CN203354985U - Automatic information storing and accessing system for hemodialysis - Google Patents
Automatic information storing and accessing system for hemodialysis Download PDFInfo
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- CN203354985U CN203354985U CN 201320349156 CN201320349156U CN203354985U CN 203354985 U CN203354985 U CN 203354985U CN 201320349156 CN201320349156 CN 201320349156 CN 201320349156 U CN201320349156 U CN 201320349156U CN 203354985 U CN203354985 U CN 203354985U
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Abstract
The utility model discloses an automatic information storing and accessing system for hemodialysis. The automatic information storing and accessing system for hemodialysis comprises a hemodialysis machine, a data capturing device, a signal coordinator and a data storage device. The hemodialysis machine is used for measuring a purification value in blood, converting the purification value into a physiological signal and outputting the physiological signal. The data capturing device is electrically connected with the hemodialysis machine and used for reading the physiological signal, converting the physiological signal into a first signal and outputting the first signal. The signal coordinator is used for receiving the first signal, converting the first signal into a second signal and outputting the second signal. The data storage device is used for receiving and storing the second signal. Therefore, the purpose that the blood purification value is automatically recorded is achieved.
Description
Technical field
This utility model relates to a kind of information automation access system be applied in blood dialysis, relates in particular to a kind of information automation access system in blood dialysis that is applied to that is used in human body blood purification.
Background technology
In current medical system, in utilizing haemodialysis control unit, the patient who suffers from nephropathy is washed in the process of kidney, the blood purification numerical value that haemodialysis control unit is measured to the patient, must be by the mode of manually copying, the purification numerical value that haemodialysis control unit is shown is copied, and then by the mode of artificial input, keys in to be erected at and washes in the indoor host computer of kidney.
Yet because environmental pollution now seriously reaches under the impact of the bad dietary habit of people, suffers from patient's number of nephropathy compared to how a lot of in the past, wash the indoor haemodialysis control unit usually be provided with more than 50 of kidney therefore current, if the haemodialysis control unit more than 50 operates simultaneously, while also in the mode of manually copying, recording the measured purification numerical value of haemodialysis control unit, the situation of mistranscription easily occurs, and must drop into more manpower and copy and keying in the work that purifies numerical value, therefore also can cause the waste on manpower and human cost.
If reach and all be electrically connected a host computer in each haemodialysis control unit the purpose that automatically records blood purification numerical value, can cause increase and the waste of equipment cost.
The utility model content
A purpose of the present utility model, be to provide a kind of information automation access system that is applied to hemodialysis, it is to utilize the measured purification numerical value of haemodialysis control unit to read and sequentially send to signal coordinating device and data storage by the data acquisition device, finally be stored in data storage, make it to reach the purpose that automatically records blood purification numerical value.
For reaching above-mentioned purpose, this utility model provides a kind of information automation access system that is applied to hemodialysis, and it comprises:
At least one haemodialysis control unit is exported after measuring the physiological values purification numerical value in blood and converting a physiology signal to;
At least one data acquisition device, be electrically connected this haemodialysis control unit, and this data acquisition device in order to send after reading this physiological signal and converting a first signal to;
One signal coordinating device, in order to send after receiving this first signal and converting a secondary signal to; And
One data storage, in order to receive this secondary signal and to store.
The above-mentioned information automation access system that is applied to hemodialysis, wherein this data acquisition device converts a transducer of WIFI agreement signal to for the signal of RS232C can being reached an agreement on, and this signal coordinating device converts a router of Ethernet agreement signal to for signal that WIFI is reached an agreement on.
The above-mentioned information automation access system that is applied to hemodialysis, wherein this data acquisition device converts a transducer of ZigBee agreement signal to for the signal of RS232C can being reached an agreement on, and this signal coordinating device converts a coordinator of Ethernet agreement signal to for signal that ZigBee is reached an agreement on.
The above-mentioned information automation access system that is applied to hemodialysis, wherein more comprise receiving this first signal and be enhanced to the data link that one the 3rd signal sends to this signal coordinating device, this signal coordinating device receives in order to send out after receiving the 3rd signal and converting a secondary signal to this data storage.
The above-mentioned information automation access system that is applied to hemodialysis, wherein more comprise receiving this first signal and convert one the 3rd signal to sending to this signal coordinating device, to make the 3rd signal, send to a plurality of data links of data storage by this signal coordinating device.
The above-mentioned information automation access system that is applied to hemodialysis, wherein more comprise and can obtain by this signal coordinating device or this data link the hand-hold device of the storage data in this data storage.
The above-mentioned information automation access system that is applied to hemodialysis, wherein this haemodialysis control unit more comprise in order to the blood to the patient do purified treatment a processing mechanism, in order to measure this processing mechanism blood is done to the purification numerical value in decontamination process and will purify numerical value convert to this physiological signal a measuring mechanism and in order to export a signal output unit of this physiological signal, this DAQ device is electrically connected this signal output unit.
This utility model also has following effect, and the first point, can save the manpower demand of manually copying and manually filing, and avoids the mistake that occurs manually to copy and the meeting of filing occurs to plant mistake; Second point, can have access to the blood purification process numeric data of haemodialysis control unit immediately by panel computer, for the doctor, do and diagnose timely and key in diagnostic result; Thirdly, can all have the distributing address allocation scheme by data acquisition device and data link, while making it to have avoided arbitrary data link to break down, physiological signal can occur can't send to the situation in data storage by data link.
Below in conjunction with the drawings and specific embodiments, this utility model is described in detail, but not as to restriction of the present utility model.
The accompanying drawing explanation
The controlling party block diagram of Fig. 1 this utility model the first embodiment;
The controlling party block diagram of Fig. 2 this utility model the second embodiment.
It is characterized in that,, Reference numeral
1 ... be applied to the information automation access system of hemodialysis
10 ... haemodialysis control unit
101 ... processing mechanism 102 ... measurement mechanism
103 ... signal output unit 11 ... physiological signal
20 ... the data acquisition device
21 ... first signal
30 ... the signal coordinating device
31 ... secondary signal
40 ... data storage
50 ... second is network too
60 ... hand-held device
70 ... data link
71 ... the 3rd signal
The specific embodiment
Relevant detailed description of the present utility model and technology contents, coordinate accompanying drawing to be described as follows, yet appended accompanying drawing only provides reference and explanation use, not is used for this utility model is limited.
Please refer to shown in Fig. 1, controlling party block diagram for this utility model the first embodiment, this utility model provides a kind of information automation access system 1 that is applied to hemodialysis, mainly comprises a plurality of haemodialysis control units 10, a plurality of data acquisition device 20, a signal coordinating device 30 and a data storage 40.
Each haemodialysis control unit 10 comprises a processing mechanism 101, a measuring mechanism 102 and a signal output unit 103; Processing mechanism 101 is done purified treatment in order to the blood to the patient; Measuring mechanism 102 is done purification numerical value in decontamination process and will be purified numerical value and convert a physiology signal 11 in order to measure 101 pairs of blood of processing mechanism, purifies numerical value and comprises arterial pressure (AP), venous pressure (VP), dialysis hydraulic pressure (DP), transmembrane pressure (TMP), electric conductivity value (DC), blood flow speed (BF), injection flow velocity (SF), accumulates dehydrating amount (TUF), target dehydrating amount (TAUF), rate of water loss (UFR) and curve pattern; Signal output unit 103 is in order to export physiological signal 11; It is characterized in that, signal output unit is to be a RS232C connecting interface or a RS232C plug, and physiological signal 11 is to be a RS232C agreement signal.
Each data acquisition device 20 is electrically connected the signal output unit 103 of each haemodialysis control unit 10, after each data acquisition device 20 reads the physiological signal 11 of each haemodialysis control unit 10 and converts physiological signal 11 to a first signal 21, then by the wireless sending module of each data acquisition device 20 inside, each first signal 21 is sent; Each first signal 21 is to be a WIFI agreement signal; Each data acquisition device 20 is to convert a transducer of WIFI agreement signal to for the signal of RS232C can being reached an agreement on.
After signal coordinating device 30 receives each first signal 21 by built-in wireless receiving module, after converting a secondary signal 31 to via 30 processing of signal coordinating device, wireless sending module or wired sending module by signal coordinating device 30 are sent to too network 50 of a second by secondary signal 31, make it signal coordinating device 30 can by second too network 50 secondary signal 31 is sent to the to data storage 40; Secondary signal 31 is to be an Ethernet agreement signal; Signal coordinating device 30 is to convert a router of Ethernet agreement signal to for signal that WIFI is reached an agreement on.
The information automation access system 1 that is applied to hemodialysis more comprises at least one hand-held device 60, and hand-held device 60 can be obtained the physiological data in the storage element that is stored in data storage 40 by signal coordinating device 30.
When being washed kidney for the multidigit patient simultaneously, can carry out respectively the processing of blood purification to each patient by the processing mechanism 101 of each haemodialysis control unit 10, and in the process of blood purification, utilize the measuring mechanism 102 of each haemodialysis control unit 10 each patient to be purified to the measurement of numerical value, to observe the health of each patient in the process of washing kidney, moreover the measuring mechanism 102 of each haemodialysis control unit 10 can convert measured purification numerical value to the physiological signal 11 of RS232C agreement, physiological signal 11 outputs that then signal output unit 103 by each haemodialysis control unit 10 produces each haemodialysis control unit 10.
Utilize each data acquisition device 20 to read the physiological signal 11 of each haemodialysis control unit 10 thereafter, and convert each physiological signal 11 to a first signal 21 that WIFI reaches an agreement on, after by each data acquisition device 20, built-in wireless sending module or wired sending module send each first signal 21 and go out, moreover, after by signal coordinating device 30, built-in wireless receiving module receives each first signal 21, and after converting the secondary signal 31 of Ethernet agreement to, it is sent in to too network 50 of second, finally by second too network 50 secondary signal 31 is sent to data storage 40, after being processed into physiological data, data storage 40 is stored in the storage element of data storage 40, therefore can reach automatically the effect of purification records of values in data storage 40 that each haemodialysis control unit 10 is measured to each patient, and also can set at set intervals the effect that record automatically purifies numerical value, by this, can save the manpower of measured purification numerical value in each haemodialysis control unit 10 when recording each patient and washing kidney, and also can avoid utilizing the manpower record to purify the mistake that numerical value occurs.
Moreover, if panel computer 60 has the 3G network interface card in being, panel computer 60 can link data storage 40 by 3G network, to read the purification numerical value that is stored in each patient in data storage 40; If panel computer 60 has the WIFI network interface card in being, panel computer 60 can link data storage 40 by signal coordinating device 30, and the purification numerical value of each patient in reading out data bin 40; So that medical personnel or the family numbers of patients purification numerical value can must supervise at any time the patient and wash kidney the time makes medical personnel can carry out to the patient next step treatment, or patient's family members is illustrated to current patient's health.
In addition, can in panel computer 60, build the standard diagnostics book, the doctor who makes can be at any time in the interior input of panel computer 60 patient's diagnostic result, after by 3G network or WIFI network interface card link signal coordinator 30, diagnostic result is being sent to data storage 40, in the storage element that is stored in data storage 40, while diagnosing for next time, also can utilize panel computer 60 to have access to its previous diagnostic data, and then reach the time that the minimizing doctor has access to previous diagnostic data.
Moreover, also the state of each haemodialysis control unit 10 can be shown in panel computer with three kinds of cressets, make it when the patient registers, medical personnel can be by type and the shown cresset of model of corresponding each haemodialysis control unit 10 in panel computer, and the use shape condition of each haemodialysis control unit 10 in this three periods of morning, noon and evening, carry out the most appropriate Referral with the patient to registering.
Please refer to shown in Fig. 2, is the controlling party block diagram of this utility model the second embodiment, different be main from previous embodiment, and the information automation access system 1 that is applied to hemodialysis more comprises a plurality of data links 70; Each first signal 21 is to be a ZigBee agreement signal, and each data acquisition device 20 is to convert a transducer of ZigBee agreement signal to for the signal of RS232C can being reached an agreement on; Signal coordinating device 30 is to convert a coordinator (Coordinator) of Ethernet agreement signal to for signal that ZigBee is reached an agreement on.
Each data link 70 also can be received from the first signal 21 that each data acquisition device 20 sends out, moreover, after making each first signal 21 be enhanced to one the 3rd signal 71 by each data link 70, and send to signal coordinating device 30, last signal coordinating device 30 again by second too network 50 the 3rd signal 71 is sent to data storage 40.
Because each data acquisition device 20 and each data link 70 all have the distributing address allocation scheme, each data acquisition device 20 read each haemodialysis control unit 10 physiological signal 11 and will convert first signal 21 to after, its data acquisition device 20 can the current signal flow flux of automatic interpretation low with and other data acquisition device 20 ' that can normal operation or the position of data link 70, with first signal 21 is sent to signaling traffic lower and can normal operation to data acquisition device 20 ' or data link 70, also can directly send to signal coordinating device 30; Moreover send to the first signal 21 by this data acquisition device 20 ' or data link 70 to be enhanced to the 3rd signal 71 by data acquisition device 20 ' or data link 70, send to afterwards signal coordinating device 30; After will convert for the 3rd signal 71 of the first signal 21 of ZigBee agreement or ZigBee agreement the Ethernet agreement to by signal coordinating device 30 secondary signal 31 be sent to too network 50 of second, finally by second too network 50 secondary signal 21 is sent to the interior storage of data storage 40.
By this, can all there is the distributing address allocation scheme by each data acquisition device 20 and each data link 70, so each data acquisition device 20 and each data link 70 meeting automatic search normal operation and other low data acquisition device 20 ' and data links 70 ' of signaling traffic, make it when arbitrary data link 70 breaks down, its first signal 21 or the 3rd signal 71 still can select to send to other still data acquisition device 20 ' or data link 70 of normal operation ", again by data acquisition device 20 ' or data link 70 " send to signal coordinating device 30, when having avoided arbitrary data link 70 to break down, physiological signal 11 can occur can't send to the situation in data storage 40 by data link 70.
Moreover panel computer 60 also can be by the physiological data in signal coordinating device 30 reading out data bins 40.
Certainly; this utility model also can have other various embodiments; in the situation that do not deviate from this utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding changes and distortion according to this utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of this utility model.
Claims (7)
1. an information automation access system that is applied to hemodialysis, is characterized in that, comprising:
At least one haemodialysis control unit is exported after measuring the physiological values purification numerical value in blood and converting a physiology signal to;
At least one data acquisition device, be electrically connected this haemodialysis control unit, and this data acquisition device in order to send after reading this physiological signal and converting a first signal to;
One signal coordinating device, in order to send after receiving this first signal and converting a secondary signal to; And
One data storage, in order to receive this secondary signal and to store.
2. the information automation access system that is applied to hemodialysis according to claim 1, it is characterized in that, this data acquisition device converts a transducer of WIFI agreement signal to for the signal of RS232C can being reached an agreement on, and this signal coordinating device converts a router of Ethernet agreement signal to for signal that WIFI is reached an agreement on.
3. the information automation access system that is applied to hemodialysis according to claim 1, it is characterized in that, this data acquisition device converts a transducer of ZigBee agreement signal to for the signal of RS232C can being reached an agreement on, and this signal coordinating device converts a coordinator of Ethernet agreement signal to for signal that ZigBee is reached an agreement on.
4. the information automation access system that is applied to hemodialysis according to claim 3, it is characterized in that, more comprise receiving this first signal and be enhanced to the data link that one the 3rd signal sends to this signal coordinating device, this signal coordinating device receives in order to send out after receiving the 3rd signal and converting a secondary signal to this data storage.
5. the information automation access system that is applied to hemodialysis according to claim 3, it is characterized in that, more comprise receiving this first signal and convert one the 3rd signal to and send to this signal coordinating device, to make the 3rd signal, send to a plurality of data links of data storage by this signal coordinating device.
6. the information automation access system that is applied to hemodialysis according to claim 1, is characterized in that, more comprises and can obtain by this signal coordinating device or this data link the hand-hold device of the storage data in this data storage.
7. the information automation access system that is applied to hemodialysis according to claim 1, it is characterized in that, this haemodialysis control unit more comprise in order to the blood to the patient do purified treatment a processing mechanism, in order to measure this processing mechanism blood is done to the purification numerical value in decontamination process and will purify numerical value convert to this physiological signal a measuring mechanism and in order to export a signal output unit of this physiological signal, this DAQ device is electrically connected this signal output unit.
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CN 201320349156 CN203354985U (en) | 2013-06-18 | 2013-06-18 | Automatic information storing and accessing system for hemodialysis |
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CN 201320349156 CN203354985U (en) | 2013-06-18 | 2013-06-18 | Automatic information storing and accessing system for hemodialysis |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106456066A (en) * | 2014-05-30 | 2017-02-22 | 费森尤斯医疗控股股份有限公司 | System for analyzing vascular refill during short-pulse ultrafiltration in hemodialysis |
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2013
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106456066A (en) * | 2014-05-30 | 2017-02-22 | 费森尤斯医疗控股股份有限公司 | System for analyzing vascular refill during short-pulse ultrafiltration in hemodialysis |
US10569000B2 (en) | 2014-05-30 | 2020-02-25 | Fresenius Medical Care Holdings, Inc. | System for analyzing vascular refill during short-pulse ultrafiltration in hemodialysis |
CN106456066B (en) * | 2014-05-30 | 2020-06-23 | 费森尤斯医疗控股股份有限公司 | System for analyzing vascular refill during short pulse ultrafiltration in hemodialysis |
US11878098B2 (en) | 2014-05-30 | 2024-01-23 | Fresenius Medical Care Holdings, Inc. | System for analyzing vascular refill during short-pulse ultrafiltration in hemodialysis |
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Granted publication date: 20131225 |