CN213075626U - Electrocardio blood oxygen monitor and physical examination monitoring system - Google Patents

Abstract

The utility model discloses an electrocardio blood oxygen monitor and physical examination monitoring system. The monitor comprises a base, a display module, a testing part, an electrocardio touch sheet, a heart rate touch sheet, an electrocardio sensor module and a heart rate sensor module. Each testing part is provided with a testing area in a palm shape, the palm center part of the testing area is an electrocardio testing part, and the finger tip part of one of the fingers of the testing area is a blood oxygen testing part. Each electrocardio touch sheet is arranged on the corresponding electrocardio test part, and each heart rate touch sheet is arranged on the corresponding blood oxygen test part. The electrocardio sensor module detects hand electrocardio information positioned on the electrocardio test part through the electrocardio touch sheet, and the heart rate sensor module detects hand heart rate information positioned on the blood oxygen test part through the heart rate touch sheet. The utility model discloses realized the monitoring of electrocardio and rhythm of the heart simultaneously, need not loaded down with trivial details operation means, can improve detection efficiency, promote monitoring speed, operate moreover simpler.

Description

Electrocardio blood oxygen monitor and physical examination monitoring system

Technical Field

The utility model relates to an electrocardio and blood oxygen monitoring technical field's a monitor especially relates to an electrocardio blood oxygen monitor, still relates to the physical examination monitoring system including this electrocardio blood oxygen monitor.

Background

At present, the known electrocardio monitoring method is as follows: and inserting a power line, opening the electrocardiogram monitor, checking the functions of the electrocardiogram monitor and various lead wires, and connecting the electrode plates with the lead wires. The patient takes the appropriate position (lying position), exposes the precordial skin, wipes off the precordial skin with gauze, and removes the fat of the corresponding part with 75% alcohol. The electrode plates are placed on the front right upper part of the chest (between the second ribs of the clavicle midline on the right side of the patient), the left upper part (between the second ribs of the clavicle midline on the left side of the patient) and the left lower part (between the fifth ribs of the axillary midline on the left side of the patient). The electrode pads should avoid the wound and, if necessary, the defibrillation site. Ensure the accurate position of the electrode and good contact with the skin of the patient. The known blood oxygen monitoring method is as follows: the device is connected with an external power line and an oxygen saturation monitoring plug-in unit to assist in taking a comfortable lying position, cleaning the skin and the nail of a finger (toe) at the measurement position of a patient, and correctly placing a sensor at the finger, toe or auricle of the patient, so that the contact is good and the tightness is proper. However, the measurement needs to be completed under the operation and guidance of professionals, the lying posture of a measured person is troublesome in the measurement, and the electrode plate and the blood oxygen monitoring plug-in are required to be placed at accurate positions, so that the requirement on the specialty is high.

SUMMERY OF THE UTILITY MODEL

For solving current electrocardio and blood oxygen monitoring complex operation, the slow technical problem of monitoring speed, the utility model provides an electrocardio blood oxygen monitor and physical examination monitoring system.

The utility model discloses a following technical scheme realizes: an electro-cardio blood oxygen monitor, comprising:

a base;

a display module mounted on the base;

at least one test part disposed on the base; each testing part is provided with a testing area in a palm shape, the palm center part of the testing area is an electrocardio testing part, and the finger tip part of one of the fingers of the testing area is a blood oxygen testing part;

at least one electrocardiographic touch sheet corresponding to the at least one test section; each electrocardio touch sheet is arranged on a corresponding electrocardio test part;

at least one heart rate touch sheet corresponding to the at least one test section; each heart rate touch sheet is arranged on the corresponding blood oxygen test part;

the electrocardio sensor module is arranged on the base and is electrically connected with the electrocardio touch sheet; the electrocardio sensor module detects the hand electrocardio information at the electrocardio test part through the electrocardio touch sheet; and

the heart rate sensor module is arranged on the base and is electrically connected with the heart rate touch sheet; the heart rate sensor module detects hand heart rate information on the blood oxygen test part through the heart rate touch sheet; the display module is used for displaying the hand electrocardio information and the hand heart rate information.

The utility model discloses a set up test section on the base, test section has the test area territory that is the palm shape, and when measuring heart electricity and blood oxygen like this, the tester can place its palm on test area territory, and the heart of palm can contact the electrocardio touch piece on the electrocardio test position, and electrocardio sensor module just can detect electrocardio information through the electrocardio touch piece like this. And the finger can touch the heart rate touch sheet, and the heart rate sensor module detects heart rate information in a finger clamping mode. Like this, this monitor has just realized the monitoring of electrocardio and rhythm of the heart simultaneously, and only need place the hand and just can realize detecting in the test section, need not loaded down with trivial details operation means, can improve detection efficiency, promote monitoring speed, operate more simply moreover, need not professional person and operate, can improve the rate of utilization of instrument, enlarge the application range of instrument, solved current electrocardio and blood oxygen monitoring complex operation, technical problem that monitoring speed is slow.

As a further improvement of the scheme, the number of the test parts, the number of the electrocardio touch sheets and the number of the heart rate touch sheets are two, and the two test parts are respectively arranged on two opposite sides of the base.

Furthermore, the test areas of the two test parts are respectively provided with a left palm pattern and a right palm pattern; the left palm pattern is matched with the left hand of the human body, and the right palm pattern is matched with the right hand of the human body.

As a further improvement of the above scheme, the electrocardiographic blood oxygen monitor further comprises:

at least one proximity sensor corresponding to the at least one test section; each proximity sensor is mounted on a test area of a corresponding test section.

As a further improvement of the above scheme, the electrocardiographic blood oxygen monitor further comprises:

the base is arranged on the detachable support.

Still further, the electrocardiographic blood oxygen monitor further comprises:

a plurality of universal wheels mounted on a bottom end of the detachable bracket.

As a further improvement of the above scheme, the electrocardiographic blood oxygen monitor further comprises:

a battery or a rechargeable lithium battery mounted in the base and configured to supply power to the display module, the electrocardiograph sensor module, and the heart rate sensor module.

As a further improvement of the above scheme, the electrocardiographic blood oxygen monitor further comprises:

the start-stop button is arranged on the base and is used for simultaneously opening or closing the display module, the electrocardio sensor module and the heart rate sensor module;

a switch button mounted on the base for selecting one of the hand electrocardiographic information and the hand heart rate information to be displayed on the display module.

Furthermore, the electrocardio touch sheet is movably arranged on the electrocardio testing part, and the heart rate touch sheet is movably arranged on the blood oxygen testing part; the left palm pattern/the right palm pattern are arranged on a pattern carrier, and the pattern carrier is detachably arranged on the test area.

The utility model also provides a physical examination monitoring system, which comprises an electrocardio-blood oxygen monitor, a height testing device, a weight testing device and a blood pressure testing device; the height testing device is used for detecting the height of a physical examination person, the weight testing device is used for detecting the weight of the physical examination person, and the blood pressure testing device is used for detecting the blood pressure of the physical examination person; wherein, the electrocardio blood oxygen monitor is the arbitrary electrocardio blood oxygen monitor.

Compare in current electrocardio and blood oxygen monitoring devices, the utility model discloses an electrocardio blood oxygen monitor and physical examination monitoring system has following beneficial effect:

1. according to the electrocardio-blood oxygen monitor, the testing part is arranged on the base, the testing part is provided with the testing area in a palm shape, so that when the electrocardio and the blood oxygen are measured, a tester can place the palm of the tester on the testing area, the palm of the tester can contact the electrocardio touch sheet on the electrocardio testing part, and the electrocardio sensor module can detect the electrocardio information through the electrocardio touch sheet. And the finger can touch the heart rate touch sheet, and the heart rate sensor module detects heart rate information in a finger clamping mode. Like this, this monitor has just realized the monitoring of electrocardio and rhythm of the heart simultaneously, and only need place the hand and just can realize detecting in addition on the test section, need not loaded down with trivial details operation means, can improve detection efficiency, promotes monitoring speed, and the operation is simpler moreover, need not professional person and operates, can improve the rate of utilization of instrument, enlarges the application range of instrument.

2. This electrocardio blood oxygen monitor, the quantity of its test section is two, and the test area of these two test sections sets up left palm pattern and right palm pattern, and the left hand of same human body and right hand respectively just with these two pattern phase-matchs, just so can monitor same one's both hands, improve the accuracy of data monitoring. Moreover, for the personnel with single-hand disabilities, one of the two palm patterns can provide monitoring service for the personnel with single-hand disabilities, so that the monitoring requirement of the hand disabilities can be met, the application range of the monitor is expanded, and different monitoring requirements are met.

3. The electrocardio-blood oxygen monitor is also provided with a proximity sensor. The proximity sensor can generate a proximity signal when the palm approaches the test area, so that whether the palm reaches a monitoring range can be timely confirmed, and monitoring is more intelligent and effective.

4. This electrocardio blood oxygen monitor, it still sets up detachable support and a plurality of universal wheel. The detachable support can be used for installing the base, so that the whole instrument can stand in a monitoring place and is convenient to detect. And a plurality of universal wheels can make the support possess the function of removing, only need when needs removal instrument like this promote the support can, it is more convenient to use, remove very laborsaving.

5. The electrocardio-blood oxygen monitor is also provided with a storage battery. The storage battery or the rechargeable lithium battery can provide electric energy for the electricity utilization module in the instrument, so that the monitor can still be normally used when being used in an external environment, particularly in a place lacking of power supply, the service environment of the instrument can be ensured, the environmental and technical limitations of electrocardio and blood oxygen measurement are improved, and the blood oxygen and the electrocardio are simply and conveniently measured.

6. This electrocardio blood oxygen monitor, its left palm pattern/right palm pattern set up on the pattern carrier, and the pattern carrier can be detachable installs on test area again, can use to the personnel of different hand types size like this. For example, palm patterns with different sizes can be arranged, different pattern carriers can be arranged, and when a person needing to be monitored is a child, the pattern carrier with a relatively small pattern is placed on the test area, so that the size of the pattern is just matched with that of the hand; and when the person needing to be monitored is an adult, the pattern carrier with a relatively large pattern is placed on the test area, so that the matching of the pattern can be ensured. The positions of the electrocardio touch sheet and the heart rate touch sheet can be changed, namely the electrocardio touch sheet and the heart rate touch sheet are installed in a movable installation mode, and the positions of the electrocardio touch sheet and the heart rate touch sheet are adjusted according to the relative size of the palm pattern when the pattern carrier is replaced. Therefore, the electrocardio-blood oxygen monitor can meet the monitoring requirements of people of different age groups and different sexes, and further expands the application range of the instrument.

7. This physical examination monitoring system, it uses the monitoring process of physical examination with above-mentioned electrocardio blood oxygen monitor, can improve physical examination efficiency for the physical examination speed alleviates physical examination medical personnel's intensity of labour.

Drawings

Fig. 1 is a schematic view of the stereo structure of the electrocardiograph/blood oxygen monitor of embodiment 1 of the present invention.

Fig. 2 is a top view of the testing portion of the electrocardiograph/oximeter shown in fig. 1.

Fig. 3 is a top view of the testing portion of the electrocardiographic blood oxygen monitor of embodiment 2 of the present invention.

Fig. 4 is a schematic view of the stereo structure of the electrocardiograph/blood oxygen monitor according to embodiment 3 of the present invention.

Fig. 5 is a schematic view of the stereo structure of the electrocardiograph/blood oxygen monitor according to embodiment 4 of the present invention.

Fig. 6 is a schematic view of the stereo structure of the electrocardiograph/blood oxygen monitor according to embodiment 5 of the present invention.

Description of the symbols:

1 base 8 blood oxygen test part

2 display module 9 proximity sensor

3 test part 10 Battery

4 test area 11 on-off button

5 electrocardio touch piece 12 switching button

6 heart rate touch piece 13 detachable support

7 electrocardio test position 14 universal wheel

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

Referring to fig. 1 and 2, the present embodiment provides an electrocardiographic blood oxygen monitor, which is used for monitoring electrocardiographic information and blood oxygen information of a human body. The monitor can be used in hospital places, physical examination places and community examination places. The monitor comprises a base 1, a display module 2, a testing part 3, an electrocardio touch sheet 5, a heart rate touch sheet 6, an electrocardio sensor module and a heart rate sensor module.

The base 1 is the main body of the monitor, and generally adopts the structure of a shell. The base 1 can be made of plastic, aluminum alloy or other materials with light weight and high hardness. In the present embodiment, the base 1 has a rectangular parallelepiped shape, and in other embodiments, other shapes may be selected, and may be determined according to actual needs. The size of the base 1 is generally not too large, and can be designed according to the use scene and the condition of the user.

The display module 2 is mounted on the base 1, and may include a display screen and a display driving unit. The display screen is installed on base 1, and it can adopt liquid crystal display, also can adopt other display screens. The display driving unit is used for displaying information on the display screen, wherein the information is detected electrocardio information, blood oxygen information, heart rate information and the like. The display module 2 is detachably connected with the base 1, so that any one of the display module and the base can be conveniently replaced, and the display module is convenient to transport and install. Specifically, the bottom of the display screen can be clamped on the top surface of the base 1, and the joint of the display screen and the base 1 is sealed by a sealing rubber ring.

The number of the test parts 3 is at least one, and the test parts 3 are arranged on the base 1. Each test portion 3 has a test area 4 in the shape of a palm, the palm portion of the test area 4 is an electrocardiogram test site 7, and one of the finger tips of the test area 4 is an oximeter test site 8. In the present embodiment, the number of the test sections 3 is two, and two test sections 3 are provided on opposite sides of the base 1, respectively. The test areas 4 of the two test sections 3 are provided with a left palm pattern and a right palm pattern, respectively. The left palm pattern is matched with the left hand of the human body, and the right palm pattern is matched with the right hand of the human body.

The number of the electrocardio touch sheets 5 is at least one, and the electrocardio touch sheets 5 correspond to the test parts 3 one by one. Each electrocardio touch sheet 5 is arranged on the corresponding electrocardio test part 7. In the present embodiment, the number of the electrocardiographic touch pieces 5 is two, and the two electrocardiographic touch pieces 5 are respectively attached to the corresponding areas of the two test sections 3. The ecg touch sheet 5 is generally a metal sheet, which can sense a biological signal on the ecg test site 7. The electrocardio-touch sheet 5 can be directly embedded on the test area 4, so that the electrocardio-touch sheet can be prevented from falling off. The size of the electrocardio-touch sheet 5 is not too small in general, and the electrocardio-touch sheet needs to be ensured to be in full contact with the palm part.

The number of the heart rate touch sheets 6 is at least one, and the heart rate touch sheets 6 correspond to the test parts 3 one by one. Each heart rate touch pad 6 is mounted on a corresponding blood oxygen test site 8. In the present embodiment, the number of the heart rate touch sheets 6 is two, and the two heart rate touch sheets 6 are respectively mounted on the corresponding areas of the two test parts 3. The heart rate touch pad 6 is capable of sensing bio-signals on the blood oxygen test site 8. The heart rate touch pad 6 can be embedded directly on the test area 4, thus preventing it from falling off. The heart rate touch pad 6 is generally not too small in size to ensure adequate contact with the palm portion, but is not too large and needs to match the size of the fingers.

The electrocardio sensor module is arranged on the base 1 and is electrically connected with the electrocardio touch sheet 5. The electrocardio sensor module detects the hand electrocardio information positioned at the electrocardio test part 7 through the electrocardio touch sheet 5. The electrocardio sensor module is provided with an electrocardio sensor, and the electrocardio sensor can adopt the existing portable electrocardio sensor, such as a BMD101 sensor of Neurosky company.

The heart rate sensor module is installed on the base 1 and is electrically connected with the heart rate touch sheet 6. The heart rate sensor module detects the heart rate information of the hand on the blood oxygen test part 8 through the heart rate touch sheet 6. Wherein, the display module 2 is used for displaying hand electrocardio information and hand heart rate information. The heart rate sensor is provided with a heart rate sensor, and the heart rate sensor can adopt an existing portable heart rate sensor, such as a bioelectrical impedance sensor, a skin electric reaction sensor and the like. Of course, in some embodiments, the electrocardiograph sensor and heart rate sensor may be integrated into one sensor, such as a Tianyi-corer HX5100 sensor.

To sum up, compare in current electrocardio and blood oxygen monitoring devices, the electrocardio blood oxygen monitor of this embodiment has following advantage:

1. according to the electrocardio-blood oxygen monitor, the testing part 3 is arranged on the base 1, the testing part 3 is provided with the testing area 4 in a palm shape, so that when the electrocardio and the blood oxygen are measured, a tester can place the palm of the tester on the testing area 4, the palm of the palm can contact the electrocardio touch sheet 5 on the electrocardio testing part 7, and the electrocardio sensor module can detect the electrocardio information through the electrocardio touch sheet 5. And the fingers touch the heart rate touch sheet 6, and the heart rate sensor module detects heart rate information in a finger clamping mode. Like this, this monitor has just realized the monitoring of electrocardio and rhythm of the heart simultaneously, and only need place the hand and just can realize detecting on test section 3 in addition, need not loaded down with trivial details operation means, can improve detection efficiency, promotes monitoring speed, and the operation is simpler moreover, need not professional and operates, can improve the rate of utilization of instrument, enlarges the application range of instrument.

2. This electrocardio blood oxygen monitor, the quantity of its test section 3 is two, and the test area 4 of these two test sections 3 sets up left palm pattern and right palm pattern, and the left hand of same human body and right hand respectively just with these two pattern phase-matchs, just so can monitor same one person's both hands, improve the accuracy of data monitoring. Moreover, for the personnel with single-hand disabilities, one of the two palm patterns can provide monitoring service for the personnel with single-hand disabilities, so that the monitoring requirement of the hand disabilities can be met, the application range of the monitor is expanded, and different monitoring requirements are met.

Example 2

Referring to fig. 3, the present embodiment provides an electrocardiograph monitor, which adds a proximity sensor 9 on the basis of embodiment 1. The number of the proximity sensors 9 is one, and the proximity sensors 9 correspond one-to-one to the test section 3. Each proximity sensor 9 is installed on the test area 4 of the corresponding test part 3 and serves to generate a proximity signal when a hand approaches the test area 4, and the display module 2 can display the proximity signal. Because proximity sensor 9 can produce the signal of being close when the palm is close test area 4, just so can in time confirm whether the palm reaches monitoring range, make the monitoring more intelligent effective.

Example 3

Referring to fig. 4, the present embodiment provides an electrocardiograph monitor, which adds a detachable bracket 13 and a plurality of universal wheels 14 on the basis of embodiment 1. The base 1 is mounted on a detachable bracket 13, and a plurality of universal wheels 14 are mounted on the bottom end of the detachable bracket 13. Because the detachable support 13 can be used for installing the base 1, the whole instrument can be erected in a monitoring place and is convenient to detect. And a plurality of universal wheels 14 can make the support possess the function of removing, and like this only need promote the support can when needing to remove the instrument, it is more convenient to use, and it is very laborsaving to remove.

Example 4

Referring to fig. 5, the embodiment provides an electrocardiographic blood oxygen monitor, which adds a storage battery 10 or a rechargeable lithium battery on the basis of embodiment 1. The storage battery 10 or a rechargeable lithium battery is mounted in the base 1 and is used to supply power to the display module 2, the electrocardiograph sensor module, and the heart rate sensor module. Because the storage battery 10 or the rechargeable lithium battery can provide electric energy for the electricity utilization module in the instrument, the monitor can still be normally used when being used in an external environment, particularly in a place lacking of power supply, so that the use environment of the instrument can be ensured, the environmental and technical limitations of electrocardio and blood oxygen measurement are improved, and the blood oxygen and the electrocardio can be simply and conveniently measured.

Example 5

Referring to fig. 6, the embodiment provides an electrocardiograph, which adds an on-off button 11 and a switch button 12 on the basis of embodiment 1. The start-stop button 11 is installed on the base 1 and used for simultaneously opening or closing the display module 2, the electrocardio sensor module and the heart rate sensor module. A switch button 12 is mounted on the base 1 and is used to select one of the hand electrocardiographic information and the hand heart rate information to be displayed on the display module 2. Therefore, the monitoring instrument can be opened or closed by an instrument user through the button, the switching of the monitoring function can be realized, and the use and data recording are convenient.

Example 6

The embodiment provides an electrocardiograph/oximeter, which is added with a pattern carrier based on embodiment 1. Wherein, the electrocardio touch sheet 5 is movably arranged on the electrocardio test part 7, and the heart rate touch sheet 6 is movably arranged on the blood oxygen test part 8. The left palm pattern/right palm pattern is provided on a pattern carrier, which is detachably mounted on the test area 4. Because the left palm pattern/the right palm pattern are arranged on the pattern carrier, and the pattern carrier can be detachably arranged on the test area 4, the test device can be used by people with different hand sizes. For example, palm patterns with different sizes can be arranged, different pattern carriers can be arranged, and when the person to be monitored is a child, the pattern carrier with the relatively small pattern is placed on the test area 4, so that the size of the pattern is just matched with the size of the hand; when the person to be monitored is an adult, the pattern carrier having a relatively large pattern is placed on the test area 4, so that the matching of the pattern can be ensured. The positions of the electrocardio touch sheet 5 and the heart rate touch sheet 6 can be changed, namely the electrocardio touch sheet and the heart rate touch sheet are movably installed, and the positions of the electrocardio touch sheet and the heart rate touch sheet are adjusted according to the relative size of the palm pattern when the pattern carrier is replaced. Therefore, the electrocardio-blood oxygen monitor can meet the monitoring requirements of people of different age groups and different sexes, and further expands the application range of the instrument.

Example 7

The embodiment provides a physical examination monitoring system, which is used for carrying out physical examination on physical examination personnel and monitoring corresponding physical examination information, wherein the physical examination information comprises an electrocardiogram, a heart rate, height, weight, blood pressure and the like, and the information is almost indispensable information in the physical examination. The physical examination monitoring system comprises an electrocardio-blood oxygen monitor, a height testing device, a weight testing device and a blood pressure testing device. The height testing device is used for detecting the height of a physical examination person, the weight testing device is used for detecting the weight of the physical examination person, and the blood pressure testing device is used for detecting the blood pressure of the physical examination person. Wherein, the electro-cardio blood oxygen monitor is any one of the electro-cardio blood oxygen monitors provided in the embodiments 1 to 6. The system applies any one of the ECG blood oxygen monitors provided in the above embodiments 1-6 to the monitoring process of physical examination, which can improve the physical examination efficiency, accelerate the physical examination speed and reduce the labor intensity of medical staff in physical examination.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An electrocardiographic blood oxygen monitor, comprising:

a base;

a display module mounted on the base;

at least one test part disposed on the base; each testing part is provided with a testing area in a palm shape, the palm center part of the testing area is an electrocardio testing part, and the finger tip part of one of the fingers of the testing area is a blood oxygen testing part;

at least one electrocardiographic touch sheet corresponding to the at least one test section; each electrocardio touch sheet is arranged on a corresponding electrocardio test part;

at least one heart rate touch sheet corresponding to the at least one test section; each heart rate touch sheet is arranged on the corresponding blood oxygen test part;

the electrocardio sensor module is arranged on the base and is electrically connected with the electrocardio touch sheet; the electrocardio sensor module detects the hand electrocardio information at the electrocardio test part through the electrocardio touch sheet; and

the heart rate sensor module is arranged on the base and is electrically connected with the heart rate touch sheet; the heart rate sensor module detects hand heart rate information on the blood oxygen test part through the heart rate touch sheet; the display module is used for displaying the hand electrocardio information and the hand heart rate information.

2. The oximetry according to claim 1, wherein the number of the test portions, the number of the electrocardial touch sheets and the number of the heart rate touch sheets are two, and the two test portions are respectively disposed on two opposite sides of the base.

3. The oximeter of claim 2, wherein the test areas of the two test sections are respectively provided with a left palm pattern and a right palm pattern; the left palm pattern is matched with the left hand of the human body, and the right palm pattern is matched with the right hand of the human body.

4. The oximetry of claim 1, further comprising:

at least one proximity sensor corresponding to the at least one test section; each proximity sensor is mounted on a test area of a corresponding test section.

5. The oximetry of claim 1, further comprising:

the base is arranged on the detachable support.

6. The oximetry of claim 5, further comprising:

a plurality of universal wheels mounted on a bottom end of the detachable bracket.

7. The oximetry of claim 1, further comprising:

a battery or a rechargeable lithium battery mounted in the base and configured to supply power to the display module, the electrocardiograph sensor module, and the heart rate sensor module.

8. The oximetry of claim 1, further comprising:

the start-stop button is arranged on the base and is used for simultaneously opening or closing the display module, the electrocardio sensor module and the heart rate sensor module;

a switch button mounted on the base for selecting one of the hand electrocardiographic information and the hand heart rate information to be displayed on the display module.

9. The oximetry according to claim 3, wherein the ecg touch pad is movably mounted to the ecg testing site, and the heart rate touch pad is movably mounted to the oximetry testing site; the left palm pattern/the right palm pattern are arranged on a pattern carrier, and the pattern carrier is detachably arranged on the test area.

10. A physical examination monitoring system comprises an electrocardio-blood oxygen monitor, a height testing device, a weight testing device and a blood pressure testing device; the height testing device is used for detecting the height of a physical examination person, the weight testing device is used for detecting the weight of the physical examination person, and the blood pressure testing device is used for detecting the blood pressure of the physical examination person; characterized in that the electro-cardio blood oxygen monitor is the electro-cardio blood oxygen monitor as claimed in any one of claims 1 to 9.

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