CN212546919U - Monitor and system for chest pain patient - Google Patents

Abstract

The embodiment of the utility model discloses a monitor and system for chest pain patient. The monitor includes: the device comprises an upper limb blood pressure detection component for detecting the blood pressure of an upper limb, a lower limb blood pressure detection component for detecting the blood pressure of a lower limb, a lower limb artery pulse detection component for detecting the artery pulse of the lower limb, an upper limb body temperature detection component for detecting the body temperature of the upper limb, a lower limb body temperature detection component for detecting the body temperature of the lower limb, a heart rate detection component for detecting the heart rate, a respiratory frequency detection component for detecting the respiratory frequency, at least one pose detection component for detecting the pose of the four limbs, a voice input component and a voice playing component for detecting the consciousness state of a patient through voice, a display and a controller. Therefore, the utility model discloses convenience of customers looks over the physiological parameter of chest pain fast, is favorable to assisting to distinguish the chest pain type.

Description

Monitor and system for chest pain patient

Technical Field

The utility model relates to a medical health guardianship technical field especially relates to a monitor and system for chest pain patient.

Background

Chest pain is a common disease which can endanger life, and needs to be diagnosed in time and corresponding emergency measures are adopted, so that the real-time monitoring of chest pain patients is beneficial to timely diagnosis and emergency treatment. The monitor is a device for measuring and controlling physiological parameters of patients in real time, and is widely applied in the medical industry. The existing monitor is designed according to conventional patients, and when the monitor is applied to the monitoring of patients with chest pain, the monitor is difficult to effectively monitor the patients with chest pain, and the diagnosis and treatment time of the patients with chest pain is delayed. Therefore, it is important to develop a monitor for patients with chest pain.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide a monitor and a system for chest pain patients.

In a first aspect, the present invention provides a monitor for a patient with chest pain, comprising: the device comprises an upper limb blood pressure detection component, a lower limb artery pulse detection component, an upper limb body temperature detection component, a lower limb body temperature detection component, a heart rate detection component, a respiratory frequency detection component, at least one pose detection component, a voice input component and a voice playing component, wherein the upper limb blood pressure detection component is used for detecting upper limb blood pressure, the lower limb blood pressure detection component is used for detecting lower limb artery pulse, the upper limb body temperature detection component is used for detecting upper limb body temperature, the lower limb body temperature detection component is used for detecting lower limb body temperature, the heart rate detection component is used for detecting heart rate, the respiratory frequency detection;

the controller is electrically connected with the upper limb blood pressure detection component, the lower limb artery pulse detection component, the upper limb body temperature detection component, the lower limb body temperature detection component, the heart rate detection component, the respiratory frequency detection component, the pose detection component, the voice input component, the voice playing component and the display.

In one embodiment, the monitor further comprises a wireless communication component;

the controller is electrically connected with the wireless communication component for enabling the monitor to wirelessly communicate with a network.

In one embodiment, the monitor further comprises a self-rescue component that detects a press signal;

the controller is electrically connected with the self-rescue component and used for sending an alarm signal according to the pressing signal obtained by the detection of the self-rescue component.

In one embodiment, the monitor further comprises an acousto-optic component for emitting sound and light to alarm and remind;

the controller is electrically connected with the acousto-optic component and is used for controlling the acousto-optic component to work.

In one embodiment, the monitor further comprises a location component for locating an address;

the controller is electrically connected with the positioning component and used for receiving address information positioned by the positioning component.

In one embodiment, the monitor further comprises a camera component for taking a picture;

the controller is electrically connected with the camera shooting component and is used for controlling the camera shooting component to shoot or carry out remote video call.

In one embodiment, the display adopts a high-definition touch display screen for displaying information and acquiring information input by a user.

In one embodiment, the monitor further comprises a power supply component;

the power supply part comprises a main power supply, a rechargeable battery and a power supply management circuit;

the output end of the main power supply is electrically connected with the input end of the power supply management circuit, and the input end of the main power supply is electrically connected with an external power supply;

the output end of the power management circuit is electrically connected with the rechargeable battery, the upper limb blood pressure detection component, the lower limb artery pulse detection component, the upper limb body temperature detection component, the lower limb body temperature detection component, the heart rate detection component, the respiratory frequency detection component, the pose detection component, the voice input component, the voice playing component and the display.

In one embodiment, the monitor further comprises a shell provided with a containing cavity and a handle;

the handle is positioned at the top of the shell and is used for conveniently carrying the monitor;

the display is located on a front side of the housing.

In a second aspect, the present invention provides a monitoring system for a patient with chest pain, comprising: at least one monitor according to any one of the first aspect for a patient with chest pain.

To sum up, the utility model discloses a monitor for chest pain patient obtains upper limbs blood pressure through upper limbs blood pressure detection part detection, lower limbs blood pressure detection part detection obtains lower limbs blood pressure, lower limbs artery pulse detection part detection obtains lower limbs artery pulse, upper limbs body temperature detection part detection obtains upper limbs body temperature, lower limbs body temperature detection part detection obtains lower limbs body temperature, heart rate detection part detection obtains the heart rate, respiratory frequency detection part detection obtains respiratory frequency, position appearance detection part detection obtains four limbs position appearance, voice input part and voice play part voice detection obtain patient consciousness state, the controller control display shows the physiological parameter that detects in real time, make things convenient for the user to look over the physiological parameter of chest pain fast; according to physiological parameters such as upper limb blood pressure, lower limb artery pulse, upper limb body temperature, lower limb body temperature, heart rate, respiratory frequency, limb pose, patient consciousness state and the like, the method is beneficial to assisting in identifying the type of chest pain. Therefore, the utility model discloses convenience of customers looks over the physiological parameter of chest pain fast, is favorable to assisting to distinguish the chest pain type.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Wherein:

FIG. 1 is a block diagram of a monitor for use with a patient having chest pain according to one embodiment;

FIG. 2 is a schematic view of the monitor of FIG. 1 for use with a patient having chest pain;

FIG. 3 is a schematic diagram of a monitoring system for chest pain patients according to an embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 and 2, in one embodiment, a monitor for a patient with chest pain is provided, comprising: an upper limb blood pressure detection component 111 for detecting upper limb blood pressure, a lower limb blood pressure detection component 112 for detecting lower limb blood pressure, a lower limb artery pulse detection component 121 for detecting lower limb artery pulse, an upper limb body temperature detection component 131 for detecting upper limb body temperature, a lower limb body temperature detection component 132 for detecting lower limb body temperature, a heart rate detection component 141 for detecting heart rate, a respiratory rate detection component 151 for detecting respiratory rate, at least one pose detection component 161 for detecting pose of four limbs, a voice input component 171 and a voice playing component 172 for voice detecting consciousness state of a patient, a display 20 and a controller 30;

the controller 30 is electrically connected to the upper limb blood pressure detecting means 111, the lower limb blood pressure detecting means 112, the lower limb arterial pulse detecting means 121, the upper limb body temperature detecting means 131, the lower limb body temperature detecting means 132, the heart rate detecting means 141, the respiratory rate detecting means 151, the posture detecting means 161, the voice input means 171, the voice playing means 172, and the display 20.

In the monitor for patients with chest pain of the embodiment, the upper limb blood pressure is detected by the upper limb blood pressure detecting part 111, the lower limb blood pressure is detected by the lower limb blood pressure detecting part 112, the lower limb artery pulse is detected by the lower limb artery pulse detecting part 121, the upper limb body temperature is detected by the upper limb body temperature detecting part 131, the lower limb body temperature is detected by the lower limb body temperature detecting part 132, the heart rate is detected by the heart rate detecting part 141, the respiratory frequency is detected by the respiratory frequency detecting part 151, the limb pose is detected by the pose detecting part 161, the consciousness state of the patient is detected by the voice input part 171 and the voice playing part 172, the controller 30 controls the display 20 to display the detected physiological parameters in real time, and the user can conveniently and quickly check the; according to physiological parameters such as upper limb blood pressure, lower limb artery pulse, upper limb body temperature, lower limb body temperature, heart rate, respiratory frequency, limb pose, patient consciousness state and the like, the method is beneficial to assisting in identifying the type of chest pain.

The Controller 30 may be a PLC (Programmable Logic Controller) and/or an FPGA (Field Programmable Gate Array) selected from the prior art, and is not limited in detail herein.

The upper limb blood pressure detection unit 111 may be a blood pressure sensor selected from the prior art, and is not particularly limited by way of example.

The lower limb blood pressure detection unit 112 may be a blood pressure sensor selected from the prior art, and is not limited to this example.

The lower limb artery pulse detection means 121 may be a pulse sensor selected from the prior art, and is not particularly limited by way of example.

The upper body temperature detecting part 131 may be a high-sensitivity temperature sensor selected from the prior art, and is not limited to this example.

The lower limb body temperature detecting part 132 may be a highly sensitive temperature sensor selected from the prior art, and is not particularly limited by way of example.

The heart rate detecting unit 141 may be a heart rate sensor selected from the prior art, and is not limited in this example.

The respiration rate detecting unit 151 may be a respiration rate sensor selected from the prior art, and is not limited in this example.

The posture detecting section 161 may select a posture sensor from the prior art, and is not specifically limited by this example.

The voice input unit 171 may be a microphone selected from the prior art, and is not limited in this embodiment.

The voice playing part 172 may select a mini sound from the prior art, and is not limited in this example.

The monitor comprises a monitor body 80, and the microphone and the mini sound box are positioned on the monitor body 80; the blood pressure sensor, the pulse sensor, the high-sensitivity temperature sensor, the heart rate sensor, the respiratory rate sensor and the pose sensor are located outside the monitor body 80 and are connected with the monitor body 80 through independent data lines.

In one embodiment, the microphone is located outside the monitor body 80 and connected to the monitor body 80 through a data line, so that the microphone can be placed close to a patient with chest pain, and the accuracy of voice input is improved.

In one embodiment, the upper limb blood pressure detecting means 111, the lower limb blood pressure detecting means 112, the lower limb artery pulse detecting means 121, the upper limb body temperature detecting means 131, the lower limb body temperature detecting means 132, the heart rate detecting means 141, the respiratory rate detecting means 151, and the posture detecting means 161 are packaged together at a portion close to the monitor body 80, and are packaged separately at a portion close to the patient end, thereby reducing a wire harness connecting the monitor body 80.

In one embodiment, the upper limb blood pressure detecting component 111, the lower limb blood pressure detecting component 112, the lower limb artery pulse detecting component 121, the upper limb body temperature detecting component 131, the lower limb body temperature detecting component 132, the heart rate detecting component 141, the respiratory rate detecting component 151, and the pose detecting component 161 are respectively provided with a fixing auxiliary belt, which is beneficial to fixing the detecting components at preset positions, so that the detecting components are always fixed at the preset positions, the detection accuracy of the detecting components is improved, and the consistency of the detection results is ensured.

The working principle of the monitor for patients with chest pain is as follows: (1) an upper limb blood pressure detecting means 111 is fixed to an upper limb of a patient, a lower limb blood pressure detecting means 112 is fixed to the upper limb of the patient, a lower limb arterial pulse detecting means 121 is fixed to a lower limb of the patient, an upper limb body temperature detecting means 131 is fixed to the upper limb of the patient, a lower limb body temperature detecting means 132 is fixed to the lower limb of the patient, a heart rate detecting means 141 is fixed to a chest of the patient, a respiratory rate detecting means 151 is fixed to a lower part of the chest of the patient, and a posture detecting means 161 is fixed to the four limbs of the patient; (2) the voice playing part 172 plays a voice to guide the user, the voice input part 171 inputs a voice, and the controller 30 determines the consciousness state of the patient according to the voice input by the voice input part 171; (3) the controller 30 displays physiological parameters of the patient such as upper limb blood pressure, lower limb artery pulse, upper limb temperature, lower limb temperature, heart rate, respiratory frequency, limb pose, patient consciousness state and the like on the display 20 in real time; (4) the controller 30 compares the upper limb blood pressure, the lower limb artery pulse, the upper limb body temperature, the lower limb body temperature, the heart rate, the respiratory frequency, the limb pose and the patient consciousness state with a minimum preset threshold value and a maximum preset threshold value to obtain a comparison result. The doctor or the user preliminarily identifies the chest pain type according to the comparison result.

In one embodiment, the monitor further comprises a wireless communication component 40;

the controller 30 is electrically connected with the wireless communication unit 40 for wireless communication of the monitor with a network.

The wireless communication component 40 may be a WIFI module or a mobile phone card communication component selected from the prior art, which is not limited in this example.

In one embodiment, the monitor further comprises a self-rescue component 511 that detects a press signal;

the controller 30 is electrically connected with the self-rescue component 511 and used for sending an alarm signal according to the pressing signal detected by the self-rescue component 511.

The self-rescue component 511 comprises a button and a fixing band, the button is electrically connected with the controller 30, and one end of the fixing band is connected with the button. The patient only needs to place the button in the hand position, and is fixed through the fixed band, and when emergency appeared, the button was pressed and is sent pressing signal to controller 30, and controller 30 sends alarm signal according to pressing signal.

The alarm signal comprises at least one of a sound alarm signal, an optical alarm signal, a preset short message sending signal and a preset telephone dialing signal. The self-rescue component 511 further enables the chest pain patient to be diagnosed and first-aid timely, and increases the application scene of the monitor, and reduces the use cost of the monitor.

In one embodiment, the monitor further comprises an acousto-optic component for emitting sound and light to alarm and remind;

the controller 30 is electrically connected to the acousto-optic component for controlling the acousto-optic component to operate. The sound and light alarm is generated by the acousto-optic component, so that the position of the chest pain patient can be timely and quickly positioned, and the chest pain patient can be timely diagnosed and treated for first aid.

The audible and visual component may be selected from prior art audible and visual alarms, and is not specifically limited by this example.

In one embodiment, the monitor further comprises a location component for locating an address;

the controller 30 is electrically connected to the positioning component for receiving address information of the positioning component. The location part is used for locating the address, so that the chest pain patient in the moving process can be quickly and accurately located and first aid can be implemented.

The positioning component may be a GPS locator (global positioning system) selected from the prior art, and is not specifically limited by way of example.

In one embodiment, the monitor further comprises a camera component for taking a picture;

the controller 30 is electrically connected to the image pickup device, and is used for controlling the image pickup device to perform image pickup or remote video call.

The camera component may be a high-definition camera selected from the prior art, and is not limited in this example.

The display 20 and the camera shooting component are arranged on the front surface of the monitor body, and the camera shooting component is positioned above the display 20.

In one embodiment, the display 20 employs a high-definition touch screen for displaying information and retrieving information input by a user. The user can input the relevant information of the chest pain patient through the high-definition touch display screen, the relevant information can be stored in the monitor, and the relevant information can also be uploaded to a server of a chest pain center through the wireless communication part 40 of the monitor, so that the timely diagnosis of the chest pain patient is facilitated.

It is understood that the display 20 may also be other display screens, such as a non-touch display screen, and is not limited to the examples.

In one embodiment, the display 20 adopts a full-screen design, which increases the display area and improves the user experience.

In one embodiment, the monitor further comprises a power supply component;

the power supply part comprises a main power supply, a rechargeable battery and a power supply management circuit;

the output end of the main power supply is electrically connected with the input end of the power supply management circuit, and the input end of the main power supply is electrically connected with an external power supply;

the output terminal of the power management circuit is electrically connected to the rechargeable battery, the upper limb blood pressure detection unit 111, the lower limb blood pressure detection unit 112, the lower limb arterial pulse detection unit 121, the upper limb body temperature detection unit 131, the lower limb body temperature detection unit 132, the heart rate detection unit 141, the respiratory frequency detection unit 151, the posture detection unit 161, the voice input unit 171, the voice playback unit 172, and the display 20. When an external power supply is available, the power supply management circuit switches to the main power supply to provide power for the parts of the monitor and charge the rechargeable battery; when no external power supply is available, the power supply management circuit switches to the rechargeable battery to provide power for the parts of the monitor.

The main power supply is used to convert an ac power supply into a dc power supply, and a power adapter may be selected from the prior art, which is not limited in this example.

The rechargeable battery may be a lithium battery selected from the prior art, and is not limited in this example.

The power management circuit may be an integrated circuit selected from the prior art, and is not limited in this embodiment.

In one embodiment, the monitor further comprises a housing having a receiving cavity, a handle 811;

the handle 811 is located at the top of the housing for convenient carrying of the monitor;

the display 20 is located on the front side of the housing.

It is understood that the housing refers to the housing of the monitor body 80.

The shape of the housing may be a rectangular parallelepiped, and the housing may be made of a light plastic material, which is not limited in this example.

In one embodiment, the monitor further comprises a USB interface (universal serial bus), and the controller 30 is electrically connected to the USB interface for controlling the USB interface to transmit data. The USB interface is beneficial for users to rapidly export data in the monitor, and the user experience of the monitor is improved.

In one embodiment, the monitor further comprises an HDMI interface (high definition multimedia interface), and the controller 30 is electrically connected to the HDMI interface for controlling the external display 20 to display the physiological parameter in real time through the HDMI interface. The display 20 externally connected with the large screen is favorable for displaying the physiological parameters in real time through the HDMI interface, and the large screen is convenient for a user to clearly view the physiological parameters, so that the user experience of the monitor is improved.

As shown in FIG. 3, in one embodiment, a monitoring system for a patient with chest pain is provided, comprising: at least one monitor according to any one of the preceding claims for use with a patient suffering from chest pain.

In the monitor for patients with chest pain of the embodiment, the upper limb blood pressure is detected by the upper limb blood pressure detecting part 111, the lower limb blood pressure is detected by the lower limb blood pressure detecting part 112, the lower limb artery pulse is detected by the lower limb artery pulse detecting part 121, the upper limb body temperature is detected by the upper limb body temperature detecting part 131, the lower limb body temperature is detected by the lower limb body temperature detecting part 132, the heart rate is detected by the heart rate detecting part 141, the respiratory frequency is detected by the respiratory frequency detecting part 151, the limb pose is detected by the pose detecting part 161, the consciousness state of the patient is detected by the voice input part 171 and the voice playing part 172, the controller 30 controls the display 20 to display the detected physiological parameters in real time, and the user can conveniently and quickly check the; according to physiological parameters such as upper limb blood pressure, lower limb artery pulse, upper limb body temperature, lower limb body temperature, heart rate, respiratory frequency, limb pose, patient consciousness state and the like, the method is beneficial to assisting in identifying the type of chest pain.

The system also comprises a server, all the monitors are connected with the server through a network, and chest pain center system software is arranged in the server. Therefore, the data of the chest pain patients can be collected, the chest pain patients can be consulted in time, and the diagnosis accuracy is improved.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A monitor for a patient having chest pain, comprising: the device comprises an upper limb blood pressure detection component, a lower limb artery pulse detection component, an upper limb body temperature detection component, a lower limb body temperature detection component, a heart rate detection component, a respiratory frequency detection component, at least one pose detection component, a voice input component and a voice playing component, wherein the upper limb blood pressure detection component is used for detecting upper limb blood pressure, the lower limb blood pressure detection component is used for detecting lower limb artery pulse, the upper limb body temperature detection component is used for detecting upper limb body temperature, the lower limb body temperature detection component is used for detecting lower limb body temperature, the heart rate detection component is used for detecting heart rate, the respiratory frequency detection;

the controller is electrically connected with the upper limb blood pressure detection component, the lower limb artery pulse detection component, the upper limb body temperature detection component, the lower limb body temperature detection component, the heart rate detection component, the respiratory frequency detection component, the pose detection component, the voice input component, the voice playing component and the display.

2. The monitor for a patient with chest pain of claim 1, wherein said monitor further comprises a wireless communication component;

the controller is electrically connected with the wireless communication component for enabling the monitor to wirelessly communicate with a network.

3. The monitor of claim 2, further comprising a self-rescue component that detects a compression signal;

the controller is electrically connected with the self-rescue component and used for sending an alarm signal according to the pressing signal obtained by the detection of the self-rescue component.

4. The monitor for a patient with chest pain according to claim 3, wherein said monitor further comprises an audible and visual means for sounding and lighting an alarm prompt;

the controller is electrically connected with the acousto-optic component and is used for controlling the acousto-optic component to work.

5. The monitor for a patient with chest pain of claim 2, wherein said monitor further comprises a location component for locating an address;

the controller is electrically connected with the positioning component and used for receiving address information positioned by the positioning component.

6. The monitor for a patient with chest pain according to claim 2, wherein said monitor further comprises a camera means for taking a picture;

the controller is electrically connected with the camera shooting component and is used for controlling the camera shooting component to shoot or carry out remote video call.

7. The monitor for patients with chest pain according to any of claims 1-6, wherein said display is a high definition touch screen for displaying information and obtaining user input information.

8. The monitor for a patient with chest pain according to any of claims 1 to 6, wherein said monitor further comprises a power supply unit;

the power supply part comprises a main power supply, a rechargeable battery and a power supply management circuit;

the output end of the main power supply is electrically connected with the input end of the power supply management circuit, and the input end of the main power supply is electrically connected with an external power supply;

the output end of the power management circuit is electrically connected with the rechargeable battery, the upper limb blood pressure detection component, the lower limb artery pulse detection component, the upper limb body temperature detection component, the lower limb body temperature detection component, the heart rate detection component, the respiratory frequency detection component, the pose detection component, the voice input component, the voice playing component and the display.

9. The monitor for a patient with chest pain according to any of claims 1 to 6, wherein said monitor further comprises a housing having a receiving cavity, a handle;

the handle is positioned at the top of the shell and is used for conveniently carrying the monitor;

the display is located on a front side of the housing.

10. A monitoring system for a patient with chest pain, comprising: at least one monitor according to any one of claims 1 to 9 for a patient with chest pain.

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