CN116584906A

CN116584906A - Vital sign detection method and device based on phase comparison in complex indoor scene

Info

Publication number: CN116584906A
Application number: CN202310629252.XA
Authority: CN
Inventors: 赵雪成; 仇兆浩; 王宽
Original assignee: Xuzhou Yongkang Electronic Science & Technology Co ltd
Current assignee: Xuzhou Yongkang Electronic Science & Technology Co ltd
Priority date: 2023-05-31
Filing date: 2023-05-31
Publication date: 2023-08-15

Abstract

The vital sign detection method and device based on phase comparison under the complex indoor scene belong to the technical field of health care, and aim to solve the problems that the existing vital sign detection equipment is wired in detection capability and large in size, and when a plurality of kinds of equipment are matched for use, vital sign information of a patient is difficult to be unfolded and used under the complex indoor scene; the invention integrates a plurality of real-time detection mechanisms such as the oversleeves, the body temperature detection patches, the blood pressure detection patches, the finger-clip oximeter, the electrocardiograph detection patches and the like on the detection machine box, optimizes and realizes the small-volume structure of the vital sign detection device, can be worn on the upper limb of a patient by using the oversleeves, simultaneously detects various vital sign information of the patient, uploads the main machine data by using the 5G wireless network, simultaneously carries out imaging phase pair analysis on the patient detection data by using the big data, comprehensively provides a recommended reference treatment scheme for the patient for doctors, and is convenient for the doctors to diagnose and treat the patient by using the emergency medicine provided by the detection machine box so as to recover vital signs.

Description

Vital sign detection method and device based on phase comparison in complex indoor scene

Technical Field

The invention relates to the technical field of health care, in particular to a vital sign detection method and device based on phase comparison in a complex indoor scene.

Background

Vital signs are used to determine whether a patient is critically ill or critically ill. Mainly heart rate, pulse, blood pressure, respiration, pain, blood oxygen, pupil and cornea reflex changes, etc. The physical condition of the human body can be known through vital signs, and diagnosis and treatment can be accurately performed for the patient only by fully and detailed knowledge of the vital sign information.

Many vital sign detection devices in common use today include: the utility model provides a cuff formula sphygmomanometer, electrocardiograph detector and sign monitor etc. not only kind is various, and the volume is great moreover, and is comparatively single to the detection of sign information, when detecting patient's vital sign, needs multiple instrument to cooperate the use simultaneously, and the use of the computerized analysis equipment that adds is difficult to quick expansion use under some complicated indoor scenes, like the patent of publication number CN101977544A discloses a detection device for detecting vital sign, and it is through wearing various detection sensing equipment on patient's body, and rethread data analysis device carries out the analysis to patient's sign data, and it is comparatively loaded down with trivial details to implement.

Therefore, we propose a vital sign detection method and device based on phase comparison in complex indoor scenarios.

Disclosure of Invention

The invention aims to provide a vital sign detection method and device based on phase comparison under a complex indoor scene, and aims to solve the problems that in the background art, the existing vital sign detection equipment is wired in detection capability and large in size, and when a plurality of kinds of equipment are matched for use, the vital sign detection equipment is difficult to be unfolded and used under the complex indoor scene when vital sign information of a patient is detected.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a vital sign detection device based on phase comparison under the complicated indoor scene, including detecting the machine box and set up in the display screen at detecting the machine box top, be provided with the control key on the detection machine box top outer wall of display screen adjacent department, be provided with the 5G signal antenna pole that is used for wireless transmission information in the recess on the detection machine box one end lateral wall, detect machine box bottom fixedly connected with oversleeve, fixedly connected with annular inflatable bandage on the inner wall of oversleeve, evenly spaced gomphosis is provided with body temperature detection paster and blood pressure detection paster on the inner wall of annular inflatable bandage, be provided with the regulation trachea on the outer wall of oversleeve, the regulation trachea both ends communicate annular inflatable bandage and the regulation air pump of detecting the machine box inside respectively, and the gomphosis is provided with the storing board of storing first aid article on the detection machine box bottom department lateral wall of detection machine box bottom department, be provided with the accomodate the chamber on the detection machine box lateral wall of storing, accomodate the intracavity activity block and have the finger clip formula oximeter, the hold tank has been seted up to the casing bottom of finger clip formula oximeter, the card is accomodate and is detected by the heart electricity, the paster is detected to the heart electricity, evenly spaced the department on the inner wall, the annular inflatable bandage and finger clip formula oximeter is connected with the detector inside the detector through the data line and is connected to the detector that detects the inside the machine box, and is compared to the phase place information.

Further, the detection processor receives the detected blood oxygen, blood pressure, electrocardio and body temperature information based on the processing chip, displays the information on the display screen, stores the information by using the storage unit, performs big data analysis by using a 5G signal network through a big data analysis module, performs big data comparison analysis according to imaging phases of patient sign data, alarms through an alarm module when the data are abnormal, generates a strict recommended treatment scheme in a treatment scheme generating unit, and finally, gathers all the data and then wirelessly transmits the data to a monitoring host by using a 5G signal antenna rod for data storage.

Further, the inside first cavity and the second cavity that separates from top to bottom of detection machine box, be provided with the detection treater through the cushion on the first cavity bottom plate, the border middle part department that first cavity is close to regulation trachea one side sets up accomodates the chamber, fixedly connected with installation layer board on the second cavity inner wall of accomodating the chamber both sides, installation layer board one side top is provided with wire winding adjusting part, wire winding adjusting part is used for the rolling to adjust the electrocardio and detects the paster and indicates the data line that presss from both sides formula oximeter to connect the detection treater, be provided with the locating part on the outer wall of reel bottom port department.

Further, wire winding adjusting part is including fixed connection in the locating shaft at installation layer board top and swing joint in the reel around the locating shaft top, around the reel ring cover outside the locating shaft, the winding is provided with the clockwork spring on the outer wall of locating shaft, clockwork spring outside end fixed connection is on around the reel inner wall, and around reel top fixedly connected with terminal, the terminal top activity has cup jointed the rotation connector, rotate the connector run through behind the first cavity with detect processor electric connection, terminal one side outer wall is connected with the data line after, the data line runs through and extends to around reel roof border below and twine on its outer wall, the data line after the winding runs through and extends to the accomodate the intracavity through the reel guide, accomodate the data line end in the intracavity respectively with electrocardio detection paster and finger clip type oximeter electric connection, and accomodate the roof lower extreme fixedly connected with locking piece of chamber one side far away from its port.

Further, the locking piece is used for locking the data line after the data line is dragged out of the storage cavity by the finger-grip oximeter, the locking piece comprises an electromagnet fixedly connected to the lower end of a top plate of the storage cavity and a telescopic boom fixedly connected to the bottom of the electromagnet, the bottom of the telescopic boom is fixedly connected with an arc-shaped clamping plate, a guide rod is fixedly connected to one end side wall of the electromagnet, a movable armature is movably sleeved on the outer wall of the guide rod, a buffer spring is wound on the outer wall of the guide rod between the movable armature and the electromagnet, an adjusting connecting rod is movably connected to the bottom of the movable armature, and the lower end of the adjusting connecting rod is movably connected to the middle part of the top end of the arc-shaped clamping plate.

Further, the locating part includes swing joint in the drive lead screw of second cavity roof lower extreme and fixed connection pulley group on the drive lead screw outer wall, another belt pulley fixed connection of pulley group is in around on the reel bottom port department outer wall, and the lower extreme of drive lead screw runs through the installation layer board and extends to its below, the drive lead screw activity of installation layer board lower extreme runs through the movable plate setting, movable plate top both ends respectively fixedly connected with reference column, the equal activity of reference column runs through the movable plate setting, movable plate bottom both ends respectively fixedly connected with gag lever post, the gag lever post is suspended in the storing board top in the draw-in groove of second cavity bottom department.

Further, the driving screw rod is arranged at the lower end of the top plate of the second chamber on one side of the storage cavity side by side, and the diameter of a belt pulley on the outer wall of the driving screw rod is larger than that of a belt pulley on the outer wall of a port at the bottom of the winding drum.

Further, the storage plate comprises a support substrate a movably clamped in a clamping groove at the bottom of the second cavity, one end of the support substrate a extends to the outside of a through hole port on the side wall of the detection machine box, a first storage groove b and a second storage groove c are uniformly formed in the top of the support substrate a, first-aid injection d and retention needles e are respectively placed in the first storage groove b and the second storage groove c, positioning holes f are respectively formed in two sides of the top of one end of the support substrate a, far away from the through hole port on the side wall of the detection machine box, of the support substrate a, and the positioning holes f are respectively arranged corresponding to limiting rods.

Further, limiting sliding grooves are formed in the bottoms of the shells of the finger-clip type oximeter on two sides of the accommodating groove, two ends of the top of the limiting U-shaped frame are movably clamped in the limiting sliding grooves, and the bottom plate of the limiting U-shaped frame is attached to and lifts the electrocardiograph detection patch.

The invention provides another technical scheme that: the detection method of the vital sign detection device based on the phase comparison in the complex indoor scene comprises the following implementation steps:

s1: sleeving the sleeve on the arm of a patient, starting an adjusting air pump to be matched with an adjusting air pipe to inflate the annular inflatable bandage, and inflating and tightly binding the arm of the patient by the annular inflatable bandage, so that the body temperature detection patch and the blood pressure detection patch which are embedded in the annular cavity of the annular inflatable bandage are attached to the skin of the patient, and fixing the detection machine box is completed;

s2: drawing the finger-clip type oximeter out of the accommodating cavity, drawing out a data wire in the detection machine box by utilizing the finger-clip type oximeter, sliding off the limit U-shaped frame after the data wire is elongated, and taking out the electrocardiograph detection patch from the accommodating groove formed in the bottom of the shell of the finger-clip type oximeter;

s3: the finger clip type oximeter is sleeved on the corresponding finger of the bound arm of the patient, and the taken electrocardiograph detection patch is applied to the chest of the patient;

s4: starting a detection machine box, detecting body temperature, blood pressure, finger-clamping oximeter and electrocardiograph, respectively detecting body temperature, blood pressure, blood oxygen and heart beat sign information of a patient, and transmitting the patient sign information to a detection processor;

s5: the detection processor performs imaging processing on the vital sign information received by detection, performs phase comparison and big data analysis, gives an alarm when the data is abnormal, gives out a corresponding recommended treatment scheme, displays the data and the treatment scheme on a display screen for a doctor to refer, takes out the first-aid articles stored on the storage board after the doctor determines the treatment scheme to carry out first-aid on the patient so as to recover the vital sign of the patient, and simultaneously, the detection processor automatically uploads all detection data and relevant case information to the monitoring host for warehousing and storage based on a 5G wireless network.

Compared with the prior art, the invention has the following beneficial effects:

according to the vital sign detection method and device based on phase comparison in the complex indoor scene, the cuff, the body temperature detection patch, the blood pressure detection patch, the finger-clip type oximeter, the electrocardio detection patch and other real-time detection mechanisms are integrated on the detection machine box, so that the small-volume structure of the vital sign detection device is optimally realized, the problem that the existing large-volume vital sign detection equipment is difficult to rapidly expand and use in the complex indoor environment is avoided, the cuff can be worn on the upper limb of a patient, the body temperature, the blood pressure, the blood oxygen and the heart beat vital sign information of the patient are detected, the main machine data are uploaded through the 5G wireless network, the imaging phase pair analysis is carried out on the patient detection data through the big data, the recommended reference treatment scheme for the patient is comprehensively provided for doctors, the doctors can diagnose the patient by using the emergency medicine and the injection device provided by the detection machine box, the vital sign of the patient can be recovered in time, and the vital sign detection method is convenient and practical.

Drawings

FIG. 1 is a system block diagram of a detection processor within a detection cartridge of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic view of the bottom view of the cartridge and sleeve of the present invention;

FIG. 4 is a schematic view of the structure of the annular inflatable harness of the present invention;

FIG. 5 is a cross-sectional view of a test cartridge of the present invention;

FIG. 6 is a schematic view of the mounting structure of the stop and wire winding adjustment assembly of the present invention;

FIG. 7 is a schematic view of a coil adjustment assembly and finger clip oximeter mounting structure of the instant invention;

FIG. 8 is a schematic view of the positioning shaft, winding drum and clockwork spring mounting structure of the present invention;

FIG. 9 is a schematic view of the bottom view of the finger-clip oximeter of the instant invention;

FIG. 10 is a schematic view of a locking element according to the present invention;

FIG. 11 is a schematic view of the mounting structure of the locking member and the storage plate of the present invention;

FIG. 12 is a schematic view of a storage plate structure according to the present invention;

FIG. 13 is a schematic view of the structure of the retaining needle of the present invention.

In the figure: 1. detecting a machine box; 101. a detection processor; 102. mounting a supporting plate; 103. a wire winding adjusting assembly; 1031. positioning a shaft; 1032. winding a reel; 1033. a clockwork spring; 1034. binding posts; 1035. rotating the connector; 104. a limiting piece; 1041. driving a screw rod; 1042. a belt pulley set; 1043. a moving plate; 1044. positioning columns; 1045. a limit rod; 105. a first chamber; 106. a second chamber; 2. a display screen; 3. a control key; 4. a 5G signal antenna mast; 5. a sleeve; 6. an annular inflatable strap; 7. a body temperature detection patch; 8. a blood pressure detection patch; 9. regulating the trachea; 10. a storage plate; 10a, a carrier substrate; 10b, a first storage groove, 10c, a second storage groove; 10d, first-aid injection; 10e, a retention needle; 10f, positioning holes; 11. a storage chamber; 12. finger clip type oximeter; 121. a receiving groove; 122. an electrocardiograph detection patch; 123. limiting sliding grooves; 124. limiting the U-shaped frame; 13. a data line; 14. a locking piece; 141. an electromagnet; 142. a telescopic boom; 143. an arc clamping plate; 144. a guide rod; 145. moving the armature; 146. a buffer spring; 147. and adjusting the connecting rod.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 and 2, the vital sign detection device based on phase comparison in a complex indoor scene comprises a square detection box 1 and a display screen 2 embedded in the top of the detection box 1, wherein the display screen 2 can be used for touch screen control so as to perform quick operation, a control key 3 is arranged on the outer wall of the top of the detection box 1 on one side of the display screen 2, and a connector of a 5G signal antenna rod 4,5G signal antenna rod 4 for wireless transmission information is arranged in a groove on one end side wall of the detection box 1 so as to be capable of performing telescopic movement, and the connector can be rotationally adjusted after being pulled out of the groove.

In order to solve the problems that the existing vital sign detection equipment has wired detection capability and large volume, and a plurality of equipment are difficult to be unfolded and used in a complex indoor scene when being matched with the vital sign information of a patient, please refer to fig. 1-4 and 9, the following preferable technical scheme is provided:

the bottom of the detection machine box 1 is fixedly connected with a sleeve 5, the inner wall of the sleeve 5 is fixedly connected with an annular inflatable bandage 6, the inner wall of the annular inflatable bandage 6 is uniformly embedded with a body temperature detection patch 7 and a blood pressure detection patch 8 at intervals (the detection patches arranged on the inner wall of the annular inflatable bandage 6 also comprise detection pulses, detection respiration and the like), the side wall of a connecting seat of the sleeve 5 is fixedly connected with an adjusting air pipe 9, two ends of the adjusting air pipe 9 are respectively communicated with the annular inflatable bandage 6 and an adjusting air pump in the detection machine box 1, the adjusting air pump is controlled by a control key 3 to suck or inflate so as to promote the annular inflatable bandage 6 to tightly bind or loosely bind the arms of a patient, the side wall at the bottom of the detection machine box 1 is embedded with a storage plate 10 for storing emergency articles, the side wall of the detection machine box 1 above the storage plate 10 is provided with a storage cavity 11, the inside of the storage cavity 11 is movably clamped with a finger clip type oximeter 12, the bottom of a shell of the finger clip type oximeter 12 is provided with a containing groove 121, the bottom 123 of the finger clip type oximeter 12 is provided with a limiting slide groove 123 in the containing groove 121, and the two ends of the finger clip type oximeter 12 are provided with limiting slide grooves 124 in the top of the limiting slide groove 124; the electrocardiograph detection patch 122 is electrically connected with the detection processor 101 in the detection machine box 1 through the data line 13, and the detection processor 101 performs phase comparison and big data analysis on the detected and received vital sign information imaging processing.

Specifically, the arm of the patient is put on the annular inflatable bandage 6 in the sleeve 5, the sleeve 5 and the annular inflatable bandage 6 are lifted to the proper position of the arm of the patient, the control key 3 is utilized to start the adjusting air pump, the adjusting air pipe 9 is utilized to inflate the annular inflatable bandage 6 to expand the annular inflatable bandage 6, the arm of the patient is locked after the annular inflatable bandage 6 is inflated, the body temperature detection patch 7 and the blood pressure detection patch 8 are attached to the skin of the patient, the fixation of the detection machine box 1 is completed, the finger clip type oximeter 12 is pulled out from the containing cavity 11, the data wire 13 in the detection machine box 1 is pulled out, the exposed use length of the data wire 13 is increased, after the data wire 13 is lengthened, the limiting U-shaped frame 124 in the limiting chute 123 at the bottom of the finger clip type oximeter 12 is shifted to one side, the electrocardiograph detection patch 122 is taken out from the containing groove 121, the finger clip type oximeter 12 is clipped on the corresponding finger of the bound arm of the patient, the taken electrocardiograph detection patch 122 is attached to the chest of a patient, a detection processor 101 is started, the body temperature detection patch 7, the blood pressure detection patch 8, the finger-clip oximeter 12 and the electrocardiograph detection patch 122 are respectively used for detecting the body temperature, the blood pressure, the blood oxygen and the heart beat sign information of the patient, the patient sign information is transmitted to the detection processor 101, the detection processor 101 receives the detected blood oxygen, the blood pressure, the electrocardiograph and the body temperature information based on a processing chip, displays the information on a display screen 2, stores the information by a storage unit, performs big data analysis by a big data analysis module by using a 5G signal network, generates a strict recommended treatment scheme in a treatment scheme generation unit through an alarm module when the data is abnormal according to big data contrast analysis of imaging phases of the patient sign data, finally, after all data are summarized, the data are transmitted to a monitoring host by utilizing a 5G signal antenna rod 4 to be put into storage, and a plurality of real-time detection mechanisms such as a sleeve 5, a body temperature detection patch 7, a blood pressure detection patch 8, a finger-clip oximeter 12, an electrocardiograph detection patch 122 and the like are integrated to the detection machine box 1, so that the small-volume structure of the physical sign detection device is optimally realized, the problem that the conventional large-volume physical sign detection equipment is difficult to be quickly unfolded and used in a complex indoor environment is avoided, and the device is convenient and practical.

As shown in fig. 5 and fig. 7-8, the automatic recovery processing of the finger-clip oximeter 12 and the data line 13 is realized, and the following preferable technical scheme is provided:

the inside of the detection machine box 1 is divided into a first cavity 105 and a second cavity 106 from top to bottom, a detection processor 101 is arranged on the bottom plate of the first cavity 105 through a cushion block, a storage cavity 11 is arranged at the middle part of the edge of the first cavity 105, which is close to one side of the adjusting air pipe 9, an installation supporting plate 102 is fixedly connected to the inner wall of the second cavity 106 at two sides of the storage cavity 11, a winding adjusting component 103 is arranged at the top of one side of the installation supporting plate 102, the winding adjusting component 103 is used for winding and adjusting an electrocardiograph detection patch 122 and a data line 13, which is connected with the detection processor 101, of a finger-clamping oximeter 12, and a limiting part 104 is arranged on the outer wall of a port at the bottom of a winding drum 1032.

The winding adjusting component 103 comprises a positioning shaft 1031 fixedly connected to the top of the mounting support plate 102 and a winding drum 1032 movably connected to the top of the positioning shaft 1031, the winding drum 1032 is sleeved outside the positioning shaft 1031, a spring 1033 is wound on the outer wall of the positioning shaft 1031, the outer side end of the spring 1033 is fixedly connected to the inner wall of the winding drum 1032, a binding post 1034 is fixedly connected to the top of the winding drum 1032, a rotating connector 1035 is movably sleeved on the top of the binding post 1034, the rotating connector 1035 penetrates through the first cavity 105 and then is electrically connected with the detection processor 101 by a wire, after the outer wall of one side of the binding post 1035 is connected with the data wire 13, the data wire 13 penetrates through and extends to the lower side of the edge of a top plate of the winding drum and winds along the outer wall of the same, the wound data wire 13 penetrates through the winding drum to extend into the storage cavity 11 through the guide of the winding drum, the end of the data wire 13 in the storage cavity 11 is respectively electrically connected with the electrocardiograph detecting patch 122 and the finger clip type oximeter 12, the data wire 13 of the electrocardiograph detecting patch 122 and the finger clip type oximeter 12 is wrapped together through the protective leather sleeve, but the electrocardiograph detecting patch 122 and the data wire 13 of the finger clip type oximeter 12 are connected to the data wire 13 of the finger clip type oximeter, after the data wire 13 is connected to the finger clip type oxygen meter 12, the data wire 13 is exposed out of the front end of the finger clip type oxygen meter and the finger clip type oxygen meter 13, and the finger clip type oxygen meter 13 is connected to the front end of the finger clip type oxygen meter 13, and the finger clip type oxygen meter, and the data wire 13.

Specifically, when the finger clip oximeter 12 is drawn out from the accommodating cavity 11, the finger clip oximeter 12 drags the data line 13 together, the data line 13 is guided by the redirection of the reel, the winding drum 1032 is dragged to rotate based on the positioning shaft 1031, the data line 13 wound on the outer wall of the winding drum 1032 is released, the second cavity 106 and the accommodating cavity 11 are drawn out by the drag of the finger clip oximeter 12, so that the line length of the finger clip oximeter 12 can meet the use requirement of the finger clip, at this time, the electrocardiograph detection patch 122 hidden at the bottom of the finger clip oximeter 12 can be taken out for use, when the wound data line 13 is released by rotating around the winding drum 1032, the winding drum 1032 drives the spring 1033 to shrink on the outer wall of the positioning shaft 1031, after the finger clip oximeter 12 is used and is separated from a patient, the wound spring 1033 is released, the winding drum 1032 is reversely driven to reversely rotate, the data line 13 is wound again, and the finger clip oximeter 12 and the electrocardiograph detection patch 122 can be automatically wound around the finger clip oximeter 12 and the finger clip oximeter 12 for convenient data storage in the accommodating cavity 11.

In order to avoid the finger clip oximeter 12 being affected by the clockwork spring 1033 when in use, as shown in fig. 5 and 10, the following preferred technical solutions are provided:

the locking piece 14 is used for locking the data wire 13 after the data wire 13 is dragged out of the storage cavity 11 by the finger-clip type oximeter 12, the locking piece 14 comprises an electromagnet 141 fixedly connected to the lower end of a top plate of the storage cavity 11 and a telescopic boom 142 fixedly connected to the bottom of the electromagnet 141, an arc-shaped clamping plate 143 is fixedly connected to the bottom of the telescopic boom 142, the electromagnet 141 is connected with the detection processor 101 in series, a guide rod 144 is fixedly connected to one end side wall of the electromagnet 141, a movable armature 145 is movably sleeved on the outer wall of the guide rod 144, a buffer spring 146 is wound on the outer wall of the guide rod 144 between the movable armature 145 and the electromagnet 141, an adjusting connecting rod 147 is movably connected to the bottom of the movable armature 145, and the lower end of the adjusting connecting rod 147 is movably connected to the middle part of the top end of the arc-shaped clamping plate 143.

Specifically, after the finger clip type oximeter 12 is pulled out of the accommodating cavity 11 and the data wire 13 with enough using length is guaranteed, when the detection processor 101 is electrified to be used, the electromagnet 141 is electrified synchronously to obtain magnetic force, the electromagnet 141 adsorbs the moving armature 145 to slide along the guide rod 144, the moving armature 145 approaches the electromagnet 141 along the guide rod 144 and compresses the buffer spring 146, the moving armature 145 drives the adjusting connecting rod 147 to deflect when moving, the adjusting connecting rod 147 pushes the arc clamping plate 143 to stretch the telescopic boom 142 downwards after deflecting, the arc clamping plate 143 moves downwards to be attached to the bottom plate of the accommodating cavity 11 to complete positioning and clamping of the data wire 13, the data wire 13 pulled out of the accommodating cavity 11 to be used is prevented from being retracted under the influence of the spring 1033, the use stability of the finger clip type oximeter 12 is guaranteed, and after the electromagnet 141 is powered off, the arc clamping plate 143 moves upwards under the action of the buffer spring 146 to release the clamped data wire 13.

In order to ensure the safety of the first-aid articles stored in the storage board 10 and avoid the first-aid articles from falling and being damaged due to the accidental withdrawal of the storage board 10 from the detection machine box 1, referring to fig. 2, 5, 6 and 11-13, the following preferred technical schemes are provided:

the limiting piece 104 comprises a driving screw 1041 movably connected to the lower end of the top plate of the second cavity 106 and a belt pulley set 1042 fixedly connected to the outer wall of the driving screw 1041, the other belt pulley of the belt pulley set 1042 is fixedly connected to the outer wall of the bottom port of the winding drum 1032, the lower end of the driving screw 1041 penetrates through the mounting support plate 102 and extends to the lower side of the mounting support plate, the driving screw 1041 at the lower end of the mounting support plate 102 movably penetrates through the moving plate 1043, two ends of the top of the moving plate 1043 are fixedly connected with positioning columns 1044 respectively, the positioning columns 1044 are movably arranged through the moving plate 1043, two ends of the bottom of the moving plate 1043 are fixedly connected with limiting rods 1045 respectively, and the limiting rods 1045 are suspended above the storage plate 10 in the clamping grooves at the bottom of the second cavity 106.

The driving screw 1041 is arranged at the lower end of the top plate of the second chamber 106 at one side of the accommodating cavity 11 side by side, and the diameter of a belt pulley on the outer wall of the driving screw 1041 is larger than that of a belt pulley on the outer wall of the bottom port of the winding drum 1032.

The storage plate 10 comprises a support substrate 10a movably clamped in a clamping groove at the bottom of the second cavity 106, one end of the support substrate 10a extends to the outside of a through hole port on the side wall of the detection machine box 1, a first storage groove 10b and a second storage groove 10c are uniformly formed in the top of the support substrate 10a, first injection solutions 10d and retention needles 10e are respectively placed in the first storage groove 10b and the second storage groove 10c, nameplates are arranged on the inner wall of the end of the first storage groove 10b, different types of the first injection solutions 10d and storage doses are recorded on the nameplates, positioning holes 10f are respectively formed in two sides of the support substrate 10a, far away from the top of the through hole port on the side wall of the detection machine box 1, of the support substrate 10a, the positioning holes 10f are respectively arranged corresponding to limiting rods 1045, and ultraviolet sterilization lamps are arranged on the top plate of the second cavity 106.

Specifically, when the second cavity 106 and the storage cavity 11 are drawn out from the data line 13 and the winding drum 1032 is driven to rotate, the driving screw 1041 is driven to rotate around the winding drum 1032 based on the belt pulley set 1042, when the driving screw 1041 rotates, under the limitation of the mounting support plate 102 and the positioning column 1044, the driving screw 1041 drives the moving plate 1043 to move upwards to be close to the bottom plate of the mounting support plate 102, so that the limiting rods 1045 on two sides of the bottom of the moving plate 1043 move upwards to draw out the positioning holes 10f on two sides of the top of the supporting substrate 10a, at this time, a doctor can draw out the supporting substrate 10a from the through holes on the side wall of the detection machine box 1, thereby taking the first storage groove 10b and the first aid injection 10d and the needle 10e in the second storage groove 10c on the supporting substrate 10a to finish the drug injection first aid for a patient, so as to help the patient stabilize the vital signs, and after the finger-clip type oximeter 12 finishes using and automatically retracts the storage cavity 11, the driving screw 1041 is driven to rotate reversely around 1032 again, so that the limiting rods 1045 on the supporting substrate 10a are pushed to insert the supporting substrate 10a into the two sides of the automatic receiving device 10a, and the supporting substrate 10a is not fixed in the detection machine box 1, and the practical state is ensured to be in the top of the safety state.

In order to better show the vital sign detection device based on the phase comparison in the complex indoor scene, the embodiment provides a detection method of the vital sign detection device based on the phase comparison in the complex indoor scene, which comprises the following implementation steps:

step one: the sleeve 5 is sleeved on the arm of a patient, the adjusting air pump is started to be matched with the adjusting air pipe 9 to inflate the annular inflatable bandage 6, the annular inflatable bandage 6 is inflated to tighten the arm of the patient, the body temperature detection patch 7 and the blood pressure detection patch 8 embedded in the annular cavity of the annular inflatable bandage 6 are attached to the skin of the patient, and the fixing of the detection machine box 1 is completed;

step two: the finger-clip type oximeter 12 is pulled out of the accommodating cavity 11, the data wire 13 in the detection machine box 1 is pulled out by the finger-clip type oximeter 12, the data wire 13 is stretched, the limiting U-shaped frame 124 is slid open, and the electrocardiograph detection patch 122 is taken out from the accommodating groove 121 formed in the bottom of the shell of the finger-clip type oximeter 12;

step three: the finger clip type oximeter 12 is sleeved on the corresponding finger of the bound arm of the patient, and the electrocardiograph detection patch 122 taken out is applied to the chest of the patient;

step four: the detection machine box 1 is started, the body temperature detection patch 7, the blood pressure detection patch 8, the finger-clip oximeter 12 and the electrocardio detection patch 122 respectively detect the body temperature, the blood pressure, the blood oxygen and the heart beat sign information of the patient, and the patient sign information is transmitted to the detection processor 101;

step five: the detection processor 101 performs phase comparison and big data analysis on the vital sign information received by detection, alarms when the data are abnormal, gives out corresponding recommended treatment schemes, displays the data and the treatment schemes on the display screen 2 for reference of doctors, takes out the first-aid articles stored on the storage board 10 to carry out first-aid on the patients after the doctors determine the treatment schemes so as to restore vital signs of the patients, and meanwhile, the detection processor 101 automatically uploads all detection data and relevant case information to the monitoring host based on a 5G wireless network for warehousing and storage.

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

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

Claims

1. Vital sign detection device based on phase comparison under complicated indoor scene, including detecting box (1) and set up in display screen (2) at detecting box (1) top, be provided with control key (3) on the detection box (1) top outer wall of display screen (2) adjacent department, be provided with 5G signal antenna pole (4) that are used for wireless transmission information in the recess on detection box (1) one end lateral wall, its characterized in that: the utility model provides a detect quick-witted box (1) bottom fixedly connected with oversleeve (5), fixedly connected with annular inflatable bandage (6) on the inner wall of oversleeve (5), evenly the interval gomphosis is provided with body temperature detection paster (7) and blood pressure detection paster (8) on the inner wall of annular inflatable bandage (6), be provided with on the outer wall of oversleeve (5) and adjust trachea (9), adjust the inside regulation air pump of annular inflatable bandage (6) and detection machine box (1) are linked respectively at trachea (9) both ends, and the gomphosis is provided with storage board (10) of storing emergency article on the lateral wall of detection machine box (1) bottom department lateral wall, be provided with on the detection machine box (1) lateral wall of storage board (10) top and accomodate chamber (11), accomodate chamber (11) inner activity block has to indicate clamp formula oximeter (12), hold tank (121) have been seted up to the casing bottom of finger clamp formula oximeter (12), the card is accomodate electrocardio detection paster (122) in hold tank (121), electrocardio detection paster (122) and finger clamp oximeter (12) pass through data line (13) and connect detection machine (1) internal detector (101) and detect that detects that first-aid article, the phase place detector is connected, and the phase place is processed into the data and is compared and the data.

2. The vital sign detection device based on phase comparison in a complex indoor scene as set forth in claim 1, wherein: the detection processor (101) receives the detected blood oxygen, blood pressure, electrocardio and body temperature information based on the processing chip, displays the information on the display screen (2), stores the information by using the storage unit, then performs big data analysis by using the 5G signal network through the big data analysis module, performs big data comparison analysis according to the imaging phase of the patient sign data, alarms through the alarm module when the data are abnormal, generates a strict recommended treatment scheme in the treatment scheme generating unit, and finally, wirelessly transmits all the data to the monitoring host by using the 5G signal antenna rod (4) for data warehouse entry.

3. The vital sign detection device based on phase comparison in a complex indoor scene as set forth in claim 1, wherein: the detection machine box (1) is divided into a first cavity (105) and a second cavity (106) from top to bottom, a detection processor (101) is arranged on a bottom plate of the first cavity (105) through a cushion block, a storage cavity (11) is arranged at the middle part of the edge of the first cavity (105) close to one side of an adjusting air pipe (9), an installation supporting plate (102) is fixedly connected to the inner wall of the second cavity (106) at two sides of the storage cavity (11), a winding adjusting assembly (103) is arranged at the top of one side of the installation supporting plate (102), the winding adjusting assembly (103) is used for winding and adjusting an electrocardiograph detection patch (122) and a data line (13) of the finger-clamping type oximeter (12) connected with the detection processor (101), and a limiting part (104) is arranged on the outer wall of a port at the bottom of a winding drum (1032).

4. A vital sign detection device based on phase comparison in a complex indoor scenario as claimed in claim 3, wherein: the winding adjusting assembly (103) comprises a positioning shaft (1031) fixedly connected to the top of the mounting support plate (102) and a winding drum (1032) movably connected to the top of the positioning shaft (1031), the winding drum (1032) is sleeved outside the positioning shaft (1031) in a ring mode, a spring (1033) is wound on the outer wall of the positioning shaft (1031), the outer side end of the spring (1033) is fixedly connected to the inner wall of the winding drum (1032), a binding post (1034) is fixedly connected to the top of the winding drum (1032), a rotating connector (1035) is movably sleeved at the top of the binding post (1034), the rotating connector (1035) penetrates through the first cavity (105) and then is electrically connected with the detection processor (101), after the outer wall of one side of the binding post (1034) is connected with the data wire (13), the data wire (13) penetrates through and extends to the lower portion of the top plate edge of the winding drum (1032) and winds along the outer wall of the data wire, the wound data wire (13) penetrates through the winding drum to the storage cavity (11), the end of the data wire (13) in the storage cavity (11) is fixedly connected with the electrocardiograph and the oxygen indicator (122) respectively, and the end of the data wire (13) in the storage cavity (11) is far away from the top plate (14) is electrically connected with the top plate (14).

5. The vital sign detection device based on phase comparison in a complex indoor scene of claim 4, wherein: the locking piece (14) is used for locking the data wire (13) after the data wire (13) is pulled out of the storage cavity (11) by the finger-clamping oximeter (12), the locking piece (14) comprises an electromagnet (141) fixedly connected to the lower end of a top plate of the storage cavity (11) and a telescopic boom (142) fixedly connected to the bottom of the electromagnet (141), an arc clamping plate (143) is fixedly connected to the bottom of the telescopic boom (142), a guide rod (144) is fixedly connected to one end side wall of the electromagnet (141), a movable armature (145) is movably sleeved on the outer wall of the guide rod (144), a buffer spring (146) is wound on the outer wall of the guide rod (144) between the movable armature (145) and the electromagnet (141), an adjusting connecting rod (147) is movably connected to the bottom of the movable armature (145), and the lower end of the adjusting connecting rod (147) is movably connected to the middle part of the top end of the arc clamping plate (143).

6. A vital sign detection device based on phase comparison in a complex indoor scenario as claimed in claim 3, wherein: the locating part (104) is including swing joint in drive lead screw (1041) and fixed connection on drive lead screw (1041) outer wall on drive lead screw (1041) upper end, another belt pulley fixed connection of belt pulley group (1042) is on the outer wall of winding reel (1032) bottom port department, and drive lead screw (1041) lower extreme runs through installation layer board (102) and extends to its below, drive lead screw (1041) of installation layer board (102) lower extreme movably runs through movable plate (1043) setting, movable plate (1043) top both ends are fixedly connected with reference column (1044) respectively, reference column (1044) all movably run through movable plate (1043) setting, movable plate (1043) bottom both ends are fixedly connected with gag lever post (1045) respectively, store board (10) top in draw-in groove in second cavity (106) bottom department is suspended in gag lever post (1045).

7. The vital sign detection device based on phase comparison in a complex indoor scenario of claim 6, wherein: the driving screw rod (1041) is arranged at the lower end of the top plate of the second chamber (106) at one side of the containing cavity (11) side by side, and the diameter of a belt pulley on the outer wall of the driving screw rod (1041) is larger than that of a belt pulley on the outer wall of the bottom port of the winding drum (1032).

8. The vital sign detection device based on phase comparison in a complex indoor scenario of claim 6, wherein: the storage plate (10) comprises a support substrate (10 a) movably clamped in a clamping groove at the bottom of the second cavity (106), one end of the support substrate (10 a) extends to the outside of a through hole port on the side wall of the detection machine box (1), a first storage groove (10 b) and a second storage groove (10 c) are uniformly formed in the top of the support substrate (10 a), first-aid injection (10 d) and retention needles (10 e) are respectively arranged in the first storage groove (10 b) and the second storage groove (10 c), positioning holes (10 f) are respectively formed in two sides, far away from one end of the through hole port on the side wall of the detection machine box (1), of the support substrate (10 a), and the positioning holes (10 f) are respectively arranged corresponding to limiting rods (1045).

9. The vital sign detection device based on phase comparison in a complex indoor scene as set forth in claim 1, wherein: limiting sliding grooves (123) are formed in the bottoms of the shells of the finger-clip type oximeter (12) on two sides of the accommodating groove (121), two ends of the top of the limiting U-shaped frame (124) are movably clamped in the limiting sliding grooves (123), and the bottom plate of the limiting U-shaped frame (124) is attached to and lifted up an electrocardiograph detection patch (122).

10. The method for detecting the vital sign detection device based on the phase comparison in the complex indoor scene as set forth in claim 9, comprising the following steps:

s1: sleeving the sleeve (5) on the arm of a patient, starting an adjusting air pump to be matched with an adjusting air pipe (9) to inflate the annular inflatable bandage (6), and inflating and binding the annular inflatable bandage (6) to tightly bind the arm of the patient, so that the body temperature detection patch (7) and the blood pressure detection patch (8) embedded in the annular cavity of the annular inflatable bandage (6) are attached to the skin of the patient, and fixing the detection machine box (1) is completed;

s2: drawing the finger-clip type oximeter (12) out of the accommodating cavity (11), drawing out a data wire (13) in the detection machine box (1) by utilizing the finger-clip type oximeter (12), sliding off a limit U-shaped frame (124) after the data wire (13) is elongated, and taking out an electrocardiograph detection patch (122) from an accommodating groove (121) formed in the bottom of a shell of the finger-clip type oximeter (12);

s3: the finger clip type oximeter (12) is sleeved on the corresponding finger of the bound arm of the patient, and the taken electrocardiograph detection patch (122) is attached to the chest of the patient;

s4: starting a detection machine box (1), detecting body temperature, blood pressure, finger-clip type blood oxygen and heart beat sign information of a patient respectively by a body temperature detection patch (7), a blood pressure detection patch (8), a finger-clip type blood oxygen meter (12) and an electrocardio detection patch (122), and transmitting the patient sign information to a detection processor (101);

s5: the detection processor (101) performs imaging processing on the vital sign information received by detection, performs phase comparison and big data analysis, alarms when the data are abnormal, gives out corresponding recommended treatment schemes, displays the data and the treatment schemes on the display screen (2) for reference of doctors, takes out emergency articles stored on the storage board (10) to carry out emergency treatment on the patients after the doctors determine the treatment schemes so as to restore vital signs of the patients, and meanwhile, the detection processor (101) automatically uploads all detection data and relevant case information to the monitoring host based on a 5G wireless network for warehousing and storage.