CN211906967U - Terminal medical equipment data acquisition unit - Google Patents

Abstract

The utility model discloses a terminal medical equipment data collection station belongs to the medical equipment field, including casing, control mainboard, be used for obtaining sweeping yard device, peripheral hardware data interface and the computer data interface of equipment identification code and patient's identity code, the control mainboard is located in the casing, peripheral hardware data interface is located on the top lateral wall of casing, computer data interface is located on the bottom lateral wall of casing, be provided with on the top lateral wall of casing or on the bottom lateral wall with the first draw-in groove of equipment data storage card looks adaptation and with the second draw-in groove of scheme data storage card looks adaptation, first draw-in groove reaches the second draw-in groove all with the control mainboard electricity is connected. The utility model discloses a terminal medical equipment data collection station can bind together patient's identity, the equipment and the data collection that diagnose the process and adopt, can also realize that equipment data and scheme data save respectively and copy.

Description

Terminal medical equipment data acquisition unit

Technical Field

The utility model relates to a medical equipment field especially relates to a terminal medical equipment data collection station.

Background

The existing medical data collector is mostly a handheld terminal, and is mainly convenient for medical staff to collect identity information of patients, and few special data collectors for medical equipment development exist, so that the development difficulty of the data collector of the medical equipment is relatively large, the same data collector is difficult to be compatible with various medical equipment, and the data collector with a data storage function is difficult to take into account patients with different identities. Therefore, almost all hospital medical equipment needs to be connected with a computer at present, the connection with the computer not only invisibly greatly increases the occupied space and the use cost of the medical equipment, but also is not suitable for temporary hospital use places such as 'battlefield hospitals', and the like, thereby indirectly preventing the medical equipment from being applied to emergency rescue.

Chinese patent document publication No. CN107229838A discloses a video inquiry management method, a video inquiry manager and a system. A data acquisition method and a data acquisition unit for medical monitoring equipment are provided, because the data acquisition unit is provided with a mapping relation database, when a new physical link is established with the medical monitoring equipment, a handshake protocol is sent to the medical monitoring equipment and communication connection is established, the identification of the medical monitoring equipment is completed, then a corresponding data acquisition request instruction is sent to the medical monitoring equipment so as to acquire the data of the medical monitoring equipment, meanwhile, the time data acquired each time is recorded, then, a corresponding analysis program of the medical monitoring equipment is operated, the acquired data is analyzed to obtain original data, and finally, the original data and the time data corresponding to the acquired data are packaged together in a preset data format. The data collector only tries to solve the problem of handshaking between the data collector and the medical monitoring equipment, and cannot effectively solve the problems that the data collector needs to identify patients with different identities and needs to be adapted to service systems with different requirements and the like.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem that a terminal medical equipment data acquisition unit is proposed, can bind the identity of patient, the equipment that diagnoses the process and gather data and be in the same place for no matter under the online or disconnected net condition, can both realize terminal equipment's data acquisition, this kind of data acquisition unit can adapt to different business systems moreover. The utility model provides a terminal medical equipment data collection station can also realize that equipment data and scheme data save respectively and copy.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a pair of terminal medical equipment data collection station, including casing, control mainboard, the yard device of sweeping, peripheral hardware data interface and the computer data interface that are used for obtaining equipment identification code and patient's identity code, sweep yard device with the signal input part electricity of control mainboard is connected, the data acquisition end of control mainboard with peripheral hardware data interface electricity is connected, the data output end of control mainboard with computer data interface electricity is connected, the control mainboard is located in the casing, peripheral hardware data interface is located on the top lateral wall of casing, computer data interface is located on the bottom lateral wall of casing;

and a first clamping groove matched with the equipment data storage card and a second clamping groove matched with the scheme data storage card are arranged on the top side wall or the bottom side wall of the shell, and the first clamping groove and the second clamping groove are electrically connected with the control mainboard.

The utility model provides a further technical scheme lies in, one side of first draw-in groove is provided with first plug-in card status light, one side of second draw-in groove is provided with second plug-in card status light.

The utility model provides a further technical scheme lies in, still include the touch screen, the touch screen is located the front of casing and with the control mainboard electricity is connected.

The utility model provides a further technical scheme lies in, sweep a yard device configuration and be infrared bar code collector, infrared bar code collector with the control mainboard electricity is connected, infrared bar code collector fixes in the front of casing, and is located the top of touch screen.

The utility model provides a further technical scheme lies in, it configures into the scanning rifle to sweep a yard device, the scanning rifle passes through the data line and is connected with scanning data interface electricity, scanning data interface with control mainboard electricity is connected.

The utility model provides a further technical scheme lies in, be provided with the radiator on the left side wall of casing and the right side wall.

The utility model provides a further technical scheme lies in, the upper right side of touch-control screen is provided with equipment status indicator lamp and fault alarm lamp, equipment status indicator lamp reaches the fault alarm lamp all with the control mainboard electricity is connected.

The utility model provides a further technical scheme lies in, still includes the portrait camera, the portrait camera with the control mainboard electricity is connected.

The utility model provides a further technical scheme lies in, still include two supporting legs, the supporting leg is located the bottom of casing, two the one end of supporting leg all with casing rotatable coupling, be provided with on the casing with two the supporting leg corresponds being used for of setting and holds the holding tank of supporting leg.

The utility model provides a further technical scheme lies in, every all be provided with a buffering foot on the supporting leg, still be provided with two other buffering feet on the casing, four the buffering foot is the symmetric distribution.

The utility model has the advantages that:

the utility model provides a terminal medical equipment data collection station is through associating patient's identity code, equipment identification code with real-time supervision data, makes the utility model provides a data collection station can bind together patient's identity, the terminal medical equipment and the data collection that the process of diagnosing adopted for no matter online or under the disconnected net condition, can both realize terminal equipment's data acquisition. Through setting up scheme extraction unit, can rationally set up different terminal medical equipment data extraction schemes according to the treatment scene of difference, can make data collector data collection can adapt to the demand of different business systems. Additionally, the utility model provides an equipment data collection station adopts the mode storage data of two backups, can enough make things convenient for storage terminal medical equipment's whole real-time supervision data, also effectively solves the awkwardness that medical equipment's part monitoring data is not business system's demand data, and business system is according to actual demand extraction data completely. Furthermore, the utility model provides a terminal medical equipment data collection station through set up with the first draw-in groove of equipment data storage card looks adaptation and with the second draw-in groove of scheme data storage card looks adaptation, can also realize that equipment data and scheme data save respectively and copy, very big promotion terminal medical equipment data collection station ease of use.

Drawings

Fig. 1 is a functional block diagram of a data collector provided in an embodiment of the present invention;

fig. 2 is a flow chart of a data collection method provided in an embodiment of the present invention;

fig. 3 is a hardware front view of a data collector provided in an embodiment of the present invention;

FIG. 4 is a hardware back view of a data collector provided in an embodiment of the present invention

Fig. 5 is a top view of the hardware of the data collector provided in the embodiment of the present invention;

fig. 6 is a hardware bottom view of a data collector provided in the embodiment of the present invention;

fig. 7 is a hardware side view of a data collector provided in an embodiment of the present invention;

fig. 8 is a partial schematic view of a data collector provided in an embodiment of the present invention;

fig. 9 is a schematic circuit diagram of a data collector provided in an embodiment of the present invention.

In the figure:

11. a control module; 12. a data acquisition unit; 13. a data management module; 111. a second recognition unit; 112. a first recognition unit; 113. a decision unit; 114. a scheme extraction unit; 14. an anesthesia machine; 15. a monitor; 131. a data distributor; 132. a device data storage unit; 133. a recipe data storage unit; 134. a data monitoring unit; 2. a housing; 1. a control main board; 3. a touch screen; 4. a peripheral data interface; 5. a computer data interface; 6. a heat sink; 7. a status indicator light; 8. a fault warning lamp; 9. an infrared code scanner; 10. a scanning gun; 31. a first card slot; 32. a second card slot; 33. a first card insertion status light; 34. a second card insertion status light; 20. a portrait camera; 40. supporting legs; 41. a buffer pin; 42. accommodating grooves; 50. a scan data interface.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Example one

As shown in fig. 1, the data collector of the terminal medical device provided in this embodiment is hereinafter referred to as "data collector", and includes a control module 11, a data collection unit 12, and a data management module 13, where the control module 11 is configured to generate a control instruction and a dynamic association code. The control module 11 includes a second identification unit 111 and a first identification unit 112, the second identification unit 111 is used for a user to obtain a patient identification code of a patient, and the first identification unit 112 is used for obtaining an equipment identification code of a terminal medical equipment, and generally, a data collector corresponds to a terminal medical equipment. The data acquisition unit 12 is used for acquiring real-time monitoring data of the terminal medical equipment. The data management module 13 is used for storing and managing the collected data. During specific work, after the second identification unit 111 acquires the patient identity code, the patient identity code is sent to the control module 11, the first identification unit 112 acquires the equipment identification code, the equipment identification code is sent to the control module 11, the control module 11 associates the patient identity code with the equipment identification code, a dynamic association code is generated, an acquisition control instruction is sent out, after the acquisition control instruction is received by the data acquisition unit 12, the real-time monitoring data of the terminal medical equipment are prepared to be received, after the terminal medical equipment works, the real-time monitoring data are received by the data acquisition unit 12 according to a preset scanning period and are stored in the data management module 13.

The data collector scans through its own infrared code scanner 9 or the scanning gun 10 connected thereto to obtain the two-dimensional code or barcode of the medical device at the terminal, that is, the device identification code, and transmits the device identification code to the first identification unit 112 of the control module 11. The first identification unit 112 performs index comparison according to the device identification code and analyzes the model of the terminal medical device through the device identification code, if the index comparison result indicates that the device is included in the device library list, the first identification unit 112 sends identification information including the terminal medical device to the decision unit 113, the decision unit 113 attempts to bind the device identification code with a handshake protocol and an analysis program of the terminal medical device in the data management module 13, the binding is also program association, and attempts to handshake with the terminal medical device according to the handshake protocol and the analysis program, if the handshake succeeds, a standby prompt is performed through the touch screen 3 and data is prepared to be received, and if the handshake fails, an alarm prompt is performed through the touch screen 3. If the result of the index comparison indicates that the device is not included in the device library list, the first identification unit 112 performs a new device operation and sends identification information including new device information to the decision unit 113 of the control module 11, the decision unit 113 prompts that the device is a new device through the touch screen 3, a handshake protocol and an analysis program of the new device need to be added, and after the handshake protocol and the analysis program of the new device are successfully added by the decision unit 113, the first identification unit 112 updates the device library list. When the existing data collector is bound with the terminal medical equipment, the data collector is only suitable for the specific terminal medical equipment stored with a handshake protocol and an analysis program, and the data collector provided by the application can add new terminal medical equipment after scanning and identifying according to different equipment, so that an equipment library list is continuously improved, and more terminal medical equipment which can be adapted by the data collector are available.

The data collector scans through its own infrared code scanner 9 or the scanning gun 10 connected thereto to obtain a two-dimensional code or a barcode on a wrist strap or other identification of the patient, that is, a patient identification code, and transmits the patient identification code to the second identification unit 111 of the control module 11. The second identification unit 111 performs index comparison according to the patient identity code and analyzes the basic information of the patient through the patient identity code, if the index comparison result indicates that the user library list does not contain the patient, the second identification unit 111 performs new user operation and sends identification information containing new user information to the decision unit 113 of the control module 11, the decision unit 113 generates a patient information table according to the basic information of the patient analyzed by the second identification unit 111, and binds the patient identity code with the patient information table of the patient, similarly establishes code table association, the patient information table records basic information such as sex, age, height, weight and the like of the patient, for the condition that the information difficult to be analyzed through the patient identity code or the patient identity code of some hospitals does not contain the analysis information, the decision unit 113 can also send a control instruction for supplementing the basic information to the touch screen 3 connected with the control module 11, the touch screen 3 pops up a dialog box for supplementing the basic information of the patient to guide a doctor, a nurse or the like to supplement the basic information of the patient, and the decision unit 113 can also acquire the basic information of the new patient from the diagnosis and treatment service system connected with the decision unit. If the index comparison result indicates that the user library list includes the patient, the second identification unit 111 includes identification information of old user information to the decision unit 113 of the control module 11, and the decision unit 113 verifies the binding condition between the patient id and the patient information table, so that other function modules can call the patient information table through the patient id. In the prior art at present, many data collectors only stay at the level of collecting data, but the data use and call of such data collectors become problems, and especially, part of the data collectors only emphasize that the data collectors can be compatible with multiple terminal medical devices, but do not perform identity association after being compatible, and can only be similar to a mobile hard disk capable of being connected with multiple terminal medical devices, and the obtained data is difficult to be called by different diagnosis and treatment service systems, and also difficult to truly realize the cooperation with different terminal medical devices, and the practicability is poor.

Typically, a large or medium-sized hospital has a plurality of clinical business systems, such as: HIS systems, CIS systems, PACS systems, LIS systems, RIS systems, EMR systems, PEIS systems, ORIS systems, HCRM systems, anesthesia surgery systems, and the like. The control module 11 comprises a scheme extraction unit 114 for interfacing with different clinical business systems, the control module 11 associating extraction schemes of different views with dynamic association codes of different patients. Different service systems and matched terminal medical equipment are different, that is, the view patterns of the data acquisition devices are different, and then the scheme extraction unit 114 is required to match different service extraction schemes according to different diagnosis and treatment service systems, so as to perform targeted data extraction.

For further explanation of the matching of the scheme extraction unit 114 with different service extraction schemes according to different clinical service systems, a first scenario and a second scenario are described below, where the first scenario is used to describe a case where one data collector is connected to one clinical service system, and the second scenario is used to describe a case where one data collector is connected to multiple clinical service systems. Scene one and scene two are described in detail as follows:

scene one: if two events, that is, data in a single anesthesia machine 14, are generally only required to be acquired in an anesthesia operation or vital sign data of a patient are only required to be acquired in an intensive care unit, both the two events require two different service systems, both the two different service systems require data formats and terminal medical devices matched with the two different service systems, and particularly some diagnosis and treatment service systems only require partial data of some terminal medical devices, the function of the scheme extraction unit 114 is embodied, which can match the extraction scheme of the view according to the data requirements of different diagnosis and treatment service systems without manufacturing different data collectors according to different service systems. The control module 11 associates the basic information and view of the patient with each other by using the terminal medical device, so as to achieve the purpose that the real-time monitoring data acquired by the corresponding device can be acquired by using the patient identity information of the diagnosis and treatment service system, that is, in the state of network disconnection or network connection, as long as different diagnosis and treatment service systems are successfully networked with the data acquisition device, the background personnel of the diagnosis and treatment service system can acquire the real-time monitoring data of the corresponding patient by using the data acquisition device through the patient identity.

Scene two: in order to facilitate the data acquisition device to be capable of connecting a plurality of diagnosis and treatment service systems. The control module 11 comprises a scheme extraction unit 114 for interfacing with different clinical business systems, the control module 11 associating extraction schemes of different views with dynamic association codes of different patients. Different service systems and matched terminal medical equipment are different, that is, the view patterns of the data acquisition devices are different, and then the scheme extraction unit 114 is also required to match different service extraction schemes according to different diagnosis and treatment service systems, so that data extraction is performed in a targeted manner. Assuming that data in the anesthesia machine 14 and part of the patient vital sign data are required to be acquired during an anesthesia operation, during a specific operation, a doctor needs to select terminal medical devices for the anesthesia operation, such as the anesthesia machine 14 and the monitor 15, first, and after the terminal medical devices are selected, the device identification codes of the anesthesia machine 14 and the monitor 15 can be associated with the patient identification code through the first identification unit 112 to generate a dynamic association code. At this time, the plan extracting unit 114 formulates an extracting plan according to the anesthesia operation service system, and associates the extracting plan with the dynamic association codes of different patients, so that the anesthesia operation service system can customize and obtain the real-time monitoring data of the corresponding anesthesia machine 14 and the monitor 15. That is, assuming that the anesthesia machine 14 and the monitor 15 respectively correspond to the first data collector and the second data collector, the anesthesia operation service system usually collects all data of the anesthesia machine 14, but it may collect only part of the data of the monitor 15, which means that the monitoring data collected by the first data collector and the second data collector needs to be adjusted according to the data requirement of the anesthesia operation service system, and a data extraction scheme suitable for the anesthesia operation service system needs to be formulated. This is because the data of the same data collector may also be needed by other business systems, if: the patient still has a set of surgical operation management system in the operation, it may need all data of the monitor 15, and only needs partial data in the anesthesia machine 14 or does not need data in the anesthesia machine 14, so the data acquisition device needs to re-make the extraction scheme according to the requirements of the surgical operation management system to not interfere with the data acquisition of the anesthesia operation business system. In summary, the data collector in this embodiment can obtain all data that can be provided by the terminal medical device by binding the terminal medical device, and then extract corresponding data by using different extraction schemes according to different requirements of the diagnosis and treatment service system, and form a dynamic association code for associating the data with the terminal medical device and the patient identity, so as to achieve the effect that one or more terminal medical devices are matched by the diagnosis and treatment service system, and when background personnel of different diagnosis and treatment service systems obtain basic information of a patient through the data collector, the background personnel know which terminal medical devices the patient adopts, and which terminal medical devices collect data corresponding to identity information, so as to accurately obtain data of the corresponding patient, thereby fundamentally solving the problem of data confusion.

The data management module 13 adopts a double backup storage mode, the data management module 13 includes a data distributor 131, an equipment data storage unit 132, a plan data storage unit 133 and a data monitoring unit 134, the data distributor 131 is used for distributing the collected data to the equipment data storage unit 132 and the plan data storage unit 133, the data distributed to the equipment data storage unit 132 is all real-time monitoring data of the terminal medical equipment, and the data distributed to the plan data storage unit 133 is real-time extraction data generated in the process of executing the extraction plan of the plan extraction unit 114. The device data storage unit 132 is configured to store all real-time monitoring data according to a data format provided by the terminal medical device, the plan data storage unit 133 is configured to store real-time extraction data corresponding to extraction plans of different diagnosis and treatment service systems by the plan extraction unit 114, and the data monitoring unit 134 compares the monitoring data and the extraction data at regular time, for example: data comparison is carried out at 12 points every night, or after the terminal medical equipment finishes monitoring work every time, data of the two storage units are compared, when the data monitoring unit 134 compares and finds that the data are wrong, the control module 11 is informed, and after the control module 11 verifies the type of the error, an alarm is given through the touch screen 3. The functions of the device data storage unit 132 and the plan data storage unit 133 are different, the data of the device data storage unit 132 is usually used as original backup data, the stability of data transmission should be ensured in the design process of the device data storage unit, and the device data storage unit 133 needs to have functions of data loss prevention, power failure data protection and the like, the data of the plan data storage unit 133 is usually used as data of a diagnosis and treatment service system, and the convenience of interaction between the stored data and the diagnosis and treatment service system data should be mainly considered in the design process of the device data storage unit 133. For example: the plan data storage unit 133 can be constructed by adopting a Flux architecture, which is convenient for data extraction. The device data storage unit 132 and the plan data storage unit 133 both use the circulation-type storage of local data, when the data stored in the device data storage unit 132 or the plan data storage unit 133 is full, an early warning is performed through the touch screen 3, if no one manually deletes the data, the device data storage unit 132 or the plan data storage unit 133 automatically deletes historical data before a preset time, and the preset time can be reasonably set according to the time conditions of different hospitals.

Preferably, since the start-stop state of the terminal medical device has a certain randomness and the data acquisition period of each terminal medical device is inconsistent, the data acquisition unit 12 generally adopts a higher acquisition frequency, so that the data acquisition unit can adapt to most or all existing terminal medical devices. The data acquisition unit 12 records the acquisition event immediately after acquiring the data of the terminal medical equipment each time, thereby avoiding the occurrence of 'missing acquisition' of the data. For example: the data management module 13 stores the acquired data in a data grid format by using the acquired data as a Y coordinate and the acquisition time X as an abscissa.

Example two

As shown in fig. 2, the data acquisition method for the terminal medical device data acquirer provided in this embodiment is implemented according to the following steps:

and step S00: the first recognition unit 112 acquires the device identification code by scanning and transmits it to the control module 11.

And step S10: the second identification unit 111 obtains the patient identification code through scanning and sends the patient identification code to the control module 11.

And step S20: the control module 11 associates the patient identification code with the equipment identification code to generate a dynamic association code, and the control module 11 sends an acquisition control instruction to the data acquisition unit 12.

And step S30: the data acquisition unit 12 receives real-time monitoring data of the terminal medical device.

And step S40: the data acquisition unit 12 transmits the received real-time monitoring data to the control module 11, and the control module 11 stores the real-time monitoring data to the data management module 13.

EXAMPLE III

As shown in fig. 3 to 6, the hardware structure of the terminal medical device data collector provided in this embodiment, the terminal medical device data collector includes a housing 2, a control motherboard 1, a touch screen 3, a peripheral data interface 4, and a computer data interface 5, the touch screen 3 is located on the front side of the housing 2 and is electrically connected to the control motherboard 1, the touch screen 3 has a display and reminding function, a real-time collection state of collected data can be displayed in a dynamic chart manner through the touch screen 3, and when an abnormal state such as disconnection of a device or a device failure or failure of a device occurs, an early warning and a reminding can be performed through the touch screen 3. The peripheral data interface 4 is located on the top side wall of the shell 2 and is electrically connected with the control mainboard 1, the computer data interface 5 is located on the bottom side wall of the shell 2 and is electrically connected with the control mainboard 1, the terminal medical equipment is electrically connected with the peripheral data interface 4 through a first type data line, the peripheral data interface 4 is usually one of an RS232 interface, an RS485 serial interface and a COM interface, and the peripheral data interface can also be reasonably arranged according to different terminal medical equipment. The computer or server terminal loaded with the diagnosis and treatment service system is connected with the computer data interface 5 through a second TYPE data line, the computer data interface 5 is usually a USB interface or a TYPE-C interface, and for places with stable remote data transmission, such as places with 5G signals, the computer data interface 5 can be replaced by the 5G wireless module to perform data interaction with the computer or server loaded with the diagnosis and treatment service system. In order to facilitate the heat dissipation of the data collector, further, the left side wall and the right side wall of the casing 2 are both provided with a heat sink 6. The upper right side of touch screen 3 is provided with equipment status indicator lamp 7 and failure warning lamp 8, and status indicator lamp 7 and failure warning lamp 8 all are connected with control mainboard 1 electricity. The device status indicator light 7 is used for displaying the working status of the device, such as: green indicates that the device is in data collection operation. The fault alarm lamp 8 is mainly used for fault alarm, and is convenient for medical staff to know faults in time. Preferably, in order to facilitate the scanning operation of the data acquisition unit, the data acquisition unit further comprises an infrared code scanner 9, the infrared code scanner 9 is electrically connected with the control main board 1, the scanning operation of the patient identity code and the equipment identification code can be performed through the infrared code scanner 9, and the data acquisition unit also supports the external scanning gun 10 to perform scanning. The scanning gun 10 is connected with a scanning data interface 50 through a third type data line, and the scanning data interface 50 is electrically connected with the control mainboard 1. For the data storage of the device data storage unit 132 and the plan data storage unit 133, a memory having a device data partition and a device data partition is provided on the control main board 1, or a device data memory card for the device data storage unit 132 and a plan data memory card for the plan data storage unit 133 are directly provided. The device data memory card and the plan data memory card are configured as one of SD, MMC, TF and MicroSD, and a first card slot 31 adapted to the device data memory card and a second card slot 32 adapted to the plan data memory card are provided on the top side wall of the housing 2 or on the bottom side wall of the housing 2. First card slot 31 and second card slot 32 are all connected with control mainboard 1 electricity, and first card slot 31 and second card slot 32 all set up on the lateral wall of casing 2, can make things convenient for pulling out of equipment data storage card and scheme data storage card to insert, are provided with first plug-in card status light 33 in one side of first card slot 31, are provided with second plug-in card status light 34 in one side of second card slot 32. The first card status light 33 is a blue light, and the second card status light 34 is a green light, so that the device data memory card and the scheme data memory card can be distinguished conveniently. The first card insertion state lamp 33 and the second card insertion state lamp 34 are both turned on after the card is inserted and turned off after the card is pulled out, and the card presence state and the card absence state can be visually distinguished.

Preferably, the data collector further comprises a wireless signal transceiver, for example: infrared signal transceiver or bluetooth signal transceiver, carry out network connection with the data collection station with the cell-phone after, can replace scanning rifle 10 to scan through the cell-phone scanning. The cost of the data acquisition unit can be effectively reduced by using the mobile phone to scan instead of the scanning gun 10. Terminal medical equipment data collection station still includes portrait camera 20, and portrait camera 20 is connected with 1 electricity of control mainboard, can carry out patient's face identification or directly shoot through portrait camera 20 to avoid some places patients can't provide patient's identity code awkwardness, for example: the temporary hospital in the field can not provide the patient identity code in an emergency state, at this time, the patient information can be recorded in a photographing mode, in addition, along with the upgrading and updating of products, the face recognition technology can be introduced subsequently to identify the patient, and therefore the problem that the patient can not provide the patient identity code is solved. Preferably, the portrait camera 20 is disposed at one side of the infrared scanner 9, so as to facilitate portrait collection or photographing for obtaining the identity of the user.

Terminal medical equipment data collection station still includes two supporting legs 40, supporting leg 40 is located the bottom of casing 2, the one end of two supporting legs 40 all with casing 2 rotatable coupling, be provided with on casing 2 and correspond the holding tank 42 that sets up with two supporting legs 40 in, holding tank 42 can be put into to two supporting legs 40, also can rotate around casing 2 through the one end of two supporting legs 40, take out or put into holding tank 42 from holding tank 42. Each supporting leg 40 is provided with one buffering leg 41, and the housing 2 is further provided with two other buffering legs 41, that is, four buffering legs 41 are provided in total, and the four buffering legs 41 are symmetrically distributed. When the terminal medical equipment data collector needs to be horizontally placed, the supporting legs 40 are accommodated in the accommodating grooves 42, and the terminal medical equipment data collector is supported through the buffer feet 41; when terminal medical equipment data collection station need incline to place, take out two supporting legs 40 back from holding groove 42, form certain contained angle with casing 2 for casing 2 is placed by the slope, makes things convenient for medical personnel to do observation terminal medical equipment data collection station on the chair.

Example four

The utility model provides a terminal medical equipment data collection station divide into unit version and networking version. The single version can not perform data interaction with the collector management server, but can perform data interaction with the corresponding diagnosis and treatment service system, and the update software or protocol of the single version needs to import corresponding data through a mobile hard disk or a data interface. The connection screen plate supports software upgrading, double analysis and double storage and can perform data interaction with the collector management server. The data acquisition device of the terminal medical equipment of the connection screen plate is mainly introduced below. The acquisition system provided in this embodiment includes a plurality of the above-mentioned terminal medical device data collectors and an acquisition device management server that is in network connection with the plurality of terminal medical device data collectors, and the acquisition device management server may also be replaced with a cloud server. And a background management system of the collector is erected in the collector management server and used for managing and monitoring the medical equipment data collectors of each terminal.

Any one of the plurality of terminal medical equipment data collectors updates the equipment library list and the user library list thereof, and the control module 11 thereof triggers a synchronization instruction to synchronize the update information of the equipment library list and the user library list to the collector management server. The data collector management server is enabled to update the equipment database and the identity database corresponding to the data collector management server, so that the data collector of other terminal medical equipment can more conveniently acquire the handshake protocol and analysis program of the equipment or the patient information table of the patient.

When the index comparison result of the first identification unit 112 of a certain terminal medical device data collector indicates that a certain device is not included in the device library list, the control module 11 sends the device identification code of the device to the collector management server, the collector management server queries its own device database according to the device identification code, if the device is queried, the collector management server sends the handshake protocol and the analysis program corresponding to the device to the corresponding terminal medical device data collector, and if the device is not queried, the first identification unit 112 of the terminal medical device data collector executes a new device operation. In addition, the terminal medical device data collector stores a handshake protocol and an analysis program and can store collected data through the data management module 13, so that local device analysis and data storage can be realized, and meanwhile, the terminal medical device data collector can upload the collected data to the collector management server or the cloud server through the data management module 13 to perform device analysis and data storage of the server side or the cloud side.

When the index comparison result of the second identification unit 111 of a certain terminal medical device data collector indicates that a user library list does not contain a certain patient, the control module 11 sends the patient identity code of the patient to the collector management server, the collector management server queries its own identity database according to the patient identity code, if the patient is queried, the collector management server sends the patient information table corresponding to the patient to the terminal medical device data collector, and if the patient is not queried, the second identification unit 111 of the terminal medical device data collector executes new user operation.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (10)

1. The utility model provides a terminal medical equipment data collection station which characterized in that:

the intelligent monitoring system comprises a shell (2), a control mainboard (1), a code scanning device for acquiring an equipment identification code and a patient identity code, an external data interface (4) and a computer data interface (5), wherein the code scanning device is electrically connected with a signal input end of the control mainboard (1), a data acquisition end of the control mainboard (1) is electrically connected with the external data interface (4), a data output end of the control mainboard (1) is electrically connected with the computer data interface (5), the control mainboard (1) is positioned in the shell (2), the external data interface (4) is positioned on the top side wall of the shell (2), and the computer data interface (5) is positioned on the bottom side wall of the shell (2);

the data storage card is characterized in that a first card slot (31) matched with the equipment data storage card and a second card slot (32) matched with the scheme data storage card are formed in the top side wall or the bottom side wall of the shell (2), and the first card slot (31) and the second card slot (32) are electrically connected with the control mainboard (1).

2. The terminal medical device data collector according to claim 1, characterized in that:

a first card-inserting state lamp (33) is arranged on one side of the first card slot (31);

and a second card inserting state lamp (34) is arranged on one side of the second card slot (32).

3. The terminal medical device data collector according to claim 1, characterized in that:

the device also comprises a touch screen (3);

the touch screen (3) is located on the front face of the shell (2) and electrically connected with the control main board (1).

4. A terminal medical device data collector as claimed in claim 3, wherein:

the code scanning device is configured as an infrared code scanner (9);

the infrared code scanner (9) is electrically connected with the control main board (1), and the infrared code scanner (9) is fixed on the front face of the shell (2) and is located above the touch screen (3).

5. A terminal medical device data collector as claimed in claim 3, wherein:

the code scanning device is configured as a scanning gun (10);

the scanning gun (10) is electrically connected with a scanning data interface (50) through a data line;

the scanning data interface (50) is electrically connected with the control main board (1).

6. The terminal medical device data collector according to claim 1, characterized in that:

and radiators (6) are arranged on the left side wall and the right side wall of the shell (2).

7. A terminal medical device data collector as claimed in claim 3, wherein:

an equipment state indicator lamp (7) and a fault alarm lamp (8) are arranged on the upper right of the touch screen (3);

the equipment state indicator lamp (7) and the fault alarm lamp (8) are electrically connected with the control mainboard (1).

8. The terminal medical device data collector according to claim 1, characterized in that:

the system also comprises a portrait camera (20);

the portrait camera (20) is electrically connected with the control main board (1).

9. The terminal medical device data collector according to claim 1, characterized in that:

also comprises two supporting legs (40);

the supporting leg (40) is located the bottom of casing (2), two the one end of supporting leg (40) all with casing (2) rotatable coupling, be provided with on casing (2) with two supporting leg (40) correspond the setting be used for holding tank (42) of supporting leg (40).

10. The terminal medical device data collector according to claim 1, characterized in that:

each supporting leg (40) is provided with a buffering foot (41);

the shell (2) is also provided with two other buffering feet (41);

the four buffer feet (41) are symmetrically distributed.

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