CN218889652U - Wearing structure and physiological motion monitoring system - Google Patents

Abstract

The utility model discloses a wearing structure and a physiological motion monitoring system, which are convenient for monitoring radar to monitor physiological motion of a human body, and the wearing structure comprises: the wearing subassembly and the installation component that is used for installing monitoring radar, the at least part of wearing the subassembly is tensile material, and wears the subassembly and can form hollow out construction in order to allow the part health area of waiting to detect the object to wear out from hollow out construction, and the installation component is connected in wearing the subassembly, and the installation component is used for dismantling the connection monitoring radar, and is formed with a plurality of mounting positions that are used for installing monitoring radar on the installation component to make monitoring radar can dismantle the different mounting positions of installation on the installation component. The utility model can effectively solve the problem that the mounting position of the heart monitoring radar on the binding belt is fixed in the prior art, and the heart monitoring radar can not be suitable for people with different postures.

Description

Wearing structure and physiological motion monitoring system

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a wearing structure and a physiological motion monitoring system.

Background

The traditional heart beating monitoring mode is realized through a contact type vital sign monitoring system, and in order to solve the pain point of the transmission contact type vital sign monitoring system, a non-contact type vital sign monitoring technology is developed.

For example, the non-contact vital sign monitoring technology based on millimeter wave radar can accurately and efficiently realize real-time monitoring of respiration and heart rate under the condition of not directly contacting with human body, has good comfortableness, and measures the change of the radial distance from radar echo signals, so that the estimated human body respiration and heart rate is the key of radar detection vital signs, therefore, the straight line distance between the radar and the heart can influence the heart beating monitoring result to a certain extent, but due to the difference of human body states, the accurate position of the heart is not fixed, and the measuring position of the radar cannot be suitable for people with different states.

Disclosure of Invention

In view of the above, it is necessary to provide a wearing structure and a physiological motion monitoring system, which solve the technical problem that the installation position of the heart monitoring radar on the binding band is fixed in the prior art, and the system cannot be suitable for people with different postures.

In order to achieve the above technical purpose, the technical scheme of the present utility model provides a wearing structure, which is convenient for a monitoring radar to monitor physiological motion of a human body, comprising:

the wearable component is made of stretchable materials, and can form a hollowed-out structure to allow part of a body area of an object to be detected to pass out of the hollowed-out structure;

the installation component, the installation component connect in wearing the subassembly, the installation component is used for dismantling and connects monitoring radar, just be formed with a plurality of mounting positions that are used for installing monitoring radar on the installation component, so that monitoring radar can dismantle install in different mounting positions on the installation component.

In one embodiment, the mounting assembly comprises a fixed layer and a connection layer, the fixed layer is connected to the wearing assembly, the connection layer is connected to the fixed layer, and the monitoring radar is detachably connected to the connection layer or the monitoring radar is detachably arranged between the fixed layer and the connection layer.

In one embodiment, the connection layer is an adhesive layer, the adhesive layer is connected to the fixing layer, and the monitoring radar is adhered to any position on the adhesive layer.

In one embodiment, the connection layer is detachably connected with the fixing layer, the connection position is adjustable, and after the connection layer is connected with the fixing layer, the monitoring radar is clamped in a clamping gap formed between the connection layer and the fixing layer.

In one embodiment, the fixing layer is a female or male patch of a velcro patch, and the connecting layer is a male or female surface of a velcro patch that can be bonded to the fixing layer.

In one embodiment, the wearing assembly includes a main body and a first wearing member, the main body is a fabric, and the main body has an inner side and an outer side, the inner side of the main body contacts the object to be detected when the wearing assembly is worn by the object to be detected, the fixing layer is adhered to the outer side of the main body, the first wearing member is connected with the main body and configured to wear the main body to be detected, the first wearing member is formed with the hollow structure to allow a part of the body area of the object to be detected to be worn out of the hollow structure, and two parts of the first wearing member are connected with each otherEnd detachable connection _。

In one embodiment, the wearing assembly further comprises a second wearing part, one end of the second wearing part is connected to the main body, and the other end of the second wearing part is used for extending to the other side away from the human body through the shoulder of the human body and is detachably connected to the first wearing part.

In one embodiment, the first wearing member includes a wrapping band having two connection ends and at least two first bonding portions, the at least two first bonding portions are respectively connected to the connection ends of the two wrapping bands, and the two first bonding portions are detachably bonded to each other.

In one embodiment, the second wearing piece includes two shoulder straps and at least two second bonding portions, the two shoulder straps are symmetrically distributed on two sides of the fixing layer, one ends of the two shoulder straps are connected to the main body, the other ends of the shoulder straps are used for extending to the other side away from the human body through shoulders of the human body, the second bonding portions are connected to the other ends of the shoulder straps and are detachably connected to the first bonding portions, and the two second bonding portions are bonded to the same first bonding portion.

The technical scheme of the utility model also provides a physiological motion monitoring system, which comprises the wearing structure.

Compared with the prior art, the utility model has the beneficial effects that: a installation component for installing monitoring radar is through wearing the subassembly and can dismantle and connect in the human body, and dress the at least part of subassembly and be tensile material, just dress the subassembly and can form hollow out construction in order to allow the part body area of waiting to detect the object follow hollow out construction for the dress of facilitating the use person, wherein the installation component is used for realizing the monitoring radar and dresses the detachable connection between the subassembly, and is formed with a plurality of installation positions that are used for installing monitoring radar on the installation component, so that monitoring radar can be dismantled and install different installation positions on the installation component. Compared with the prior art, the monitoring radar can be conveniently installed on any installation position in the installation assembly, and is used for enabling a user to reasonably install the monitoring radar at the optimal signal position for monitoring heart beating according to needs, so that the monitoring radar can be conveniently and fixedly arranged at the apex of the heart, and the monitoring radar is suitable for the needs of people in different postures, and achieves the effect of monitoring the heart movement.

Drawings

FIG. 1 is a schematic left-hand view of a mounting assembly and a surveillance radar connection according to an embodiment of the present utility model;

FIG. 2 is a schematic right-side view of a mounting assembly and a monitoring radar connection according to an embodiment of the present utility model;

FIG. 3 is a schematic top view of a mounting assembly and a monitoring radar connection according to a first embodiment of the present utility model;

FIG. 4 is a schematic cross-sectional view of a connection between a main body, a fixing layer, an adhesive layer and a monitoring radar according to an embodiment of the present utility model;

FIG. 5 is a schematic cross-sectional view of the connection of the main body, the fixing layer, the connection layer and the monitoring radar according to another embodiment of the present utility model;

FIG. 6 is a schematic front view of a wearable assembly according to an embodiment of the present utility model;

FIG. 7 is a schematic rear view of a wearing assembly according to an embodiment of the present utility model;

fig. 8 is a schematic top view of a wearing assembly according to an embodiment of the present utility model.

Detailed Description

Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings, which form a part hereof, and together with the description serve to explain the principles of the utility model, and are not intended to limit the scope of the utility model.

Referring to fig. 1, 6 and 7, the present utility model provides a wearing structure for facilitating the monitoring of physiological movement of a human body by a monitoring radar 3, comprising: the wearing subassembly 1 and the installation component 2 that is used for installing monitoring radar 3, the at least part of wearing subassembly 1 is tensile material, and wears the subassembly 1 and can form hollow out construction 14 in order to allow the part body area of waiting to detect the object to wear out from hollow out construction 14, installation component 2 is connected in wearing subassembly 1, installation component 2 is used for dismantling the connection monitoring radar 3, and be formed with a plurality of mounted positions that are used for installing monitoring radar 3 on the installation component 2, so that monitoring radar 3 can dismantle the different mounted positions of installation on installation component 2.

In this device, a mounting assembly 2 for installing monitoring radar 3 is connected in the human body through wearing subassembly 1 can dismantle, and wear the at least part of subassembly 1 and be tensile material, just wearing subassembly 1 can form hollow out construction 14 in order to allow the part body area of waiting to detect the object follow hollow out construction 14 is worn for the convenience of customers, wherein mounting assembly 2 is used for realizing the detachable connection between monitoring radar 3 and the wearing subassembly 1, and is formed with a plurality of mounting positions that are used for installing monitoring radar 3 on the mounting assembly 2 to make monitoring radar 3 can demountable installation in the different mounting positions on mounting assembly 2.

Compared with the prior art, the monitoring radar 3 can be conveniently installed at any position in the installation assembly 2, and is used for enabling a user to reasonably install the monitoring radar 3 at the optimal signal position for monitoring heart beating according to needs, so that the monitoring radar 3 can be conveniently and fixedly arranged at the apex of a heart, and the monitoring radar is suitable for the needs of people in different postures, and achieves the effect of monitoring the heart movement.

The monitoring radar 3 for monitoring heart beating in the device is connected to the vicinity of the heart of a human body in a contactless manner to monitor heart movement of the human body, for example, a Doppler radar antenna is used for receiving heart beating signals, the heart beating signals are not contacted with skin, discomfort such as pain is avoided, the monitoring radar 3 is specifically a radar antenna, the radar antenna is an integrated module and comprises an antenna, a receiver and a transmitter, the receiver and the transmitter are connected with the antenna in different time periods, when the transmitter transmits a driving signal, the driving signal is executed by the antenna to generate a transmitting pulse wave penetrating through the human body, after the transmitting pulse wave encounters the moving heart, a reflected echo is obtained through the modulation of the heart, the reflected echo is received by the antenna to generate a receiving signal, the receiving signal is processed by the receiver to obtain a receiving echo, and finally, the heart movement characteristic is calculated based on parameters of the transmitting pulse wave and the receiving echo. The monitoring radar 3 is here a conventional arrangement known to the person skilled in the art and will not be described here too much.

As shown in fig. 1 to 5, the mounting assembly 2 includes a fixing layer 21 and a connecting layer 22, the fixing layer 21 is connected to the wearing assembly 1, the connecting layer 22 is connected to the fixing layer 21, the monitoring radar 3 is detachably connected to the connecting layer 22 or the monitoring radar 3 is detachably disposed between the fixing layer 21 and the connecting layer 22.

The monitoring radar 3 is connected with the wearing assembly 1 through the connecting layer 22 and the fixing layer 21, wherein the monitoring radar 3 can be directly detachably connected to the fixing layer 21 through the connecting layer 22, or clamped between two sides under the clamping effect formed by the fixing layer 21 and the connecting layer 22, so that the connection position of the monitoring radar 3 can be conveniently adjusted.

As an embodiment, as shown in fig. 5, the connection layer 22 is an adhesive layer 23, the adhesive layer 23 is connected to the fixing layer 21, and the monitoring radar 3 is adhered to any position on the adhesive layer 23.

The adhesive layer 23 may be an adhesive layer 23, such as a double sided tape, directly adhering one surface of the adhesive layer 23 to the fixing layer 21 and the other surface to the monitoring radar 3, and will not be described in detail herein.

As another embodiment, as shown in fig. 1 to 4, the connection layer 22 is detachably connected to the fixing layer 21, and the connection position is adjustable, and after the connection layer 22 is connected to the fixing layer 21, the monitoring radar 3 is clamped in a clamping gap 24 formed between the connection layer 22 and the fixing layer 21.

Specifically, the connection layer 22 in this device bonds or the joint with fixed layer 21, and the detachable connection of connection layer 22 and fixed layer 21 is with the centre gripping gap 24 of monitoring radar 3 centre gripping between fixed layer 21 and connection layer 22 simultaneously to form the fixed to monitoring radar 3 position, avoid monitoring radar 3 to take place the slip with fixed layer 21 and connection layer 22 relatively.

In a preferred embodiment, the fixing layer 21 is a female or male velcro patch, and the connecting layer 22 is a male or female velcro patch that can be adhered to the fixing layer 21.

As shown in fig. 1 to 4, the connection layer 22 with the male or female magic tape covers the monitoring radar 3, and the part of the connection layer 22 protruding from the monitoring radar 3 is matched and adhered with the female or male tape on the fixing layer 21, so as to realize detachable connection.

Specifically, the installation component 2 still includes pencil cover 25, in the centre gripping clearance 24 between fixed layer 21 and tie-in layer 22 is connected to pencil cover 25's one end, the other end is arranged in installation component 2 outward, and the wiring hole that is used for the line of walking is seted up along its length direction to pencil cover 25, the electric wire passes pencil cover 25 and sets up the monitoring radar 3 looks electric connection in centre gripping clearance 24, here can also bury the line with the electric wire in wearing subassembly 1, avoid exposing of electric wire, do not make too much here and describe.

As shown in fig. 6 to 8, the wearing assembly 1 includes a main body 11 and a first wearing member 12, the main body 11 is a fabric, the main body 11 has an inner side and an outer side, the inner side of the main body 11 contacts with an object to be detected when the wearing assembly 1 is worn by the object to be detected, the fixing layer 21 detachably mounts the monitoring radar 3 on the outer side of the main body 11, the first wearing member 12 is connected with the main body 11 and configured to wear the main body 11 on the object to be detected, the first wearing member 12 is formed with a hollow structure to allow a part of a body area of the object to be detected to be worn out from the hollow structure, and two ends of the first wearing member 12 are detachably connected _。

The monitoring radar 3 is connected on the main part 11 through the fixed layer 21, and the both ends of first wearing piece 12 can be dismantled and be connected, and be formed with hollow out construction, the configuration is used for encircling human truck, be used for realizing conveniently wearing main part 11 and monitoring radar 3 on the human body, concrete, the lateral surface of main part 11 is the matte that is provided with the napping cloth, the lateral surface of fixed layer 21 relative main part 11 is provided with the magic subsides face of colluding of cooperation matte, and fixed layer 21 bonds on the lateral surface of main part 11, still can realize bonding through other modes between the lateral surface of here fixed layer 21 and main part 11, do not make excessive description here, the medial surface of main part 11 is provided with the sponge, the sponge is contacted with the human body, avoid monitoring radar 3 and human skin direct contact, uncomfortable feeling such as no pain.

As an embodiment, as shown in fig. 6 to 8, the first wearing part 12 includes a wrapping band 121 and at least two first adhesive parts 122, the wrapping band 121 has two connection ends, the at least two first adhesive parts 122 are respectively connected to the connection ends of the two wrapping bands 121, and the two first adhesive parts 122 are detachably adhered.

The two ends of the endless belt 121 are bonded to each other via the first bonding portion 122.

Specifically, in the device, the first bonding portion 122 is a magic tape with a front surface and a back surface respectively being a male surface or a female surface, and the first bonding portion 122 disposed at one end of the circumferential band 121 is matched with the first bonding portion 122 disposed at the other end of the circumferential band 121, so that the one end of the circumferential band 121 or the other end of the circumferential band 121 can be bonded with each other, and the magic tape has a conventional arrangement of the male surface and the female surface known to those skilled in the art, and will not be repeated.

As an embodiment, as shown in fig. 6 to 8, the wearing assembly 1 further includes a second wearing member 13, one end of the second wearing member 13 is connected to the main body 11, and the other end of the second wearing member 13 is configured to extend to the other side facing away from the human body through the shoulder of the human body and is detachably connected to the encircling band 121 or the first adhesive part 122.

The two second wearing parts 13 are connected to the fixing layer 21 and can be detachably connected with the surrounding belt 121 or the first bonding part 122, so that the main body 11 and the monitoring radar 3 can be worn on the trunk of a human body in cooperation with the surrounding belt 121, and quick wearing and the like can be realized.

In a preferred embodiment, the second wearing piece 13 includes two shoulder straps 131 and at least two second bonding portions 132, the two shoulder straps 131 are symmetrically distributed on two sides of the main body 11, one ends of the two shoulder straps 131 are connected to the main body 11, the other ends of the shoulder straps 131 are used for extending to the other side away from the human body through the shoulders of the human body, the second bonding portions 132 are connected to the other ends of the shoulder straps 131 and detachably connected to the first bonding portions 122, and the two second bonding portions 132 are bonded to the same first bonding portion 122.

One end of the shoulder strap 131 is connected to the fixing layer 21, and the other end is detachably connected to the first adhesive part 122 via the second adhesive part 132, so that the shoulder strap 131 is convenient to wear.

Specifically, the second bonding portion 132 in the present device is also a magic tape, and the second bonding portion 132 is bonded with the female surface or the male surface of the magic tape matched with the first bonding portion 122.

Wherein as another preferred embodiment the shoulder straps 131 are telescopic in length.

The shoulder straps 131 are elastic and have a stretchable length, so that the comfort of the wearer when worn can be improved.

Specifically, the materials surrounding the strap 121 and the shoulder strap 131 in the device are biocompatible, and the use of other consumable materials such as electrode plates is not required, and the materials surrounding the strap 121 and the shoulder strap 131 are not interfered by a high magnetic field and are not magnetic, and are not described in detail herein.

The utility model also provides a physiological activity monitoring system which comprises the wearing structure.

Specifically, the wearing structure of the device can be used for wearing Doppler radars for monitoring heart beating of a human body, and also can be respiration monitoring equipment for monitoring physiological movements such as respiration of the human body, and the like, and the wearing structure is not repeated herein.

The specific workflow of the present utility model is that the mounting assembly 2 for mounting the monitoring radar 3 is detachably connected to a human body through the wearing assembly 1, at least part of the wearing assembly 1 is made of stretchable material, and the wearing assembly 1 can form a hollowed structure 14 to allow a part of a body area of an object to be detected to pass out of the hollowed structure 14, so as to facilitate the wearing of a user, wherein the mounting assembly 2 is used for realizing the detachable connection between the monitoring radar 3 and the wearing assembly 1, and a plurality of mounting positions for mounting the monitoring radar 3 are formed on the mounting assembly 2, so that the monitoring radar 3 can be detachably mounted at different mounting positions on the mounting assembly 2. Compared with the prior art, the monitoring radar 3 can be conveniently installed at any position in the installation assembly 2, and is used for enabling a user to reasonably install the monitoring radar 3 at the optimal signal position for monitoring heart beating according to needs, so that the monitoring radar 3 can be conveniently and fixedly arranged at the apex of a heart, and the monitoring radar is suitable for the needs of people in different postures, and achieves the effect of monitoring the heart movement.

When the portable electronic device is used, a user wears the encircling band 121 on the chest area of the human body trunk, then adjusts the main body 11 to be positioned at the front position of the human body trunk, enables the coverage area of the main body 11 to approximately correspond to the vicinity of the chest of the human body, adjusts the bonding position of the magic tape positioned at the back of the human body, enables two first bonding parts 122 at two ends of the encircling band 121 to be bonded so as to preliminarily fix the position of the main body 11 relative to the human body, then respectively bypasses the shoulders of the human body, enables the second bonding parts 132 to be bonded with the first bonding parts 122 positioned at the back of the human body trunk, thereby secondarily fixing the position of the main body 11 relative to the human body, finally bonds one or more monitoring radars 3 in a clamping gap between the fixing layer 21 and the connecting layer 22, bonds the fixing layer on the outer side of the main body, moves the chest of the main body according to different positions of a single radar antenna to find the optimal heart beat signal position, or is fixed near the chest of a patient by a plurality of radar signals, and the best recorded radar signals are selected according to the monitored data of the radar signals.

Through above-mentioned structure, can be used for solving among the prior art because of the fixed in the mounted position of heart monitoring radar 3 on the tie, can't be applicable to the crowd's of different physique problem.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. A wearing structure for facilitating monitoring of physiological movements of a human body by a monitoring radar (3), comprising:

the wearable component (1), at least part of the wearable component (1) is made of stretchable material, and the wearable component (1) can form a hollowed-out structure (14) so as to allow part of a body area of an object to be detected to pass out of the hollowed-out structure (14);

installation component (2), installation component (2) connect in dress subassembly (1), installation component (2) are used for dismantling connection monitoring radar (3), just be formed with a plurality of mounted positions that are used for installing monitoring radar (3) on installation component (2), so that monitoring radar (3) can dismantle install in different mounted positions on installation component (2).

2. The wearing structure according to claim 1, characterized in that the mounting assembly (2) comprises a fixing layer (21) and a connecting layer (22), the fixing layer being connected to the wearing assembly (1), the connecting layer (22) being connected to the fixing layer (21), the monitoring radar (3) being detachably connected to the connecting layer (22) or the monitoring radar (3) being detachably arranged between the fixing layer (21) and the connecting layer (22).

3. The wearing structure according to claim 2, wherein the connection layer (22) is an adhesive layer (23), the adhesive layer (23) is connected to the fixing layer (21), and the monitoring radar (3) is adhered to any position on the adhesive layer (23).

4. The wearing structure according to claim 2, characterized in that the connection layer (22) is detachably connected with the fixing layer (21) and the connection position is adjustable, and the monitoring radar (3) is clamped in a clamping gap (24) formed between the connection layer (22) and the fixing layer (21) after the connection layer (22) is connected with the fixing layer (21).

5. The wearing structure according to claim 4, characterized in that the fixing layer (21) is a female or male patch of a velcro patch, and the connecting layer (22) is a velcro male or female patch that can be bonded to the fixing layer (21).

6. The wearing structure according to any one of claims 2 to 5, wherein the wearing assembly (1) comprises a main body (11) and a first wearing piece (12), the main body (11) being a fabricAnd main part (11) have medial surface and lateral surface, the medial surface of main part (11) is when dress subassembly (1) is dressed by the object of waiting to detect and is waited to detect the object contact, fixed layer (21) bond in the lateral surface of main part (11), first wearing piece (12) with the bulk phase is connected, and is configured for will main part (11) are dressed to wait to detect the object, first wearing piece (12) are formed with hollow out construction (14) in order to allow the part body area of waiting to detect the object to wear out from hollow out construction (14), just the both ends of first wearing piece (12) can dismantle the connection _。

7. The wearing structure according to claim 6, wherein the wearing assembly (1) further comprises a second wearing piece (13), one end of the second wearing piece (13) being connected to the main body (11), the other end of the second wearing piece (13) being adapted to extend to the other side facing away from the human body through the shoulder of the human body and being detachably connected to the first wearing piece (12).

8. The wearing structure according to claim 7, wherein the first wearing member (12) includes a surrounding band (121) and at least two first adhesive portions (122), the surrounding band (121) has two connection ends, at least two first adhesive portions (122) are respectively connected to the connection ends of the two surrounding bands (121), and the two first adhesive portions (122) are detachably adhered to each other.

9. The wearing structure according to claim 8, wherein the second wearing piece (13) includes two shoulder straps (131) and at least two second bonding portions (132), the two shoulder straps (131) are symmetrically distributed on both sides of the main body (11) and are telescopic, one ends of the two shoulder straps (131) are both connected to the main body (11), the other ends of the shoulder straps (131) are used for extending to the other side away from the human body through the shoulders of the human body, the second bonding portions (132) are connected to the other ends of the shoulder straps (131) and are detachably connected to the first bonding portions (122), and the two second bonding portions (132) are bonded to the same first bonding portion (122).

10. A physiological exercise monitoring system comprising the wearable structure of any of claims 1 to 9.

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