CN212037517U - Portable data acquisition device for acquiring electrocardiogram data - Google Patents

Abstract

The application discloses a portable data acquisition unit for collecting electrocardio data, belongs to electrocardio measuring instrument technical field. This portable data collection station includes casing, collection part, processing part and power supply unit, wherein: the acquisition component, the processing component and the power supply component are all positioned in the shell, the processing component is respectively electrically connected with the acquisition component and the power supply component, and the power supply component is electrically connected with the acquisition component; the acquisition component comprises a lead wire interface, the power supply component comprises a charging interface, and the shell is respectively provided with a lead wire connecting opening and a charging opening; lead the same one side that line connection opening and charging opening lie in the casing, lead the distance between line connection opening and the charging opening and be less than target value, when inserting in leading the line interface and lead line interface matched with lead line plug, the opening that charges is sheltered from by leading the line plug. By the adoption of the method and the device, the use flexibility of the portable data acquisition unit can be improved.

Description

Portable data acquisition device for acquiring electrocardiogram data

Technical Field

The application relates to the technical field of electrocardiogram measuring instruments, in particular to a portable data acquisition device for acquiring electrocardiogram data.

Background

The electrocardiographic monitoring is the most basic examination means for diagnosing cardiovascular diseases, carries out real-time electrocardiographic monitoring on users to find the abnormal change of electrocardiography in time, and has important significance for preventing and treating the cardiovascular diseases.

In the related art, users usually use an electrocardiographic measurement instrument provided in a hospital to measure electrocardiographic data. For example, when a user intends to perform electrocardiographic measurement, the user needs to go to a hospital and a professional doctor operates an electrocardiographic measurement instrument to perform electrocardiographic measurement on the user.

In the course of implementing the present application, the inventors found that the related art has at least the following problems:

when the electrocardio measuring instrument is used, professional medical personnel are required to operate the electrocardio measuring instrument, so that the electrocardio measuring instrument has large use limitation and poor flexibility.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a portable data acquisition device for acquiring electrocardiogram data, which can solve the problems in the related art. The technical scheme is as follows:

the utility model provides a portable data collection station for gathering electrocardio data, portable data collection station includes casing, acquisition component, processing part and power supply unit, wherein:

the acquisition component, the processing component and the power supply component are all positioned in the shell, the processing component is respectively electrically connected with the acquisition component and the power supply component, and the power supply component is electrically connected with the acquisition component;

the acquisition component comprises a lead wire interface, the power supply component comprises a charging interface, and a lead wire connecting opening and a charging opening are respectively arranged at positions on the shell corresponding to the lead wire interface and the charging interface;

lead line connection opening with the opening that charges is located the same one side of casing, lead line connection opening with the distance between the opening that charges is less than the target value, when insert in the lead line interface with lead line interface matched with lead line plug, the interface that charges is sheltered from by the lead line plug.

Optionally, the housing comprises a first housing, a second housing and a middle shell;

the first shell and the second shell are fixed on the middle shell, and the first shell and the second shell are opposite in position;

the lead wire connecting opening and the charging opening are both located on the middle shell.

Optionally, the lead wire interface is a high-definition multimedia interface HDMI interface.

Optionally, the charging interface is a C-Type universal serial bus USB Type-C interface.

Optionally, the portable data collector further includes a transmission component, the transmission component is located in the housing, and the transmission component is electrically connected to the processing component and the power supply component, respectively.

Optionally, the transmission component includes at least one of a bluetooth component or a WIFI component.

Optionally, the portable data collector further includes a storage component, the storage component is located in the housing, and the storage component is electrically connected to the collection component, the processing component, and the power supply component, respectively.

Optionally, the portable data collector further includes one or more indicator lights, the one or more indicator lights are mounted on the housing, and each indicator light is electrically connected to the processing component and the power supply component respectively.

Optionally, the indicator light is a signal indicator light, a power indicator light or a wireless indicator light.

Optionally, the portable data collector further includes a power key, the power key is installed on the housing, and the power key is electrically connected to the processing component and the power component, respectively.

Optionally, the portable data collector further includes a sound pickup part, the sound pickup part is installed in the housing, and a through hole is provided at a position on the housing corresponding to the sound pickup part;

the sound pickup part is respectively electrically connected with the processing part and the power supply part.

Optionally, the portable data collector further includes a sound playing component, the sound playing component is installed in the casing, and a through hole is formed in the casing at a position corresponding to the sound playing component;

the sound playing part is electrically connected with the processing part and the power supply part respectively.

The beneficial effects brought by the technical scheme provided by the embodiment of the application at least comprise:

in the embodiment of the disclosure, the portable data collector has a small size, and can be carried by a user, and when the user measures the electrocardiogram data, the user only needs to connect the lead wire on the lead electrode to the lead wire interface of the collecting component, so that the portable data collector is simple to operate, does not need to be operated by professional medical personnel, and further can improve the use flexibility of the portable data collector.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a portable data collector provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a portable data collector provided in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a portable data collector provided in an embodiment of the present application;

fig. 4 is a schematic structural diagram of a lead plug adapted to a lead interface according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a portable data collector provided in an embodiment of the present application;

fig. 6 is a schematic structural diagram of a portable data collector provided in an embodiment of the present application.

Description of the figures

1. Housing 2, collecting Member

3. Processing unit 4 and transfer unit

5. Power supply unit 6 and storage unit

7. Indicator light 8, power key

9. Lead wire plug 10, lead wire

11. Lead wire connecting opening 12 and charging opening

13. First casing 14, second casing

15. Middle shell 21 and lead wire interface

51. Charging interface 91 and conductor

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

The embodiment of the disclosure provides a portable data acquisition device for acquiring electrocardiogram data, which can also be called as a monitoring box, and the portable data acquisition device can be carried about, so that a user can measure the electrocardiogram condition anytime and anywhere. For example, this portable data collection station can cooperate with wearable electrocardio monitoring clothing and use, and is concrete, can have the bag of accomodating of placing this portable data collection station on this electrocardio monitoring clothing, and this portable data collection station places in this bag of accomodating, and the portable data collection station passes through lead line electric connection with the electrode of leading on the electrocardio monitoring clothing, and the user wears this electrocardio monitoring clothing after, starts this portable data collection station, alright in order to measure the electrocardio condition.

In a possible application scenario, the portable data acquisition unit is matched with a wearable electrocardiogram monitoring garment for use, the electrocardiogram monitoring garment can comprise a plurality of lead electrodes, and a plurality of lead wires connected with the lead electrodes are converged to form a lead wire plug. The lead wire plug is adapted to an interface (hereinafter, referred to as a lead wire interface) of the portable data acquisition device, and when the lead wire plug is inserted into the interface of the portable data acquisition device, the lead electrode and the portable data acquisition device can be electrically connected through the lead wire. Therefore, after the user wears the electrocardio monitoring coat, the lead electrodes can be respectively attached to the lead positions on the body one by one; then, the user only needs to insert the lead wire plug into the lead wire interface of the portable data collector and start the portable data collector, so that the electrocardio data can be measured, the operation is simple, and no professional medical personnel are needed for matching.

In order to enable a user to check the electrocardiogram condition of the user at any time, correspondingly, an application program for checking electrocardiogram data can be installed on the mobile phone of the user, and the mobile phone and the portable data collector can be connected through Bluetooth, a data line or WIFI (Wireless Fidelity). Therefore, the user can open and log in the application program on the mobile phone to check the electrocardiogram data acquired by the portable data acquisition unit.

As shown in fig. 1, the portable data collector includes a housing 1, a collecting part 2, a processing part 3 and a power supply part 5, wherein: the acquisition component 2, the processing component 3 and the power supply component 5 are all positioned in the shell 1, the processing component 3 is respectively electrically connected with the acquisition component 2 and the power supply component 5, and the power supply component 5 is respectively electrically connected with the acquisition component 2 and the transmission component 4; the acquisition component 2 comprises a lead wire interface 21, the power supply component 5 comprises a charging interface 51, and as shown in fig. 2, a lead wire connection opening 11 and a charging opening 12 are respectively arranged at positions on the shell 1 corresponding to the lead wire interface 21 and the charging interface 51; lead and lead line connection opening 11 and charge opening 12 and be located the same side of casing 1, lead the distance between line connection opening 11 and the opening 12 of charging and be less than the target value, when inserting in leading line interface 21 and leading line interface 21 matched with lead line interface, charge interface 51 and be sheltered from by leading line plug.

The processing component 3 may be a processing center of the portable data acquisition device, and is configured to acquire electrocardiographic data from the acquisition component 2, and control the transmission component 4 to transmit the acquired electrocardiographic data to the computer device, so that the computer device displays an electrocardiogram formed by the electrocardiographic data, and when the computer device detects that a certain electrocardiographic data is not within a threshold range, alarm information and the like may also be generated.

In practice, the portable data collector is small in shape and size so as to be carried around by a user, and for example, may have a flat box-like structure in appearance as shown in fig. 3, and may have dimensions of 75mm × 75mm × 15mm in appearance. The shape of the shell 1 of the portable data acquisition unit corresponds to the appearance of the portable data acquisition unit, and the shell 1 is used for protecting parts in the portable data acquisition unit.

Wherein, in order to further improve portable collector's pleasing to the eye, it is corresponding, as shown in fig. 3, this portable collector's corner has fillet structure, compares like this and can not improve portable collector's pleasing to the eye as far as right angle structure, also can not appear the condition that the user is bruised by the right angle department.

As shown in fig. 2 and with reference to fig. 3, the housing 1 may include a first housing 13, a second housing 14, and a middle case 15, the first housing 13 and the second housing 14 are fixed to the middle case 15, the first housing 13 and the second housing 14 are located opposite to each other, and the lead wire connection opening 11 and the charging opening 12 are located on the middle case 15.

In practice, the first housing 13 and the second housing 14 may be fixed to the middle shell 15, respectively, or the first housing 13 and the middle shell 15 may be integrally formed, and the second housing 14 and the middle shell 15 may be integrally formed, or the second housing 14 and the middle shell 15 may be integrally formed, and the first housing 13 and the middle shell 15 may be fixed, and the like. Therefore, the portable data acquisition device has the advantages of compact structure, small and exquisite appearance, convenience for carrying by a user and wide application range.

The acquisition component 2 of the portable data acquisition device is used for electrically connecting with the lead electrode to acquire user electrocardiographic data, and specifically, the acquisition component may be an analog front-end chip, for example, an ADS1298IPAGR analog front-end chip.

In practice, the internal circuit configuration of the acquisition component 2 is associated with the lead system used therewith, for example, the acquisition component 2 may be adapted to one or more of 3-lead, 5-lead, 12-lead, and 18-lead systems. In order to avoid that noise interference has an influence on the measurement result, the acquisition component 2 may accordingly comprise a filter circuit, which may be an RC filter circuit. In order to avoid the influence of static electricity on the electrocardiogram measurement result, correspondingly, the acquisition component 2 may further include a static electricity protection circuit. Therefore, the acquisition part 2 of the portable data acquisition device is provided with the filter circuit and the electrostatic protection circuit, so that the interference of noise, static electricity and the like on the acquired electrocardio data can be avoided, and the accuracy of the portable data acquisition device for measuring the electrocardio data can be improved.

As described above, the collecting component 2 of the portable data collector is used for electrically connecting with the lead electrode, and correspondingly, the collecting component 2 may include the lead wire interface 21, as shown in fig. 2, and the position of the casing 1 corresponding to the lead wire interface 21 is provided with the lead wire connecting opening 11. Thus, the lead wire plug formed by gathering the lead wires connected with the lead electrodes can be inserted into the corresponding lead wire interface 21 in the lead wire connecting opening 11, thereby realizing the electrical connection between each lead electrode and the collecting component 2. Therefore, after the user wears the electrocardiogram monitoring clothes, each lead electrode is respectively attached to the lead position on the user body, so that the acquisition component 2 can acquire the electrocardiogram data of the user through the lead electrodes.

The connection line Interface 21 may be an HDMI (High Definition Multimedia Interface) Interface.

The power supply unit 5 of the portable data collector is used for supplying electric energy to other units in the portable data collector, so that the other units can work.

In an implementation, the power supply unit 5 may include a battery and a management circuit, the battery is electrically connected to the management circuit, and the management circuit is electrically connected to other units of the portable data collector, for example, the management circuit is electrically connected to the collection unit 2, the processing unit 3, and the transmission unit 4.

The battery may be a rechargeable battery, such as a lithium battery, and the power supply part 5 may include a charging interface 51, as shown in fig. 2, and a charging opening 12 is disposed on the housing at a position corresponding to the charging interface 51. The charging interface 51 may be a USB (Universal Serial Bus) Type-C interface.

In one possible application, in order to avoid danger caused by the user performing electrocardiographic measurement while charging the portable data collector, correspondingly, as shown in fig. 2, the lead wire connection opening 11 and the charging opening 12 are located on the same side of the housing 1, the distance between the lead wire connection opening 11 and the charging opening 12 is smaller than a target value, and when a lead wire plug matched with the lead wire interface 21 is inserted into the lead wire interface 21, the charging interface 51 is shielded by the lead wire plug.

The specific size of the target value is related to the size of the lead wire plug, for example, when the size of the lead wire plug is small, the target value is also small, when the size of the lead wire plug is large, the target value can be slightly larger, the specific value of the target value can be determined by a technician according to the actual size of the lead wire plug.

In an implementation, in order to realize that when a lead plug is inserted into the lead interface 21, the charging interface 51 is shielded by the lead plug, and accordingly, the size of the lead plug is relatively large, the charging opening 12 is relatively close to the lead connection opening 11, and the distance between the charging interface 51 corresponding to the charging opening 12 and the lead interface 21 corresponding to the lead connection opening 11 is relatively close, so that when the lead plug is inserted into the lead interface 21, the charging opening 12 is shielded by the lead plug. Another possible mode may be that the lead wire plug 9 may include a conductor 91 as shown in fig. 4, and when the conductor 91 of the lead wire plug 9 is inserted into the lead wire interface 21, a portion between the conductor 91 of the lead wire plug 9 and the end of the lead wire 10 may block the charging interface 51, so that when the lead wire plug is inserted into the lead wire interface 21, the charging interface 51 is blocked by the lead wire plug.

Therefore, when a user charges the portable data acquisition device, and the charging plug of the power adapter of the portable data acquisition device is inserted into the charging interface 51, the plug of the data line inserts the lead wire plug into the lead wire interface 21, so that interference is caused, and the lead wire plug cannot be inserted into the lead wire interface 21 to measure the electrocardiogram data. When the user inserts the lead wire plug into the lead wire interface 21, the lead wire plug will block the charging interface 51, so that the charging plug of the power adapter cannot be inserted into the charging interface 51. Therefore, the portable data acquisition device cannot be charged and used for measuring the electrocardio simultaneously, so that danger caused by the fact that the electrocardio measurement is carried out when a user charges the portable data acquisition device can be avoided, and the use safety of the portable data acquisition device can be improved.

In a possible implementation, the portable data collector may have a display component thereon, and the processing component may control the display component to display the measurement result. In order to reduce the processing function of the portable data collector, correspondingly, after acquiring the electrocardiographic data, the portable data collector uploads the electrocardiographic data to the computer device, and the computer device performs operations such as judgment, display and the like on the electrocardiographic data, and in order to realize data transmission, as shown in fig. 5, the portable data collector may further include a transmission component 4, the transmission component 4 is located in the housing 1, and the transmission component 4 is electrically connected with the processing component 3 and the power supply component 5 respectively.

The transmission component 4 is configured to send electrocardiographic data to a computer device, and may include at least one of a bluetooth component or a WIFI (Wireless Fidelity) component.

In an implementation, in the case that the transmission component 4 includes a WIFI component, the computer device may be a server on a medical platform, so that medical personnel can obtain an electrocardiogram of each user from the server on the medical platform. Or, under the condition that the transmission component 4 includes a WIFI component or a bluetooth component, the computer device may also be a terminal of the user, and the user may check the electrocardiogram of the user through an electrocardiogram application installed on the terminal.

In a possible application, the portable data collector can send the electrocardiographic data collected by the collecting component 2 to the computer equipment in real time through the transmission component 4, and can also store the electrocardiographic data collected by the collecting component 2 first and send the stored electrocardiographic data to the computer equipment according to a certain period. In the case of the former real-time transmission, the transmission cycle is relatively short, and the electrocardiographic data acquired by the acquisition unit 2 can be buffered in the processing unit 3. For the latter, according to a certain period, for example, 1 hour or 5 hours, the sending period is relatively long, the electrocardiographic data collected by the collecting component 2 can be stored in the storage component, and correspondingly, as shown in fig. 6, the portable data collector may further include a storage component 6, the storage component 6 is located in the housing 1, and the storage component is electrically connected to the collecting component 2, the processing component 3 and the power supply component 5 respectively.

In this way, the acquisition unit 2 can transmit the acquired electrocardiographic data to the storage unit 6, the storage unit 6 can store the received electrocardiographic data in time sequence, and when a transmission cycle of transmitting the electrocardiographic data to the computer device is reached, the processing unit 3 acquires the electrocardiographic data from the storage unit 6 during a period from the end time point of the previous cycle to the start time point of the previous cycle, and transmits the acquired electrocardiographic data to the computer device via the transmission unit 4.

The storage unit 6 may be a micro Secure Digital TF card, which is a short for Trans-flash card and is a micro SD (Secure Digital) card.

In a possible embodiment, the above-mentioned collecting part 2, processing part 3, transmission part 4, power supply part 5, etc. may be mounted on a PCB (Printed Circuit Board) Circuit Board, and the electrical connection is realized through a flat cable on the PCB Circuit Board.

In a possible embodiment, referring to fig. 3, the portable data collector further comprises a power key 8, the power key 8 is mounted on the housing 1, for example, the power key 8 can be fixed to the middle housing by means of hot riveting, and the power key 8 is electrically connected to the processing unit 3 and the power unit 5 respectively in an electrical connection relationship.

The power key 8 is used to implement the start and the stop of the portable data collector, for example, the long press of the power key 8 can start the portable data collector. The power key 8 may be a touch key disposed on the housing 1. The power key 8 may also be a mechanical key, and an opening is provided on the housing 1 at a position corresponding to the power key 8, and the power key 8 may be installed in the opening.

In a possible embodiment, the portable data collector can also wake up the work by voice, for example, the portable data collector can further comprise a sound pickup part, which can be a microphone, and the sound pickup part is installed in the housing 1, and a through hole is arranged on the housing 1 at a position corresponding to the sound pickup part; the sound pickup part is respectively electrically connected with the processing part 3 and the power supply part 5. Therefore, the user can start the portable data collector to work in a voice mode.

In a possible implementation manner, the portable data collector may also play the measurement result to the user, and correspondingly, the portable data collector may further include a sound playing component, where the sound playing component may be a speaker, the sound playing component is installed in the housing 1, and a through hole is provided on the housing 1 at a position corresponding to the sound playing component; the sound playing part is respectively electrically connected with the processing part 3 and the power supply part 5. Thus, after the portable data acquisition device acquires the electrocardio data within a period of time, the measurement result can be played to the user, for example, the contents of 'various electrocardio data are normal', 'a certain electrocardio data is higher' and 'a certain electrocardio data is lower' can be played to the user.

In one possible application, referring again to fig. 3, the portable data collector may further include one or more indicator lights 7, the indicator lights 7 are mounted on the housing 1, and each indicator light 7 is electrically connected to the processing unit 3 and the power supply unit 5.

Wherein one or more indicator lights 7 are mounted on the housing 1, for example, and may be heat staked to the center housing.

In implementations, the indicator light may be a signal indicator light, a power indicator light, or a wireless indicator light. For example, all of the one or more indicator lights 7 may be a signal indicator light, a power indicator light or a wireless indicator light, and for example, the one or more indicator lights 7 may also have one or two or three of the power indicator light, the signal indicator light and the wireless indicator light.

In order to distinguish the power indicator, the signal indicator and the wireless indicator, the signal indicator can display green, the power indicator can display yellow and the wireless indicator can display blue correspondingly.

In implementation, the signal indicator light can be used for indicating whether the acquired electrocardiogram data is abnormal or not. The signal indication lamp can also be used for instructing whether this portable data collection station appears unusually, for example, under this portable data collection station normal work, the signal indication lamp can be in green scintillation state, when certain lead wire appears droing, the signal indication lamp can be in green quick scintillation state to remind the user. The power indicator can be used to indicate the current power condition of the power supply unit 5, for example, when the power of the portable data collector is low, the power indicator can be in a yellow flashing state, when the portable data collector is in a charging state, the power indicator can be in a yellow normally-on state, when the portable data collector is fully charged, the power indicator can be in an off state, and the signal indicator can be in a green normally-on state. The wireless indicator light may be used to indicate whether the transmission component 4 is currently capable of transmitting data or not, for example, when the portable data collector is in a WIFI connection state, the wireless indicator light may be in a blue flashing state, and when the portable data collector is in a connection state with a mobile phone of a user, the wireless indicator light may be in a blue flashing state.

In a possible embodiment, the one or more indicator lights 7 include a power indicator light, and the brightness of the power indicator light may be linear with the amount of power of the power component. Specifically, when the electric quantity in the power supply part is sufficient, the brightness of the power supply indicator lamp is strong; when the electric quantity of the power supply part is low, the brightness of the power supply indicator lamp is weak. Alternatively, the power supply indicator may be configured to determine the power condition of the power supply unit 5 through the states of the power supply indicator such as normally on, flashing, and off, for example, when the power supply unit 5 has sufficient power, the power supply indicator is in a normally off state; when the power supply section 5 has a small amount of power, the power indicator lamp is in a blinking state.

In a possible embodiment, the one or more indicator lights 7 include a plurality of power indicator lights, and the number of lights emitted by the power indicator lights may be related to the amount of power supplied to the power supply unit. For example, when the power supply part 5 has a high electric quantity, all the power supply indicator lamps emit light; when the electric quantity of the power supply part 5 is moderate, half of the power supply indicating lamps emit light, and the other half of the power supply indicating lamps are in an off state; when the electric quantity of the power supply part 5 is low, one power supply indicator lamp is in a light-emitting state, and the other power supply indicator lamps are in a light-off state.

Therefore, after the portable data collector is started by a user, the current electric quantity condition of the power supply part 5 can be judged through the current state of the power supply indicator lamp, and then the portable data collector can be charged in time, so that the normal use of the user is prevented from being delayed. The user charges for portable data collection station in time, has also protected portable data collection station, can avoid power supply unit to last work under the low-power condition, and then can prolong portable data collection station's life.

Correspondingly, the capacity of the battery of the portable data collector is large, and the portable data collector can continuously work for at least 24 hours after being fully charged, so that the user can continuously measure the electrocardiogram data within 24 hours.

In a possible application, the one or more indicator lights 7 may include a signal indicator light, and the signal indicator light may be used to indicate whether the acquired electrocardiographic data is abnormal. Specifically, when a user uses the electrocardiograph monitor and the portable data acquisition device to measure the electrocardiographic condition, each lead electrode corresponds to one piece of electrocardiographic data, if a certain lead electrode is not attached to the corresponding lead position, the processing component 3 can detect the electrocardiographic data corresponding to the lead electrode, the difference between the electrocardiographic data and the electrocardiographic data under normal conditions is large, that is, the electrocardiographic data corresponding to the lead electrode is abnormal, in this time, the processing component can control the signal indicating lamp to flash to remind the user, the user can check each lead electrode based on the flashing of the signal indicating lamp, and further, when the electrocardiograph is measured by using the portable data acquisition device, the user can be reminded through the signal indicating lamp when the operation is wrong, so that the effectiveness of the electrocardiographic measurement result is enhanced.

In a possible application, the processing component 3 of the portable data acquisition device also has a simple processing function, for example, the received electrocardiogram data can be judged, and if the received electrocardiogram data is not within the corresponding threshold range, the user can be reminded in a way of flashing a signal indicating lamp so as to draw the high attention of the user, so that the user can seek medical advice in time.

In one possible application, the one or more indicator lights 7 may include a wireless indicator light, which may be used to indicate whether the transmission component 4 is currently capable of transmitting data. For example, if the portable data collector is in a good connection state with the computer device, after the portable data collector is started, the wireless indicator light is in an on state or a flashing state as described above, and if the portable data collector is in the start state and the wireless indicator light is in an off state, it indicates that a problem occurs in the connection state between the portable data collector and the computer device, so as to draw the attention of the user and enable the user to perform corresponding operations.

Wherein, through many times of test tests, this portable data collection station can be normal work between ambient temperature for +5 degrees centigrade and +45 degrees centigrade, has high temperature resistant and low temperature resistant characteristic, and this portable data collection station can be at relative humidity for 10% to 95%, atmospheric pressure for 860hPa to 1060hPa between normal work. The above-mentioned ambient temperature, relative humidity and atmospheric pressure are only examples, and are not specifically limited as an application of the present embodiment.

In the embodiment of the disclosure, the portable data collector has a small size, and can be carried by a user, and when the user measures the electrocardiogram data, the user only needs to connect the lead wire on the lead electrode to the lead wire interface of the collecting component, so that the portable data collector is simple to operate, does not need to be operated by professional medical personnel, and further can improve the use flexibility of the portable data collector.

In addition, this portable data collection station's lead line connection opening and the opening that charges are located the same one side of casing, and the distance between lead line connection opening and the opening that charges is less than the target value, when inserting in the lead line interface with lead line interface matched with lead line plug, the interface that charges is sheltered from by the lead line plug. And then realize that this portable data collection station can't charge simultaneously and the electrocardio is measured to can avoid the user to carry out the electrocardio measurement when charging for this portable data collection station, and cause danger, and then, can improve this portable data collection station's safety in utilization.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a portable data collection station for gathering electrocardio data which characterized in that, portable data collection station includes casing (1), acquisition unit (2), processing unit (3) and power supply unit (5), wherein:

the acquisition component (2), the processing component (3) and the power supply component (5) are all positioned in the shell (1), the processing component (3) is respectively electrically connected with the acquisition component (2) and the power supply component (5), and the power supply component (5) is electrically connected with the acquisition component (2);

the acquisition component (2) comprises a lead wire interface (21), the power supply component (5) comprises a charging interface (51), and a lead wire connection opening (11) and a charging opening (12) are respectively arranged at positions, corresponding to the lead wire interface (21) and the charging interface (51), on the shell (1);

lead line connection opening (11) with charge opening (12) and be located same one side of casing (1), lead line connection opening (11) with the distance between charging opening (12) is less than the target value, works as insert in lead line interface (21) with when leading line interface (21) matched with leads line plug, interface (51) that charges by lead line plug shelters from.

2. The portable data collector according to claim 1, characterized in that the housing (1) comprises a first housing (13), a second housing (14) and a middle shell (15);

the first shell (13) and the second shell (14) are fixed on the middle shell (15), and the first shell (13) and the second shell (14) are opposite in position;

the lead wire connecting opening (11) and the charging opening (12) are both positioned on the middle shell (15).

3. The portable data collector as claimed in claim 1, wherein the lead wire interface (21) is a High Definition Multimedia Interface (HDMI) interface.

4. The portable data collector of claim 1, wherein the charging interface (51) is a Type C universal serial bus USB Type-C interface.

5. The portable data collector according to claim 1, further comprising a transmission component (4), wherein the transmission component (4) is located in the housing (1), and the transmission component (4) is electrically connected to the processing component (3) and the power supply component (5), respectively.

6. The portable data collector of claim 5, wherein the transmission component (4) comprises at least one of a Bluetooth component or a Wireless Fidelity component.

7. The portable data collector according to claim 1, further comprising a storage component (6), wherein the storage component (6) is located in the housing (1), and the storage component (6) is electrically connected with the collection component (2), the processing component (3) and the power supply component (5), respectively.

8. The portable data collector according to claim 1, further comprising one or more indicator lights (7), wherein the one or more indicator lights (7) are mounted on the housing (1), and each indicator light (7) is electrically connected to the processing component (3) and the power supply component (5), respectively.

9. The portable data collector according to claim 8, characterized in that the indicator light (7) is a signal indicator light, a power indicator light or a wireless indicator light.

10. The portable data collector according to any one of claims 1-9, further comprising a power key (8), wherein the power key (8) is mounted on the housing (1), and the power key (8) is electrically connected to the processing component (3) and the power component (5), respectively.

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