CN216907959U - Multifunctional heart rate detection device - Google Patents

Abstract

The utility model relates to a multifunctional heart rate detection device which comprises a lead unit, a detection unit, a hanging unit, a fixing unit and a containing unit, wherein the lead unit is detachably and electrically connected with the detection unit, the hanging unit and the fixing unit are respectively detachably connected with the detection unit, and the containing unit is used for containing the lead unit, the detection unit, the hanging unit and the fixing unit. The multifunctional heart rate detection device has the advantages that the multifunctional heart rate detection device is small in size and convenient to carry, so that a person to be detected can wear the device at any time and can perform real-time detection to obtain heart rate data; the person to be detected can wear the multifunctional heart rate detection device to move around, and the problem that the person to be detected can only be limited to a single position is solved; the detection unit is effectively fixed by the suspension unit and the fixing unit, so that the situation that the detection unit is displaced to damage the detected person when the detected person moves is avoided; the storage unit is used for storing other units, so that the loss problem is avoided.

Description

Multifunctional heart rate detection device

Technical Field

The utility model relates to the technical field of heart rate detection, in particular to a multifunctional heart rate detection device.

Background

Under the loading state of nuclide myocardial perfusion imaging drugs, loading drug ATP can induce patients to have myocardial ischemia, and the patients mostly have chest distress, angina, accelerated heartbeat and other complications, so that the heart rate information of the patients needs to be monitored in real time.

At present, research shows that heart rate reserve and heart rate variability of patients can reflect the functions of heart autonomic nerves under exercise/drug stimulation, the higher the heart rate reserve/heart rate variability is, the stronger cardiac compliance is prompted, risk degree stratification can be carried out on patients with coronary heart disease, and meanwhile, the heart rate reserve/heart rate variability can be used as a new index for predicting all-cause mortality and cardiovascular risk events.

However, in daily clinical work, the following problems exist:

the device for monitoring the heart rate of a patient in a load test is a conventional electrocardiogram monitoring device, and cannot realize real-time acquisition of heart rate storage and heart rate recovery;

the stress test lasts only 6 minutes, and the device for analyzing heart rate variability in clinical routine work is a 24-hour electrocardiogram, and further optimization of device acquisition/analysis performance is required.

At present, no effective solution is provided for the problems that the heart rate cannot be acquired in real time, the long-time load test result cannot be acquired and the like in the related technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multifunctional heart rate detection device aiming at the defects in the prior art, and aims to solve the problems that the heart rate cannot be acquired in real time, long-time load test results cannot be acquired and the like in the related art.

In order to achieve the purpose, the utility model adopts the technical scheme that:

a multi-functional heart rate detecting device, comprising:

the device comprises a lead unit, a control unit and a display unit, wherein one end of the lead unit is removably arranged at the chest position of a detected person and is used for acquiring the detection value of the detected person;

the detection unit is connected with the other end of the lead unit and used for acquiring a detection value transmitted by the lead unit and processing the detection value to acquire heart rate data;

a hanging unit detachably connected with the detection unit;

the fixing units are detachably arranged on two sides of the detection unit and used for fixing the detection unit on the front side of the trunk, the left side of the trunk or the right side of the trunk of the detected person;

a housing unit for housing the lead unit, the detection unit, the hanging unit, and the fixing unit.

In some of these embodiments, the lead unit comprises:

a joint element detachably connected with the detection unit;

a lead wire element, a first end of the lead wire element connected with the tab element;

an electrode element connected with the second end of the lead wire element.

In some of these embodiments, the detection unit comprises:

a housing member;

a display element embedded in a surface of the case element;

the key element is embedded on the surface of the shell element;

an interface element disposed on a surface of the housing element and connected to the lead unit;

the control element is arranged inside the shell element and is respectively connected with the display element, the key element and the interface element;

a memory element disposed inside the case element and connected to the control element;

a power supply element disposed inside the case element and connected with the control element.

In some of these embodiments, the detection unit further comprises:

a communication element disposed inside the case element and connected with the control element.

In some of these embodiments, the detection unit further comprises:

a first connecting member provided at an upper side of the case member and connected with the suspension unit;

second connection members provided at left and right sides of the case member and connected with the fixing unit.

In some of these embodiments, the detection unit further comprises:

an alarm element disposed on the housing element and connected to the control element.

In some of these embodiments, the detection unit further comprises:

a buffer member disposed at a rear side of the case member.

In some of these embodiments, the number of the connector elements is several, the number of the lead line elements is several, the number of the electrode elements is several, and the lead line elements correspond to the electrode elements one to one;

wherein the connector element corresponds to at least one of the lead line elements.

In some of these embodiments, the suspension unit comprises:

a suspension element;

and the third connecting element is arranged on one side of the suspension element and is detachably connected with the detection unit.

In some of these embodiments, the third connecting element is connected to the first connecting element.

In some of these embodiments, the fixing unit comprises:

and the first end of the elastic belt element is connected with the left side of the detection unit, and the second end of the elastic belt element is connected with the right side of the detection unit.

In some of these embodiments, a first end of the elastic band element is connected to the second connecting element on the left side of the detection unit and a second end of the elastic band element is connected to the second connecting element on the right side of the detection unit.

In some of these embodiments, the fixing unit further comprises:

the fourth connecting element is arranged on one side of the second end of the elastic band element and used for self-connecting the elastic band element under the condition that the second end of the elastic band element is turned over.

In some of these embodiments, the receiving unit comprises;

a cartridge element;

a first cavity element disposed inside the case element for placement of the lead unit;

a second chamber element disposed inside the case element for placing the detection unit;

a third cavity element disposed inside the box element for placing the hanging unit and the fixing unit.

In some of these embodiments, further comprising:

a cleaning unit for cleaning the lead unit and the chest of the detected person.

In some of these embodiments, the cleaning unit comprises:

a cleaning element for cleaning the lead unit and the chest of the subject;

a protective element disposed over the cleaning element.

In some of these embodiments, the receiving unit further comprises:

a fourth chamber element disposed inside the box element for placing the cleaning unit.

In some of these embodiments, further comprising:

and the terminal unit is in communication connection with the detection unit and is used for acquiring the detection value transmitted by the detection unit.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical effects:

according to the multifunctional heart rate detection device, the multifunctional heart rate detection device is small in size and convenient to carry, so that a person to be detected can wear the device at any time and can perform real-time detection to obtain heart rate data; the person to be detected can wear the multifunctional heart rate detection device to move around, and the problem that the person to be detected can only be limited to a single position is solved; the detection unit is effectively fixed by the suspension unit and the fixing unit, so that the situation that the detection unit is displaced to damage the detected person when the detected person moves is avoided; the storage unit is used for storing other units, so that the loss problem is avoided.

Drawings

Fig. 1 is a schematic diagram (one) of a multifunctional heart rate detection device according to an embodiment of the utility model;

FIG. 2 is a schematic diagram of a lead unit according to an embodiment of the utility model;

FIG. 3 is a schematic diagram of a detection cell according to an embodiment of the utility model;

FIG. 4 is a block diagram of the electrical connections of a detection unit according to an embodiment of the utility model;

FIG. 5 is a schematic view of a suspension unit according to an embodiment of the utility model;

FIG. 6 is a schematic view of a fixing unit according to an embodiment of the present invention;

FIG. 7 is a schematic view (one) of a receiving unit according to an embodiment of the present invention;

fig. 8 is a schematic view of a usage state of the multifunctional heart rate detecting device according to the embodiment of the utility model;

fig. 9 is a schematic diagram (two) of a multifunctional heart rate detection device according to an embodiment of the utility model;

fig. 10 is a schematic view (two) of a storage unit according to an embodiment of the present invention;

FIG. 11 is a schematic view of a cleaning unit according to an embodiment of the utility model;

fig. 12 is a schematic diagram (iii) of a multifunctional heart rate detection device according to an embodiment of the utility model.

Wherein the reference numerals are: 100. a lead unit; 101. a joint element; 102. a lead line element; 103. an electrode element;

200. a detection unit; 201. a housing member; 202. a display element; 203. a key element; 204. an interface element; 205. a control element; 206. a storage element; 207. a power supply element; 208. a first connecting element; 209. a second connecting element; 210. a communication element; 211. an alarm element; 212. a buffer element;

300. a suspension unit; 301. a suspension element; 302. a third connecting element;

400. a fixing unit; 401. an elastic band element; 402. a fourth connecting element;

500. a storage unit; 501. a cartridge element; 502. a first lumen element; 503. a second chamber element; 504. a third chamber element; 505. a fourth chamber element;

600. a cleaning unit; 601. a cleaning element; 602. a protective element;

700. and a terminal unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The utility model is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

Example 1

This embodiment is an exemplary embodiment of the present invention, and as shown in fig. 1, a multifunctional heart rate detecting apparatus includes a lead unit 100, a detecting unit 200, a hanging unit 300, a fixing unit 400, and a receiving unit 500. Wherein, the first end of the lead unit 100 is removably arranged at the chest position of the detected person for obtaining the detection value of the detected person; the detection unit 200 is connected to the second end of the lead unit 100, and is configured to acquire a detection value transmitted by the lead unit 100, and perform calculation processing on the detection value to obtain heart rate data corresponding to the detection value; the hanging unit 300 is detachably connected with the detection unit 200, the hanging unit 300 is removably hung on the neck of the detected person, and the detection unit 200 is convenient to be placed on the front side or the left side or the right side of the torso of the detected person; the fixing unit 400 is detachably connected with the detecting unit 200, the fixing unit 400 is removably fixed on the chest, the abdomen and the waist of the detected person, and the detecting unit 200 is conveniently placed on the front side or the left side or the right side of the trunk of the detected person; the storage unit 500 is used for storing the lead unit 100, the detection unit 200, the hanging unit 300 and the fixing unit 400, so that the storage unit is convenient to arrange and use quickly, and the problems of searching and the like during use are prevented.

As shown in fig. 2, lead unit 100 includes a tab element 101, a lead wire element 102, and an electrode element 103. The joint element 101 is used for connecting with the detection unit 200, the first end of the lead wire element 102 is connected with the joint element 101, and the electrode element 103 is connected with the second end of the lead wire element 102. Specifically, the electrode element 103 is removably disposed on the chest of the subject to acquire an electrical signal and transmit the electrical signal to the detection unit 200 via the lead wire element 102 and the joint element 101 in sequence.

Wherein, the number of the joint elements 101 is at least one, the number of the lead wire elements 102 is at least one, the number of the electrode elements 103 is at least one, and the lead wire elements 102 and the electrode elements 103 are in one-to-one correspondence.

In some of these embodiments, the tab elements 101 correspond to the lead elements 102 in a one-to-one manner, i.e. the number of tab elements 101 is the same as the number of lead elements 102, and each tab element 101 is connected to only one lead element 102.

In some embodiments, the tab elements 101 and the lead line elements 102 correspond to each other in a one-to-many manner, i.e., the number of the tab elements 101 is smaller than the number of the lead line elements 102, and each tab element 101 is connected to at least two lead line elements 102.

Specifically, two lead wire elements 102 are taken as an example for explanation. The number of the joint elements 101 is two, and each joint element 101 is connected to a corresponding lead line element 102. Alternatively, the number of the joint member 101 is one, and the joint member 101 is connected to the two lead wire members 102, respectively.

As shown in fig. 3 to 4, the detection unit 200 includes a housing member 201, a display member 202, a key member 203, an interface member 204, a control member 205, a storage member 206, and a power source member 207. The display element 202 is embedded in the surface (front surface) of the shell element 201 and is used for displaying working parameters and heart rate data; the key member 203 is embedded in the surface (front surface) of the case member 201 for setting the operating parameters; an interface element 204 is provided on the surface (lower surface) of the housing element 201 for connection with the lead unit 100; the control element 205 is disposed inside the casing element 201, and is respectively connected (electrically connected) with the display element 202, the key element 203, and the interface element 204, and is configured to obtain the working parameters transmitted by the key element 203, obtain the detection values (electrical signals) transmitted by the lead unit 100 from the interface element 204, and display the working parameters and the heart rate data on the display element 202 after processing; the storage element 206 is disposed inside the shell element 201, and is connected (electrically connected) to the control element 205 for storing the operating parameters and the heart rate data; the power supply element 207 is disposed inside the casing element 201, and is connected (electrically connected) to the control element 205 for supplying power to the control element 205.

The display element 202 is a display screen, including but not limited to an LCD display screen, an OLED display screen, and an electronic ink screen.

In some of these embodiments, the display element 202 is a touchable display screen.

The key elements 203 are several, including a switch key, an adjusting key (an up key, a down key), and a confirm/end key.

The interface element 204 is adapted to removably connect (e.g. mate) with the connector element 101 of the lead unit 100.

The number of the interface elements 204 is at least one, and is the same as that of the joint elements 101.

The control element 205 is any one of a motherboard, a circuit board, an MCU, and a raspberry pi.

The storage element 206 is integrated with the control element 205 and has a transmission interface for transmitting data to the outside.

In some of these embodiments, the storage element 206 is an internal memory, and data is transferred out by connecting to data lines.

In some embodiments, the storage element 206 is a storage interface for connecting with an external memory, that is, the external memory performs data transmission by plugging and unplugging. Specifically, the external memory is inserted into the storage interface, data is acquired, then the external memory is removed, and the external memory is connected with the computer, so that the data can be acquired. The external memory is a memory card.

The power supply element 207 includes a removable power supply, a non-removable power supply. In the case that the power supply element 207 is a detachable power supply, the detection unit 200 can be ensured to work all the time by replacing the detachable power supply; in the case where the power supply element 207 is a non-detachable power supply, the power supply element 207 needs to be charged to meet the operation requirement.

Further, the detection unit 200 further comprises a first connection element 208 and a second connection element 209. Wherein, the first connecting member 208 is provided on the upper side (upper surface) of the case member 201 for detachable connection with the hanging unit 300; second connection members 209 are provided at left and right sides of the case member 201 for detachable connection with the fixing unit 400.

The first coupling member 208 is a coupling ring and the suspension unit 300 is snap-fit connected to the first coupling member 208.

In some of these embodiments, the first connection element 208 is a rotatable connection ring, which can reduce the volume of the detection unit 200 when not in use.

The second connecting element 209 is a connecting ring or a connecting buckle (such as a Chinese character 'ri' buckle) or a connecting groove, and the fixing unit 400 and the second connecting element 209 are connected in a locking manner or a clamping groove manner.

In some embodiments, the second connecting element 209 is a combination of a connecting slot and a connecting buckle, the connecting slot is disposed on the left side of the housing element 201, the connecting buckle is disposed on the right side of the housing element 201, the connecting slot is connected to the first end of the fixing unit 400 in a slot-in-slot manner, and the connecting buckle is connected to the second end of the fixing unit 400 in a winding manner.

Further, the detecting unit 200 further includes a communication element 210, the communication element 210 is disposed inside the shell element 201 and connected (electrically connected) with the control element 205, for transmitting the operating parameters and the heart rate data to other devices, including but not limited to a mobile phone, a computer, a bracelet, a watch, etc., in a wireless transmission manner.

Wherein the communication element 210 is arranged integrally with the control element 205.

In some of these embodiments, the communication element 210 is a communication sensor, including but not limited to a WiFi sensor, a bluetooth sensor.

Further, the detection unit 200 further includes an alarm element 211, and the alarm element 211 is disposed inside and/or outside the housing element 201, and is connected (electrically connected) to the control element 205 for alarming when the heart rate data is abnormal.

The alarm element 211 may be a sound element and/or a light element, and is configured to emit an alarm sound and/or an alarm light when the heart rate data is abnormal.

In some of these embodiments, the alarm element 211 is a buzzer.

Further, the detecting unit 200 further comprises a buffer element 212, and the buffer element 212 is disposed at the rear side (rear surface) of the shell element 201 and is used for forming a buffer between the detecting unit 200 and the skin surface of the detected person to prevent the detecting unit 200 from being pressed to damage the skin.

In some of these embodiments, the cushioning element 212 is a cushion, including but not limited to a silicone cushion, a rubber cushion, a sponge cushion.

As shown in fig. 5, the suspension unit 300 includes a suspension member 301 and a third connection member 302. Wherein, the hanging element 301 can be removably hung on the neck of the detected person; the third connecting element 302 is disposed at one side of the hanging element 301 for detachable connection with the first connecting element 208 of the detecting unit 200.

Wherein, the hanging element 301 is an elastic hanging rope, such as a silica gel rope or a rubber rope.

The third connecting element 302 is a latch with a locking function, and includes a locking hook and a limiting stopper, one end of the limiting stopper is rotatably connected to one end of the opening of the locking hook, and the other end of the limiting stopper contacts with the other end of the opening of the locking hook, so as to prevent the third connecting element 302 from being separated from the first connecting element 208.

As shown in fig. 6, the fixing unit 400 includes an elastic band member 401, a first end of the elastic band member 401 is connected to the left side of the sensing unit 200, and a second end of the elastic band member 401 is connected to the right side of the sensing unit 200.

Specifically, a first end of the elastic band member 401 is detachably connected to the second connection member 209 located at the left side of the sensing unit 200, and a second end of the elastic band member 401 is detachably connected to the second connection member 209 located at the right side of the sensing unit 200. Wherein, the detachable connection comprises but not absorption and snap-in connection, winding connection.

In some of these embodiments, the elastic band element 401 is an elastic band.

In some of these embodiments, both ends of the elastic band element 401 may be provided with connection tabs for mating with connection tabs.

Further, in order to reduce the damage of the pressure generated by the elastic band element 401 during the fixing process to the skin of the detected person, the fixing unit 400 further includes a fourth connecting element 402, wherein the fourth connecting element 402 is disposed at one side of the elastic band element 401 and is used for self-connecting the elastic band element 401 when the second end of the elastic band element 401 is folded after passing through the corresponding second connecting element 209.

In particular, the fourth connecting element 402 is a snap patch.

The fourth connecting element 402 is provided to better adjust the tightness of the elastic band element 401, so as to be suitable for different body types of detected persons.

As shown in fig. 7, the receiving unit 500 includes a box member 501, a first cavity member 502, a second cavity member 503, and a third cavity member 504. Wherein the first cavity element 502 is arranged inside the box element 501 for placing the lead unit 100; the second cavity member 503 is disposed inside the box member 501 for placing the detecting unit 200; the third chamber member 504 is provided inside the box member 501 for placing the hanging unit 300 and the fixing unit 400.

The box element 501 includes a box cover and a box body, the box cover is rotatably connected with the box body, and the first cavity element 502, the second cavity element 503 and the third cavity element 504 are disposed inside the box body.

The second cavity component 503 is disposed on one side of the first cavity component 502, and the third cavity component 504 is disposed on one side of the second cavity component 503. The first lumen element 502 and the third lumen element 504 may be located on the same side or may be located on different sides.

The method of use of this example is as follows:

taking out the lead unit 100, the detecting unit 200, the hanging unit 300 and the fixing unit 400 from the housing unit 500;

connecting the third connecting member 302 of the suspension unit 300 with the first connecting member 208 of the sensing unit 200;

connecting a first end of the elastic band member 401 of the fixing unit 400 with the second connecting member 209 of the left side of the sensing unit 200;

the hanging element 301 of the hung unit 300 is hung on the neck of the detected person;

the second end of the elastic belt element 401 is connected with the second connecting element 209 at the right side of the detection unit 200 after passing around the back of the detected person, so as to complete the fixation of the detection unit 200;

connecting the connector element 101 of the lead unit 100 with the interface element 204 of the detection unit 200;

the electrode elements 103 of the lead unit 100 are attached to the chest of the person to be tested, and generally 2-3 electrode elements 103 are used, as shown in fig. 8;

starting a key element 203 of the detection unit 200 to input working parameters and start working;

the display element 202 of the detection unit 200 displays the operating parameters and the heart rate data processed by the control element 205 in real time.

The multifunctional heart rate detection device has the advantages that the multifunctional heart rate detection device is small in size and convenient to carry, so that a person to be detected can wear the device at any time and can detect in real time to acquire heart rate data; the person to be detected can wear the multifunctional heart rate detection device to move around, and the problem that the person to be detected can only be limited to a single position is solved; the detection unit is effectively fixed by the suspension unit and the fixing unit, so that the detection unit is prevented from being displaced to damage a detected person when the detected person moves; the storage unit is used for storing other units, so that the loss problem is avoided.

Example 2

This embodiment is a modification of embodiment 1.

As shown in fig. 9, a multifunctional heart rate detecting device includes a lead unit 100, a detecting unit 200, a hanging unit 300, a fixing unit 400, a containing unit 500 and a cleaning unit 600. Wherein, the first end of the lead unit 100 is removably arranged at the chest position of the detected person for obtaining the detection value of the detected person; the detection unit 200 is connected to the second end of the lead unit 100, and is configured to acquire a detection value transmitted by the lead unit 100, and perform calculation processing on the detection value to obtain heart rate data corresponding to the detection value; the hanging unit 300 is detachably connected with the detection unit 200, the hanging unit 300 is removably hung on the neck of the detected person, and the detection unit 200 is convenient to be placed on the front side or the left side or the right side of the torso of the detected person; the fixing unit 400 is detachably connected with the detecting unit 200, the fixing unit 400 is removably fixed on the chest, the abdomen and the waist of the detected person, and the detecting unit 200 is conveniently placed on the front side or the left side or the right side of the torso of the detected person; the storage unit 500 is used for storing the lead unit 100, the detection unit 200, the hanging unit 300 and the fixing unit 400, so that the storage unit is convenient to arrange and use quickly, and the problems of searching and the like during use are prevented; the cleaning unit 600 is used for cleaning and disinfecting the lead unit 100 and the chest position of the detected person.

The structure and connection manner of the lead unit 100, the detection unit 200, the suspension unit 300, and the fixing unit 400 are substantially the same as those of embodiment 1, and are not described herein again.

As shown in fig. 10, the receiving unit 500 includes a box member 501, a first cavity member 502, a second cavity member 503, a third cavity member 504, and a fourth cavity member 505. Wherein the first cavity element 502 is arranged inside the box element 501 for placing the lead unit 100; the second cavity member 503 is disposed inside the box member 501 for placing the detecting unit 200; the third chamber member 504 is provided inside the box member 501 for placing the hanging unit 300 and the fixing unit 400; the fourth chamber member 505 is provided inside the cartridge member 501 for housing the cleaning unit 600.

The structure and connection manner of the box element 501, the first cavity element 502, the second cavity element 503 and the third cavity element 504 are substantially the same as those in embodiment 1, and are not described herein again.

The fourth chamber element 505 is arranged on one side of the first chamber element 502. Which may or may not be located on the same side as the second cavity member 503.

As shown in fig. 11, the cleaning unit 600 includes a cleaning member 601 and a protective member 602. Wherein, the cleaning element 601 is used for cleaning and disinfecting the lead unit 100 and the chest of the detected person; the protective member 602 is provided to cover the cleaning member 601 for preventing the cleaning member 601 from being contaminated when the cleaning member 601 is not in use.

Specifically, the cleaning member 601 cleans and sterilizes the lead wire member 102 and the electrode member 103.

In some of these embodiments, the cleaning element 601 is alcohol cotton.

In some of these embodiments, the protective member 602 is a tear-off protective pouch.

The application method of the embodiment is as follows:

taking out the lead unit 100, the detecting unit 200, the hanging unit 300, the fixing unit 400 and the cleaning unit 600 from the housing unit 500;

breaking the protective member 602 of the cleaning unit 600 and taking out the cleaning member 601;

cleaning and disinfecting the electrode elements 103 of the lead unit 100 and the chest position of the detected person by using a cleaning element 601;

connecting the third connecting member 302 of the suspension unit 300 with the first connecting member 208 of the sensing unit 200;

connecting a first end of the elastic band member 401 of the fixing unit 400 with the second connecting member 209 of the left side of the sensing unit 200;

the hanging element 301 of the hung unit 300 is hung on the neck of the detected person;

the second end of the elastic belt element 401 is connected with the second connecting element 209 at the right side of the detection unit 200 after passing around the back of the detected person, so as to complete the fixation of the detection unit 200;

connecting the connector element 101 of the lead unit 100 with the interface element 204 of the detection unit 200;

the electrode elements 103 of the lead unit 100 are attached to the chest of the person to be detected, and generally 2-3 electrode elements 103 are used;

starting a key element 203 of the detection unit 200 to input working parameters and start working;

the display element 202 of the detection unit 200 displays the operating parameters and the heart rate data processed by the control element 205 in real time.

Example 3

This embodiment is a modification of embodiment 1 or embodiment 2.

As shown in fig. 12, a multifunctional heart rate detecting device includes a lead unit 100, a detecting unit 200, a hanging unit 300, a fixing unit 400, a receiving unit 500 and a terminal unit 700. Wherein, the first end of the lead unit 100 is removably arranged at the chest position of the detected person for obtaining the detected value of the detected person; the detection unit 200 is connected to the second end of the lead unit 100, and is configured to acquire a detection value transmitted by the lead unit 100, and perform calculation processing on the detection value to obtain heart rate data corresponding to the detection value; the hanging unit 300 is detachably connected with the detection unit 200, the hanging unit 300 is removably hung on the neck of the detected person, and the detection unit 200 is convenient to be placed on the front side or the left side or the right side of the torso of the detected person; the fixing unit 400 is detachably connected with the detecting unit 200, the fixing unit 400 is removably fixed on the chest, the abdomen and the waist of the detected person, and the detecting unit 200 is conveniently placed on the front side or the left side or the right side of the trunk of the detected person; the storage unit 500 is used for storing the lead unit 100, the detection unit 200, the hanging unit 300 and the fixing unit 400, so that the storage unit is convenient to arrange and use quickly, and the problems of searching and the like during use are prevented; the terminal unit 700 is in communication connection with the detection unit 200, and is configured to acquire and display the heart rate data transmitted by the detection unit 200.

The structure and connection manner of the lead unit 100, the detection unit 200, the hanging unit 300, the fixing unit 400, and the receiving unit 500 are substantially the same as those of embodiment 1, and are not described herein again.

The terminal unit 700 is an intelligent terminal with a display function, and includes but is not limited to a computer (desktop, notebook, tablet), a smart phone, a PDA terminal, a smart band, a smart watch, and the like.

The purpose of setting up terminal unit 700 is, be convenient for by the person of being detected and medical personnel acquire heart rate data at any time, improve the convenience.

The using method of this embodiment is basically the same as that of embodiment 1, and is not described herein again.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (10)

1. A multifunctional heart rate detection device, comprising:

the device comprises a lead unit, a control unit and a display unit, wherein one end of the lead unit is removably arranged at the chest position of a detected person and is used for acquiring the detection value of the detected person;

the detection unit is connected with the other end of the lead unit and is used for acquiring a detection value transmitted by the lead unit and processing the detection value to acquire heart rate data;

the suspension unit is detachably connected with the detection unit;

the fixing units are detachably arranged on two sides of the detection unit and used for fixing the detection unit on the front side of the trunk, the left side of the trunk or the right side of the trunk of the detected person;

a housing unit for housing the lead unit, the detection unit, the hanging unit, and the fixing unit.

2. The multifunctional heart rate detection device of claim 1, wherein the lead unit comprises:

a joint element detachably connected with the detection unit;

a lead wire element having a first end connected to the tab element;

an electrode element connected with the second end of the lead wire element.

3. The multifunctional heart rate detection device of claim 1, wherein the detection unit comprises:

a housing member;

a display element embedded in a surface of the case element;

the key element is embedded on the surface of the shell element;

an interface element disposed on a surface of the housing element and connected to the lead unit;

the control element is arranged inside the shell element and is respectively connected with the display element, the key element and the interface element;

a memory element disposed inside the case element and connected to the control element;

a power supply element disposed inside the case element and connected with the control element.

4. The multifunctional heart rate detection device of claim 3, wherein the detection unit further comprises:

a first connection member provided at an upper side of the case member and connected with the suspension unit;

second connection members provided at left and right sides of the case member and connected with the fixing unit.

5. The multifunctional heart rate detection device of claim 3, wherein the detection unit further comprises:

a communication element disposed inside the case element and connected with the control element; and/or

The alarm element is arranged on the shell element and is connected with the control element; and/or

A buffer member disposed at a rear side of the case member.

6. The multifunctional heart rate detection device of claim 1, wherein the suspension unit comprises:

a suspension element;

and the third connecting element is arranged on one side of the suspension element and is detachably connected with the detection unit.

7. The multifunctional heart rate detection device of claim 1, wherein the fixing unit comprises:

and the first end of the elastic belt element is connected with the left side of the detection unit, and the second end of the elastic belt element is connected with the right side of the detection unit.

8. The multifunctional heart rate detecting device of claim 1, wherein the receiving unit comprises;

a cartridge element;

a first cavity element disposed inside the case element for placement of the lead unit;

a second chamber element disposed inside the case element for placing the detection unit;

a third cavity element disposed inside the box element for placing the hanging unit and the fixing unit.

9. The multifunctional heart rate detection device of claim 1, further comprising:

a cleaning unit for cleaning the lead unit and the chest of the detected person.

10. The multifunctional heart rate detection device of claim 1, further comprising:

and the terminal unit is in communication connection with the detection unit and is used for acquiring the heart rate data transmitted by the detection unit.

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