water-storing chamber, heat radiation fins's top is equipped with heat dissipation silicone grease.

The working principle of the technical scheme is as follows: the speed of heat circulation inside the protective box can be increased through the arranged heat radiating fan, so that the heat radiating efficiency is improved, and the heat radiating effect can be further improved through the heat radiating fins.

In a further technical scheme, the inside of protective housing just is located and is equipped with physiological signal collection equipment body between solid fixed splint and the movable splint, the inside of physiological signal collection equipment body is equipped with the data processing unit, the inside bilateral symmetry fixedly connected with radiator-grid of protective housing.

The working principle of the technical scheme is as follows: the heat dissipation net arranged can facilitate the heat to be dissipated from the inside of the protective box fast.

In a further technical scheme, winding displacement mechanism includes the mount, the inside of guard box and the one side fixedly connected with mount that is located physiological signal collection equipment body, the inside fixedly connected with fixed fastener of mount, the top of fixed fastener is equipped with movable fastener, the top of movable fastener is rotated and is connected with No. two threaded rods, No. two threaded rods and the inside threaded connection of mount, the inside equidistance sliding connection of movable fastener has the clamp splice, the top fixed mounting of clamp splice has No. three springs.

The working principle of the technical scheme is as follows: the movable wire clamp can move downwards by rotating the second threaded rod, so that electric wires with different diameters can be clamped quickly, and the electric wires are prevented from being distributed in a mess in the protection box to influence subsequent maintenance.

In a further technical scheme, a wire arranging hole is formed in the protective box and on one side of the fixed frame.

The working principle of the technical scheme is as follows: the electric wire can be conveniently penetrated into the protection box through the arranged wire holes.

In a further technical scheme, rubber pads are fixedly connected to the inner sides of the fixed clamping plate and the movable clamping plate and the bottom of the fixed pressing plate.

The working principle of the technical scheme is as follows: the outside protection of physiological signal collection equipment body can be protected through the rubber pad that sets up, prevents that the clamp force is too big to lead to physiological signal collection equipment body outside wearing and tearing.

In a further technical scheme, the data processing unit comprises a data acquisition module, a data analysis module, a data sorting module and a data storage module, the data acquisition module is electrically connected with the data analysis module, the data analysis module is electrically connected with the data sorting module, and the data sorting module is electrically connected with the data storage module;

the data acquisition module is used for uniformly acquiring various data information and is connected with the data analysis module;

the data analysis module is used for carrying out classification analysis on various information acquired by the data acquisition module and transmitting the analyzed data to the data sorting module;

the data sorting module is used for effectively sorting the analyzed data, removing useless data, integrating effective data and transmitting the integrated data to the data storage module;

and the data storage module is used for effectively storing and backing up the integrated data.

The invention also provides a use method of the physiological signal acquisition equipment for cardiovascular health detection, which comprises the following steps:

s1, opening a box cover, placing the physiological signal acquisition equipment body between a fixed clamping plate and a movable clamping plate, then rotating a rotating block to enable a screw rod to rotate along with the screw rod, then driving the movable clamping plate to move leftwards by one of the mounting blocks, enabling the fixed clamping plate and the movable clamping plate to clamp the physiological signal acquisition equipment body, and then rotating a first threaded rod to enable a third sliding block to drive a fixed pressing plate to move downwards, and enabling the fixed pressing plate to press the top of the physiological signal acquisition equipment body;

s2, inserting the electric wire into the protective box from the wire arranging hole, then inserting the electric wire between the fixed wire clamp and the movable wire clamp, rotating the second threaded rod to enable the movable wire clamp to move downwards to clamp the electric wire, and when the diameters of the electric wires are different, the electric wire with the larger diameter firstly touches the clamping block to enable the clamping block to slide towards the inside of the movable wire clamp to extrude the third spring;

s3, the pushing device moves the device to a place to be used, when the physiological signal acquisition equipment body is vibrated in the moving process, the supporting seat can be pushed downwards to enable the supporting seat to slide downwards on the outer side of the sliding rod, meanwhile, the first spring is stressed to shrink, the first spring reversely pushes the supporting seat to form buffering under the action of self elasticity, meanwhile, the push rod can downwards push one end of the rotating rod to enable the rotating rod to rotate, then the first sliding block slides and extrudes the second spring in the sliding groove, so that the second spring reversely pushes the first sliding block to form buffering under the action of self elasticity, and the vibration on the physiological signal acquisition equipment body is reduced;

s4, when the physiological signal acquisition equipment body works, the heat dissipation fan is started to enable the heat dissipation fan to quickly discharge heat generated when the physiological signal acquisition equipment body works from the heat dissipation net, meanwhile, the heat at the bottom of the physiological signal acquisition equipment body is transferred to the heat dissipation fins through the heat dissipation silicone grease, and then is transferred to the inside of the water storage chamber through the heat dissipation fins for heat dissipation, when data is processed through the data processing unit inside the physiological signal acquisition equipment body, various data information is uniformly acquired through the data acquisition module, the acquired data is uniformly transmitted to the data analysis module, various information acquired by the data acquisition module is classified and analyzed through the data analysis module, the analyzed data is transmitted to the data arrangement module, and the data arrangement module is used for effectively arranging the analyzed data and removing useless data, the effective data are integrated, the integrated data are transmitted to the data storage module, and the integrated data are effectively stored and backed up through the data storage module, so that the data are convenient to extract and use.

The invention has the beneficial effects that:

1. when the physiological signal acquisition equipment body is vibrated, the vibration on the physiological signal acquisition equipment body is reduced under the buffer action provided by related structures such as a first spring, a second spring and the like, so that the physiological signal acquisition equipment body is prevented from being damaged by vibration, and the service life of the physiological signal acquisition equipment body is prolonged.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of a support base according to the present invention;

FIG. 3 is a schematic view of the front cross-sectional structure of the protective box of the present invention;

FIG. 4 is a schematic side view of a cross-sectional structure of the protective housing of the present invention;

FIG. 5 is a schematic structural diagram of a cable arrangement mechanism according to the present invention;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

fig. 7 is a block diagram of the system of the present invention.

Description of reference numerals:

1. a base;

2. a protective box;

3. a box cover;

4. a supporting seat;

5. a damping mechanism; 51. a slide bar; 52. a first spring; 53. a push rod; 54. rotating the rod; 55. a chute; 56. a first slide block; 57. a second spring;

6. a fixing mechanism; 61. fixing the clamping plate; 62. a movable splint; 63. a second sliding block; 64. rotating the block; 65. mounting blocks; 66. a screw rod; 67. a first threaded rod; 68. a third sliding block; 69. fixing the pressing plate;

7. a physiological signal acquisition device body;

8. a heat dissipation mechanism; 81. a heat radiation fan; 82. a dust screen; 83. heat dissipation fins; 84. a water storage chamber; 85. heat dissipation silicone grease; 86. a heat-dissipating web;

9. a wire arranging mechanism; 91. a fixed mount; 92. fixing a wire clamp; 93. a movable wire clamp; 94. a second threaded rod; 95. a clamping block; 96. a third spring;

10. and (4) arranging holes.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings.

Example (b):

as shown in fig. 1-7, a physiological signal collecting device for cardiovascular health detection, comprises a base 1, a protective box 2, a box cover 3, a damping mechanism 5, a fixing mechanism 6, a heat dissipation mechanism 8 and a wire arrangement mechanism 9, wherein the protective box 2 is fixedly connected to the top of the base 1, the physiological signal collecting device body 7 can be protected by the protective box 2 and the box cover 3, and the physiological signal collecting device body 7 is prevented from being damaged due to collision, the top of the protective box 2 is rotatably connected with the box cover 3, the damping mechanism 5 is arranged inside the protective box 2, the fixing mechanism 6 is arranged above the damping mechanism 5, the wire arrangement mechanism 9 is arranged on one side of the fixing mechanism 6, and the heat dissipation mechanism 8 is arranged on the other side of the fixing mechanism 6.

The damping mechanism 5 comprises a sliding rod 51, the sliding rod 51 is fixedly connected with the two sides of the interior of the protective box 2 symmetrically, the supporting seat 4 is connected with the outer side of the sliding rod 51 in a sliding manner, the physiological signal acquisition equipment body 7 can be supported through the arranged supporting seat 4, the first spring 52 is fixedly connected with the bottom of the supporting seat 4, the first spring 52 is connected with the outer side of the sliding rod 51 in a sliding manner, the push rod 53 is fixedly connected with the two sides of the bottom of the supporting seat 4 and positioned between the two sliding rods 51, the sliding grooves 55 are symmetrically formed in the two sides of the interior of the protective box 2, the sliding track of the first sliding block 56 can be limited through the formed sliding grooves 55, the movement stability of the first sliding block 56 is improved, the first sliding blocks 56 are arranged in the two sliding grooves 55, the rotating rods 54 are fixedly connected with the tops of the two first sliding blocks 56, the two rotating rods 54 are rotatably connected with the inner wall of the base 1, when the physiological signal acquisition equipment body 7 is vibrated, can promote supporting seat 4 downwards and make supporting seat 4 at the outside lapse of slide bar 51, spring 52 atress shrink simultaneously, spring 52 reversely promotes supporting seat 4 under the elastic action of self and forms the buffering, push rod 53 can promote the one end of dwang 54 downwards simultaneously and make dwang 54 rotate, then, slider 56 slides in the inside of spout 55 and extrudes No. two springs 57, thereby No. two springs 57 reversely promote No. one slider 56 under the elastic action of self and form the buffering, be favorable to removing the in-process to the device, reduce the vibrations that physiological signal collection equipment body 7 received, prevent to reduce physiological signal collection equipment body 7 and receive vibrations and damage, prolong the life of physiological signal collection equipment body 7.

In another embodiment, as shown in fig. 1, 2, 3 and 4, the fixing mechanism 6 includes a fixed clamp plate 61, a fixed clamp plate 61 is fixedly connected to one side of the top of the supporting seat 4, a movable clamp plate 62 is arranged at the top of the supporting seat 4 and on one side of the fixed clamp plate 61, the physiological signal acquisition device body 7 can be clamped by the mutual cooperation of the fixed clamp plate 61 and the movable clamp plate 62, a second slide block 63 is fixedly connected to the bottom of the movable clamp plate 62, the second slide block 63 is slidably connected to the inside of the supporting seat 4, the stability of the movable clamp plate 62 during the moving process can be improved by the sliding of the second slide block 63 inside the supporting seat 4, the movable clamp plate 62 can be prevented from shaking, mounting blocks 65 are fixedly connected to one sides of the fixed clamp plate 61 and the movable clamp plate 62, a screw 66 is rotatably connected to the inside of one of the mounting blocks 65, a rotating block 64 is fixedly connected to one end of the screw 66, the other end of the screw rod 66 penetrates through the outer side of the other mounting block 65, and the screw rod 66 is in threaded connection with the inner part of the other mounting block 65, so that the fixed clamping plate 61 and the movable clamping plate 62 can quickly clamp the physiological signal acquisition equipment body 7, and the physiological signal acquisition equipment body 7 is prevented from shaking in the moving process; the equal sliding connection in inside of solid fixed splint 61 and movable splint 62 has No. three sliders 68, the equal fixedly connected with solid fixed pressing plate 69 of one end of two No. three sliders 68, gu fixed splint 61 and movable splint 62's inside all rotates and is connected with threaded rod 67 No. one, threaded rod 67 and No. three slider 68's internal thread are connected, rotate threaded rod 67 No. one, make No. three sliders 68 drive solid fixed pressing plate 69 downstream, be favorable to solid fixed pressing plate 69 to compress tightly fast the top of physiological signal collection equipment body 7, improve the stability of physiological signal collection equipment body 7.

In another embodiment, as shown in fig. 1, fig. 2, fig. 3 and fig. 4, the heat dissipation mechanism 8 includes a heat dissipation fan 81, the heat dissipation fan 81 is fixedly installed inside the case cover 3, a dust screen 82 is fixedly connected above the heat dissipation fan 81 and on the top of the case cover 3, the dust screen 82 is arranged to prevent external dust from being drawn into the protection case 2 by the heat dissipation fan 81, a water storage chamber 84 is formed inside the support base 4, the heat absorbed by the heat dissipation fins 83 can be quickly dissipated by the water storage chamber 84, the heat dissipation fins 83 are fixedly connected inside the water storage chamber 84, a heat dissipation silicone grease 85 is arranged on the top of the heat dissipation fins 83, the heat dissipation fan 81 is arranged to increase the speed of heat circulation inside the protection case 2, thereby increasing the heat dissipation efficiency, and further increasing the heat dissipation effect by the heat dissipation fins 83.

In another embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 6, a physiological signal collecting device body 7 is arranged inside the protective box 2 and between the fixed clamp plate 61 and the movable clamp plate 62, a data processing unit is arranged inside the physiological signal collecting device body 7, heat dissipation nets 86 are symmetrically and fixedly connected to two sides of the interior of the protective box 2, and heat can be conveniently and rapidly dissipated from the interior of the protective box 2 through the arranged heat dissipation nets 86.

In another embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the wire arranging mechanism 9 includes a fixing frame 91, a fixing frame 91 is fixedly connected to one side of the physiological signal collecting device body 7 inside the protection box 2, a fixed wire clamp 92 is fixedly connected to the inside of the fixing frame 91, a movable wire clamp 93 is disposed above the fixed wire clamp 92, a second threaded rod 94 is rotatably connected to the top of the movable wire clamp 93, the movable wire clamp 93 can accurately move according to the diameter of the electric wire during the downward movement process through the second threaded rod 94, the second threaded rod 94 is connected to the inner thread of the fixing frame 91, clamping blocks 95 are slidably connected to the inside of the movable wire clamp 93 at equal intervals, third springs 96 are fixedly mounted on the tops of the clamping blocks 95, the clamping blocks 95 can downwardly clamp the electric wire under the elastic force of the third springs 96 through the third springs 96, the movable wire clamp 93 can move downwards by rotating the second threaded rod 94, so that electric wires with different diameters can be clamped quickly, and the electric wires are prevented from being distributed in disorder in the protective box 2 to influence subsequent maintenance.

In another embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, a cable arranging hole 10 is formed inside the protective box 2 and on one side of the fixing frame 91, and the cable arranging hole 10 is arranged to facilitate the electric wire to penetrate into the protective box 2; the equal fixedly connected with rubber pad in inboard and the bottom of stationary clamp 69 of stationary clamp plate 61 and movable clamp plate 62 can protect the outside of physiology signal acquisition equipment body 7 through the rubber pad that sets up, prevents that the clamp force is too big to lead to the wearing and tearing in the outside of physiology signal acquisition equipment body 7.

In another embodiment, as shown in fig. 7, the data processing unit includes a data collecting module, a data analyzing module, a data sorting module and a data storing module, and the data collecting module is electrically connected to the data analyzing module, the data analyzing module is electrically connected to the data sorting module, and the data sorting module is electrically connected to the data storing module;

the data acquisition module is used for uniformly acquiring various data information and is connected with the data analysis module, so that the data can be conveniently and rapidly acquired;

the data analysis module is used for carrying out classification analysis on various information collected by the data collection module and transmitting the analyzed data to the data sorting module, so that various data can be rapidly analyzed and effectively classified;

the data sorting module is used for effectively sorting the analyzed data, removing useless data, integrating effective data and transmitting the integrated data to the data storage module, so that the sorted data can be conveniently and quickly sorted and classified;

and the data storage module is used for effectively storing and backing up the integrated data, so that the working personnel can quickly extract the effective data.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. The physiological signal acquisition equipment for cardiovascular health detection comprises a base (1), a protective box (2), a box cover (3), a damping mechanism (5), a fixing mechanism (6), a heat dissipation mechanism (8) and a wire arrangement mechanism (9), and is characterized in that the protective box (2) is fixedly connected to the top of the base (1), the box cover (3) is rotatably connected to the top of the protective box (2), the damping mechanism (5) is arranged inside the protective box (2), the fixing mechanism (6) is arranged above the damping mechanism (5), the wire arrangement mechanism (9) is arranged on one side of the fixing mechanism (6), and the heat dissipation mechanism (8) is arranged on the other side of the fixing mechanism (6);

damper (5) include slide bar (51), the inside bilateral symmetry fixedly connected with slide bar (51) of protective housing (2), the outside sliding connection of slide bar (51) has supporting seat (4), spring (52) No. one of the bottom fixedly connected with of supporting seat (4), the outside sliding connection of spring (52) and slide bar (51), the bottom both sides of supporting seat (4) just are located fixedly connected with push rod (53) between two slide bars (51), spout (55), two have been seted up to the inside bilateral symmetry of protective housing (2) the inside of spout (55) all is equipped with slider (56), two the equal fixedly connected with dwang (54) in top of slider (56), two dwang (54) all are connected with the inner wall rotation of base (1).

2. The physiological signal acquisition device for cardiovascular health detection as claimed in claim 1, wherein: the fixing mechanism (6) comprises a fixing clamp plate (61), one side of the top of the supporting seat (4) is fixedly connected with the fixing clamp plate (61), a movable clamping plate (62) is arranged at the top of the supporting seat (4) and at one side of the fixed clamping plate (61), the bottom of the movable clamping plate (62) is fixedly connected with a second sliding block (63), the second sliding block (63) is connected with the inside of the supporting seat (4) in a sliding way, one sides of the fixed splint (61) and the movable splint (62) are fixedly connected with an installation block (65), a screw rod (66) is rotatably connected inside one of the mounting blocks (65), one end of the screw rod (66) is fixedly connected with a rotating block (64), the other end of the screw rod (66) penetrates through the outer side of the other mounting block (65), the screw (66) is connected with the inner thread of the other mounting block (65).

3. The physiological signal acquisition device for cardiovascular health detection as claimed in claim 2, wherein: the inside equal sliding connection of solid fixed splint (61) and activity splint (62) has No. three sliders (68), two the equal fixedly connected with holding plate (69) of one end of No. three sliders (68), the inside of solid fixed splint (61) and activity splint (62) is all rotated and is connected with threaded rod (67), the internal thread connection of threaded rod (67) and No. three sliders (68).

4. The physiological signal collecting device for cardiovascular health detection as claimed in claim 3, wherein: heat dissipation mechanism (8) include radiator fan (81), the inside fixed mounting of case lid (3) has radiator fan (81), the top of radiator fan (81) and the top fixedly connected with dust screen (82) that is located case lid (3), water-storing chamber (84) have been seted up to the inside of supporting seat (4), the inside fixedly connected with heat radiation fins (83) of water-storing chamber (84), the top of heat radiation fins (83) is equipped with heat dissipation silicone grease (85).

5. The physiological signal acquisition device for cardiovascular health detection according to claim 4, wherein: the utility model discloses a physiological signal acquisition equipment, including protective housing (2), fixed splint (61) and movable splint (62), the inside of protective housing (2) just is located and is equipped with physiological signal acquisition equipment body (7) between fixed splint (61) and movable splint (62), the inside bilateral symmetry fixedly connected with radiator-grid (86) of protective housing (2).

6. The physiological signal acquisition device for cardiovascular health detection according to claim 5, wherein: winding displacement mechanism (9) are including mount (91), one side fixedly connected with mount (91) of physiological signal collection equipment body (7) is just located in the inside of guard box (2), the inside fixedly connected with fixed fastener (92) of mount (91), the top of fixed fastener (92) is equipped with movable fastener (93), the top of movable fastener (93) is rotated and is connected with No. two threaded rods (94), No. two threaded rods (94) and the inside threaded connection of mount (91), the inside equidistance sliding connection of movable fastener (93) has clamp splice (95), the top fixed mounting of clamp splice (95) has No. three spring (96).

7. The physiological signal acquisition device for cardiovascular health detection according to claim 6, wherein: a wire arranging hole (10) is formed in the protective box (2) and located on one side of the fixing frame (91).

8. The physiological signal collecting device for cardiovascular health detection as claimed in claim 3, wherein: the inner sides of the fixed clamping plate (61) and the movable clamping plate (62) and the bottom of the fixed pressing plate (69) are fixedly connected with rubber pads.

9. The physiological signal acquisition device for cardiovascular health detection according to claim 6, wherein: the data processing unit comprises a data acquisition module, a data analysis module, a data sorting module and a data storage module, the data acquisition module is electrically connected with the data analysis module, the data analysis module is electrically connected with the data sorting module, and the data sorting module is electrically connected with the data storage module;

the data acquisition module is used for uniformly acquiring various data information and is connected with the data analysis module;

the data analysis module is used for carrying out classification analysis on various information acquired by the data acquisition module and transmitting the analyzed data to the data sorting module;

the data sorting module is used for effectively sorting the analyzed data, removing useless data, integrating effective data and transmitting the integrated data to the data storage module;

and the data storage module is used for effectively storing and backing up the integrated data.

10. A physiological signal collecting method for cardiovascular health detection, which is applied to the physiological signal collecting device for cardiovascular health detection of claim 9, and comprises the following steps:

s1, moving the physiological signal acquisition equipment to a position required by work according to actual requirements;

s2, opening a box cover (3), placing the physiological signal acquisition equipment body (7) between a fixed clamping plate (61) and a movable clamping plate (62), then rotating a rotating block (64) to enable a screw rod (66) to rotate along with the screw rod, clamping the physiological signal acquisition equipment body (7) through the fixed clamping plate (61) and the movable clamping plate (62), then rotating a first threaded rod (67), and pressing the top of the physiological signal acquisition equipment body (7) through a fixed pressing plate (69);

s3, inserting the electric wire into the protective box (2), inserting the electric wire between the fixed wire clamp (92) and the movable wire clamp (93), and rotating the second threaded rod (94) to enable the movable wire clamp (93) to move downwards to clamp the electric wire;

s4, the physiological signal acquisition device body (7) is started to work, a cooling fan (81) is started to cool the inside of the physiological signal acquisition device body (7), when data are processed through a data processing unit in the physiological signal acquisition device body (7), various data information is collected uniformly through a data acquisition module, the collected data are conveyed to a data analysis module uniformly, various information collected by the data acquisition module is analyzed in a classified mode through the data analysis module, the analyzed data are transmitted to a data arrangement module, the analyzed data are arranged effectively through the data arrangement module, useless data are removed, effective data are integrated, the integrated data are transmitted to a data storage module, and the integrated data are stored and backed up effectively through the data storage module.

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