阅读说明：本技术 一种生理学教学用心脏跳动监测系统 (Heart beat monitoring system for physiology teaching ) 是由 马智聪 于 2021-05-26 设计创作，主要内容包括：本发明涉及一种生理学教学用心脏跳动监测系统,包括冷却带,所述冷却带的后侧设有热带,且冷却带和热带重合叠加,所述冷却带和热带的中央处镶嵌安装有安装盒,所述安装盒的正面安装有心电监测主机；本发明设置了冷却带和热带,当监测到心脏跳动频率超出最高限制时,通过微型循环水泵和微型换热器对冷却带内部水源进行循环制冷,使冷却带内部的低温冷水对人体进行降温,从而可以很好的辅助人体降低心脏跳动频率,当监测到心脏跳动频率低于最低限制时,控制热带及时对人体进行加热升温,来辅助人体提高心脏跳动频率,因此通过此种手段可以很好的为人员延长救治时间,方便人员有足够的时间进行更好的治疗。(The invention relates to a heart beating monitoring system for physiology teaching, which comprises a cooling belt, wherein a hot belt is arranged at the rear side of the cooling belt, the cooling belt and the hot belt are superposed, a mounting box is embedded and installed at the centers of the cooling belt and the hot belt, and an electrocardio monitoring host is installed on the front surface of the mounting box; the invention is provided with the cooling zone and the hot belt, when the heart beat frequency is monitored to exceed the highest limit, the water source in the cooling zone is subjected to circulating refrigeration through the micro circulating water pump and the micro heat exchanger, so that the low-temperature cold water in the cooling zone cools the human body, the heart beat frequency can be well reduced by assisting the human body, and when the heart beat frequency is monitored to be lower than the lowest limit, the hot belt is controlled to heat and raise the temperature of the human body in time to assist the human body to improve the heart beat frequency, so that the treatment time can be well prolonged for personnel through the method, and the personnel can conveniently have enough time to perform better treatment.)

1. A heartbeat monitoring system for physiology teaching, includes cooling zone (1), its characterized in that: the rear side of the cooling belt (1) is provided with a hot belt (2), the cooling belt (1) and the hot belt (2) are overlapped, a mounting box (5) is embedded in the center of the cooling belt (1) and the hot belt (2), an electrocardiogram monitoring host (6) is mounted on the front side of the mounting box (5), a protective cover (10) is mounted on the front side of the electrocardiogram monitoring host (6) through a hinge, an electrocardiogram detection probe (9) is mounted at the center of the back side of the mounting box (5), and a micro circulating water pump (7) and a micro heat exchanger (8) are mounted inside the mounting box (5);

the two ends of the interior of the cooling belt (1) are provided with flexible connecting net heads (101), one group of flexible connecting net heads (101) is communicated with the input end of the micro circulating water pump (7) through a hose, the output end of the micro circulating water pump (7) is communicated with the input end of the micro heat exchanger (8) through a hose, and the output end of the micro heat exchanger (8) is communicated with the other group of flexible connecting net heads (101) through a hose;

an insulating wire board (201) is arranged inside the tropical belt (2), a resistance wire (202) is arranged on the surface of the insulating wire board (201), and a mica sheet (203) is arranged on the surface of the resistance wire (202).

2. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the back of electrocardio monitoring host computer (6) is equipped with first socket (601), second socket (602), third socket (603) and fourth socket (604), miniature circulating water pump (7) are connected with first socket (601) through the wire, miniature heat exchanger (8) are connected with fourth socket (604) through the wire, electrocardio detection probe (9) are connected with third socket (603) through the wire, resistance wire (202) are connected with second socket (602) through the wire.

3. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the front of the mounting box (5) is provided with an opening (502), the electrocardio monitoring host (6) is located at the opening (502), the center of the back of the mounting box (5) is provided with a screw (501), the electrocardio detection probe (9) is mounted inside the screw (501) through a threaded structure, and the rear end of the electrocardio detection probe (9) protrudes.

4. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the electrocardio monitoring host (6) is characterized in that mounting blocks (605) are arranged at two ends of two sides of the front surface of the electrocardio monitoring host, and mounting bolts (606) are mounted on the surfaces of the mounting blocks (605) through thread structures.

5. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the cooling belt is characterized in that a first magic tape (3) is arranged at one end of the front side of the cooling belt (1), and a second magic tape (4) is arranged at one end, far away from the first magic tape (3), of the back side of the heating belt (2).

6. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the cooling belt (1) is provided with a water filling port (102) at the position close to the mounting box (5) on the front side, a sealing plug (103) is mounted at the position of the water filling port (102) through a threaded structure, and a kneading block (104) is arranged on the front side of the sealing plug (103).

7. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the electrocardio monitoring host computer (6) is positive one side and is equipped with display screen (13), electrocardio monitoring host computer (6) is positive to be close to one side of display screen (13) and is equipped with and controls panel (14), electrocardio monitoring host computer (6) is positive to be close to one side of controlling panel (14) and is equipped with warning mouth (15), electrocardio monitoring host computer (6) is positive to be located the top of warning mouth (15) and is equipped with mouth (16) that charges.

8. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: the front bottom of the electrocardio monitoring host (6) is provided with three groups of fixed sockets (12), and arc-shaped rubber blocks are arranged on two sides of the inside of the fixed sockets (12).

9. A physiological teaching heartbeat monitoring system as claimed in claim 1, in which: protective cover (10) medial surface is equipped with inserted block (11) with the position department that fixed socket (12) correspond, and the both sides department of inserted block (11) is equipped with the arc notch that corresponds with the arc rubber piece, inserted block (11) openly is close to one side central authorities department of inserted block (11) and is equipped with catching groove (17), and the inside of catching groove (17) is equipped with the buckle.

Technical Field

The invention relates to the technical field of physiology teaching, in particular to a heart beating monitoring system for physiology teaching.

Background

Physiology is a main branch of biology, is a subject for researching various life phenomena of organisms, particularly functions of each component of the organisms and an internal mechanism for realizing the functions, and is divided into a plurality of items in physiology teaching, wherein the heart teaching is an important teaching item, and a plurality of parameters in the heart knowledge teaching process are analyzed by the beating of the heart, and a heart beating detection system is required to be used for monitoring the beating of the heart.

The heart beat monitoring system in the prior art is mainly structured as a portable electrocardiogram detector in China with application number CN201922100902.3, and the heart beat monitoring system monitors heart beat through mechanisms such as a placing frame, the electrocardiogram detector, a shielding cover, a pull ring, a first fixed block, a ball, a clamping groove, a supporting rod, a first movable rod, a second movable rod, a first spring, a USB interface, a sliding groove, a second spring, a connecting rod, a sliding block, a second fixed block, a spring plate, a first pull rod, a baffle plate and a second pull rod;

the invention discloses a dustproof wireless electrocardiogram detector, which monitors heart beating through a mechanism, such as a machine body, a detection groove, an indicator light, a positioning hole, a poking piece, a notch, a positioning block, a soft sheet, a track groove, a shaft tube, a torsion spring, a pull rope, a tooth groove, a pawl, a transmission gear set, a connecting block, a circular groove, a compression spring, a limiting block, a first shaft rod, a disc, bristles, a second shaft rod, a bearing cover, a hose, a dust suction nozzle, an extrusion rotor and the like.

The applicant finds that the heart beat monitoring system generally adopts a static mode for monitoring, so that the obtained heart beat data is relatively level, has higher limitation in teaching, and cannot carry out comprehensive monitoring analysis on the heart beat of people in different states.

The applicant finds that the heart beat monitoring system is only used for monitoring the heart beat of a human body, the protection performance of the heart beat monitoring system is poor, and when the heart beat of a person is too fast or too low in the process of monitoring the heart of the human body by using the heart beat monitoring system, an auxiliary treatment measure cannot be timely taken to prolong the rescue time of the person, so that the person is easy to have serious consequences.

Therefore, a heart beating monitoring system for physiology teaching is provided to solve the existing problems.

Disclosure of Invention

In view of the above, the present invention provides a heartbeat monitoring system for physiological teaching, so as to solve the problems that the conventional heartbeat detecting system in the prior art can only perform static monitoring and lacks an auxiliary treatment function when the heartbeat frequency of the human body is too fast or too low.

The invention is realized by the following technical scheme:

a heart beat monitoring system for physiology teaching comprises a cooling belt, wherein a hot belt is arranged on the rear side of the cooling belt, the cooling belt and the hot belt are superposed, an installation box is embedded in the center of the cooling belt and the hot belt, an electrocardiogram monitoring host is installed on the front side of the installation box, a protective cover is installed on the front side of the electrocardiogram monitoring host through a hinge, an electrocardiogram detection probe is installed at the center of the back side of the installation box, and a micro circulating water pump and a micro heat exchanger are installed in the installation box;

the two ends of the interior of the cooling belt are provided with flexible connecting net heads, one group of flexible connecting net heads are communicated with the input end of the micro circulating water pump through a hose, the output end of the micro circulating water pump is communicated with the input end of the micro heat exchanger through a hose, and the output end of the micro heat exchanger is communicated with the other group of flexible connecting net heads through a hose;

an insulation wire board is arranged inside the hot belt, a resistance wire is arranged on the surface of the insulation wire board, and a mica sheet is arranged on the surface of the resistance wire.

Furthermore, the back of the electrocardio monitoring host is provided with a first socket, a second socket, a third socket and a fourth socket, the miniature circulating water pump is connected with the first socket through a wire, the miniature heat exchanger is connected with the fourth socket through a wire, the electrocardio detection probe is connected with the third socket through a wire, and the resistance wire is connected with the second socket through a wire.

Furthermore, the front of the mounting box is provided with an opening, the electrocardiogram monitoring host is positioned at the opening, the center of the back of the mounting box is provided with a screw, the electrocardiogram detection probe is mounted inside the screw through a threaded structure, and the rear end of the electrocardiogram detection probe protrudes.

Furthermore, the two ends of the two sides of the front surface of the electrocardio monitoring host are provided with mounting blocks, and the surfaces of the mounting blocks are provided with mounting bolts through thread structures.

Furthermore, a first magic tape is arranged at one end of the front side of the cooling belt, and a second magic tape is arranged at one end, far away from the first magic tape, of the back side of the heating belt.

Further, the cooling zone openly is equipped with the filler in the position department that is close to the mounting box, and the filler is located to install the sealing plug through helicitic texture, and the front of sealing plug is equipped with to hold between the fingers the piece.

Furthermore, a display screen is arranged on one side of the front face of the electrocardio monitoring host, a control panel is arranged on one side of the front face of the electrocardio monitoring host close to the display screen, an alarm port is arranged on one side of the front face of the electrocardio monitoring host close to the control panel, and a charging port is arranged above the alarm port on the front face of the electrocardio monitoring host.

Furthermore, three groups of fixed sockets are arranged at the bottom of the front surface of the electrocardiogram monitoring host, and arc-shaped rubber blocks are arranged on two sides of the inner part of each fixed socket.

Further, the position department that the protective cover medial surface corresponds with fixed socket is equipped with the inserted block, and the both sides department of inserted block is equipped with the arc notch that corresponds with the arc rubber piece, the inserted block openly is close to one side central authorities department of inserted block and is equipped with the catching groove, and the inside of catching groove is equipped with the buckle.

The invention has the beneficial effects that:

the invention adopts the close-fitting fixed monitoring mode to replace the traditional mode that external equipment is connected with a body for monitoring, when the system monitors the heart beat of the human body, the electrocardio monitoring host and the electrocardio detecting probe are directly fixed on the body of a person through a belt-shaped component consisting of a cooling belt and a hot belt, in the fixing process, the person only needs to adjust the position of the electrocardio detecting probe to enable the electrocardio detecting probe to be aligned with the chest of the human body, the electrocardio detecting probe can monitor the heart beat of the human body at any time, then the electrocardio monitoring host displays and records the monitoring data, therefore, the heart beat of the human body can be monitored at any time by adopting the portable fixed mode, in the monitoring process, the person can monitor the heart beat under the static state and also can monitor the heart beat under the dynamic state of the person, the heartbeat data of the personnel under different states can be obtained, therefore, in the teaching, the personnel can carry out comprehensive analysis and teaching according to the heartbeat data under different states, and the technical scheme of the application solves the problem that the traditional heartbeat detection system can only be in static monitoring.

The invention is provided with the cooling belt and the hot belt, the belt component composed of the cooling belt and the hot belt can play a fixing role, and the cooling belt and the hot belt also have the effects of refrigerating and heating, when the electrocardio monitoring host machine is matched with the electrocardio detection probe to monitor that the heart beating frequency of a person exceeds the highest limit or the lowest limit of a human body in the process of monitoring the heart beating of the person by using the system, the electrocardio monitoring host machine sends out an alarm to prompt the person to take protective measures in time, when the heart beating frequency exceeds the highest limit, the water source in the cooling belt is circularly refrigerated by the micro circulating water pump and the micro heat exchanger, so that the low-temperature cold water in the cooling belt cools the human body, thereby well assisting the human body to reduce the heart beating frequency, when the heart beating frequency is monitored to be lower than the lowest limit, the hot belt is controlled to heat the human body in time, the heart beat frequency is improved by assisting the human body, so that the treatment time can be well prolonged for personnel by the aid of the method, the personnel can conveniently have enough time to carry out better treatment, and the problem that the conventional heart beat detection system lacks an auxiliary treatment function when monitoring that the heart beat frequency of the personnel is too fast or too low is solved by the technical scheme.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and combinations particularly pointed out hereinafter.

Drawings

FIG. 1 is a top cross-sectional view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a rear view of the present invention;

FIG. 4 is an elevational, cross-sectional view of the present invention;

FIG. 5 is a rear sectional view of the present invention;

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

FIG. 7 is an enlarged schematic view of the invention at B of FIG. 1;

fig. 8 is an enlarged schematic view of the invention at C in fig. 1.

In the figure: 1. a cooling zone; 101. flexibly connecting a net head; 102. a water filling port; 103. a sealing plug; 104. kneading blocks; 2. a tropical zone; 201. an insulated wire board; 202. a resistance wire; 203. mica sheets; 3. a first magic tape; 4. a second magic tape; 5. mounting a box; 501. screwing; 502. an opening; 6. an electrocardio monitoring host; 601. a first socket; 602. a second socket; 603. a third socket; 604. a fourth jack; 605. mounting blocks; 606. installing a bolt; 7. a micro circulating water pump; 8. a micro heat exchanger; 9. an electrocardio detection probe; 10. a protective cover; 11. inserting a block; 12. fixing the socket; 13. a display screen; 14. a control panel; 15. an alarm port; 16. a charging port; 17. and (6) buckling grooves.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the above description of the present invention, it should be noted that the terms "one side", "the other side" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or the element to which the present invention is directed must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Further, the term "identical" and the like do not mean that the components are absolutely required to be identical, but may have slight differences. The term "perpendicular" merely means that the positional relationship between the components is more perpendicular than "parallel", and does not mean that the structure must be perfectly perpendicular, but may be slightly inclined.

Referring to fig. 1-8, the present invention provides a technical solution: a heart beating monitoring system for physiology teaching comprises a cooling belt 1, wherein a hot belt 2 is arranged on the rear side of the cooling belt 1, the cooling belt 1 and the hot belt 2 are superposed, a mounting box 5 is embedded in the centers of the cooling belt 1 and the hot belt 2, an electrocardio monitoring host 6 is mounted on the front side of the mounting box 5, a protective cover 10 is mounted on the front side of the electrocardio monitoring host 6 through a hinge, an electrocardio detection probe 9 is mounted at the center of the back side of the mounting box 5, and a micro circulating water pump 7 and a micro heat exchanger 8 are mounted in the mounting box 5;

the two ends inside the cooling belt 1 are provided with flexible connection net heads 101, one group of flexible connection net heads 101 are communicated with the input end of the micro circulating water pump 7 through a hose, the output end of the micro circulating water pump 7 is communicated with the input end of the micro heat exchanger 8 through a hose, and the output end of the micro heat exchanger 8 is communicated with the other group of flexible connection net heads 101 through a hose;

an insulating wire board 201 is arranged inside the tropical zone 2, a resistance wire 202 is arranged on the surface of the insulating wire board 201, and a mica sheet 203 is arranged on the surface of the resistance wire 202.

Specifically, as shown in fig. 1 and 7, when in use, a person binds a belt-shaped structure composed of a tropical zone 2 and a cooling zone 1 to the chest of a human body for a circle, and in the fixing process, the person needs to adjust the position of an electrocardiograph detection probe 9 to enable the electrocardiograph detection probe 9 to be aligned with the chest of the human body, at this time, the highest limit and the lowest limit of the heartbeat frequency of the person are set by an electrocardiograph monitoring host 6, then the electrocardiograph detection probe 9 is controlled by the electrocardiograph monitoring host 6 to work, the electrocardiograph detection probe 9 can monitor the heartbeat of the human body at any time, then the electrocardiograph detection probe 9 feeds monitoring information back to the electrocardiograph monitoring host 6, the electrocardiograph monitoring host 6 displays and records the monitoring data, in the monitoring process, the person can monitor the heartbeat in a static state and can monitor the heartbeat in a dynamic state, the heart beat data of the personnel in different states can be obtained, therefore, in the teaching, the personnel can carry out comprehensive analysis and teaching according to the heart beat data in different states, in the process of detecting the heart beat of the personnel, when the heart beat frequency of the personnel monitored by the electrocardio monitoring host 6 matched with the electrocardio detection probe 9 exceeds the highest limit or the lowest limit of the human body set in advance, the electrocardio monitoring host 6 can timely give out an alarm to prompt the personnel to take protective measures in time, when the heart beat frequency exceeds the highest limit, the electrocardio monitoring host 6 controls the micro circulating water pump 7 and the micro heat exchanger 8 to work, the micro circulating water pump 7 and the micro heat exchanger 8 carry out circulating refrigeration on the water source in the cooling belt 1, so that the low-temperature cold water in the cooling belt 1 can rapidly cool the human body, thereby well assisting the human body to reduce the heart beat frequency, when the heart beat frequency is monitored to be lower than the lowest limit, the resistance wire 202 is controlled to work through the electrocardio monitoring host 6, when the resistance wire 202 is electrified, the insulation wire board 201 and the mica sheet 203 can well insulate and protect the resistance wire 202, the resistance wire 202 is electrified to generate heat, and then the heat is transmitted to the body of a person through the tropical zone 2, so that the body is rapidly heated and warmed to assist the body to improve the heart beat frequency, the treatment time of the person can be well prolonged through the means, and the person can conveniently have enough time to carry out better treatment.

In the invention: the back of the electrocardio monitoring host 6 is provided with a first socket 601, a second socket 602, a third socket 603 and a fourth socket 604, the micro circulating water pump 7 is connected with the first socket 601 through a wire, the micro heat exchanger 8 is connected with the fourth socket 604 through a wire, the electrocardio detection probe 9 is connected with the third socket 603 through a wire, and the resistance wire 202 is connected with the second socket 602 through a wire.

Specifically, as shown in fig. 1 and 7, the micro circulating water pump 7, the micro heat exchanger 8, the electrocardiograph detection probe 9 and the resistance wire 202 can be quickly connected and detached through the first socket 601, the fourth socket 604, the third socket 603 and the second socket 602, so that the electrocardiograph monitoring host 6 and the electrocardiograph detection probe 9 can be conveniently and independently taken out for use, and the electrocardiograph monitoring host 6 and the electrocardiograph detection probe 9 are independently adopted to monitor the heartbeat of a human body, namely, a common static monitoring working form is adopted, so that the working form of the system has diversity.

In the invention: the front of the mounting box 5 is provided with an opening 502, the electrocardiogram monitoring host 6 is located at the opening 502, the center of the back of the mounting box 5 is provided with a screw 501, the electrocardiogram detection probe 9 is mounted inside the screw 501 through a threaded structure, and the rear end of the electrocardiogram detection probe 9 protrudes.

In the invention: the two ends of the front two sides of the electrocardio monitoring host 6 are provided with mounting blocks 605, and mounting bolts 606 are mounted on the surfaces of the mounting blocks 605 through thread structures.

Specifically, as shown in fig. 1 and 8, the electrocardiograph monitoring host 6 is clamped at the upper opening 502 of the mounting box 5, and the mounting bolt 606 is screwed to fix the mounting block 605 at the opening 502 of the mounting box 5, so that the electrocardiograph monitoring host 6 is fixedly mounted, and the electrocardiograph detection probe 9 is screwed into the screw 501 for fixed mounting, and similarly, a person can rapidly detach the electrocardiograph monitoring host 6 and the electrocardiograph detection probe 9.

In the invention: the positive one end of cooling zone 1 is equipped with first magic subsides 3, and 2 backs in the tropical are kept away from the one end of first magic subsides 3 and are equipped with second magic subsides 4.

Specifically, as shown in fig. 1, when a band assembly composed of a cooling band 1 and a hot band 2 is wound around the chest of a person, the band assembly is fixed around the chest of the person by mutually adhering a first hook and loop fastener 3 and a second hook and loop fastener 4.

In the invention: the front surface of the cooling belt 1 is provided with a water filling port 102 at a position close to the mounting box 5, the water filling port 102 is provided with a sealing plug 103 through a threaded structure, and the front surface of the sealing plug 103 is provided with a kneading block 104.

Specifically, as shown in fig. 1 and fig. 6, a person can hold the pinching block 104 to unscrew the sealing plug 103, then inject a water source into the cooling zone 1, and after injecting a proper amount of water source into the cooling zone 1, screw the sealing plug 103 again to seal the water filling port 102.

In the invention: a display screen 13 is arranged on one side of the front face of the electrocardio monitoring host 6, a control panel 14 is arranged on one side of the front face of the electrocardio monitoring host 6 close to the display screen 13, an alarm port 15 is arranged on one side of the front face of the electrocardio monitoring host 6 close to the control panel 14, and a charging port 16 is arranged on the front face of the electrocardio monitoring host 6 above the alarm port 15.

Specifically, as shown in fig. 2, the display screen 13 is used for displaying monitored data and parameters in the working process, so that the personnel can watch the monitored data, the control panel 14 is used for controlling the electrocardio monitoring host 6, an alarm sent by the electrocardio monitoring host 6 is transmitted from the alarm port 15, and when the electric quantity of the electrocardio monitoring host 6 is insufficient, the electrocardio monitoring host 6 can be charged through the charging port 16.

In the invention: three groups of fixed sockets 12 are arranged at the bottom of the front surface of the electrocardio monitoring host 6, and arc-shaped rubber blocks are arranged on two sides inside the fixed sockets 12.

In the invention: the position department that the medial surface of protective cover 10 corresponds with fixed socket 12 is equipped with inserted block 11, and the both sides department of inserted block 11 is equipped with the arc notch that corresponds with arc rubber piece, and the positive one side central authorities department that is close to inserted block 11 of inserted block 11 is equipped with catching groove 17, and the inside of catching groove 17 is equipped with the buckle.

Specifically, as shown in fig. 2 and 3, protective cover 10 block is in the front of electrocardio monitoring host 6, this moment insert piece 11 insert corresponding fixed socket 12 inside, arc rubber block card on fixed socket 12 is inside inserted piece 11's arc notch, thereby fix protective cover 10, then protective cover 10 protects electrocardio monitoring host 6 surperficial part, when needs use electrocardio monitoring host 6, the inside buckle of catching groove 17 is withheld to the finger and outwards is drawn hard, can pull out fixed socket 12 with inserting piece 11, thereby open protective cover 10, personnel can control electrocardio monitoring host 6 through the positive part of electrocardio monitoring host 6.

The working principle is as follows: when the invention is used, a person winds a belt-shaped component consisting of a cooling belt 1 and a hot belt 2 around the chest of the person, then the belt-shaped component is mutually adhered and fixed on the chest of the person for one circle through a first magic tape 3 and a second magic tape 4, in the fixing process, the person needs to adjust the position of an electrocardio-detecting probe 9 to enable the electrocardio-detecting probe 9 to be aligned with the chest of the person, at the moment, the highest limit and the lowest limit of the heartbeat frequency of the person are set through an electrocardio-monitoring host 6, then the electrocardio-detecting probe 9 is controlled to work through the electrocardio-monitoring host 6, the electrocardio-detecting probe 9 can monitor the heartbeat of the person at any time, then the electrocardio-detecting probe 9 feeds monitoring information back to the electrocardio-monitoring host 6, the electrocardio-monitoring host 6 displays and records the monitoring data, in the monitoring process, the person can monitor the heartbeat in a static state, meanwhile, the heart beat monitoring can be carried out under the dynamic condition of the personnel, and the heart beat data of the personnel in different states can be obtained, so that the personnel can carry out comprehensive analysis and teaching according to the heart beat data in different states in the teaching;

secondly, in the process of detecting the heart beat of a person, when the heart beat frequency of the person monitored by the electrocardio monitoring host 6 and the electrocardio detection probe 9 exceeds the highest limit or the lowest limit of the human body set in advance, the electrocardio monitoring host 6 can timely give an alarm to prompt the person to take protective measures, when the heart beat frequency exceeds the highest limit, the electrocardio monitoring host 6 controls the micro circulating water pump 7 and the micro heat exchanger 8 to work, the micro circulating water pump 7 and the micro heat exchanger 8 carry out circulating refrigeration on the water source in the cooling belt 1, so that the low-temperature cold water in the cooling belt 1 can rapidly cool the human body, the heart beat frequency can be well reduced by assisting the human body, when the heart beat frequency is monitored to be lower than the lowest limit, the electrocardio monitoring host 6 controls the resistance wire 202 to work, and when the resistance wire 202 is electrified, the insulating wire board 201 and the mica sheet 203 can well insulate and protect the resistance wire 202, the resistance wire 202 is electrified to generate heat, and then the heat is transmitted to the body of a person through the tropical zone 2, so that the body of the person is rapidly heated to assist the body of the person to improve the heart beating frequency, the treatment time can be well prolonged for the person through the method, and the person can conveniently have enough time to perform better treatment;

finally, according to the use requirement, a person can pull the electrical connection lines of the micro circulating water pump 7, the micro heat exchanger 8, the electrocardio detection probe 9 and the resistance wire 202 away from the first socket 601, the fourth socket 604, the third socket 603 and the second socket 602, then unscrew the mounting bolt 606, take the electrocardio monitoring host 6 out of the opening 502 of the mounting box 5, then unscrew the electrocardio detection probe 9 out of the screw 501 of the mounting box 5, then connect the connection lead of the electrocardio detection probe 9 with the third socket 603, at this time, place the electrocardio monitoring host 6 outside, then stretch the connection lead of the electrocardio detection probe 9 to be attached to the chest of a human body to monitor the heartbeat of the person, and the working mode is static working, so that the working mode of the system has diversity.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.