CN107049292A - A kind of dynamic heart blood supply monitoring device - Google Patents

Abstract

The present invention relates to a kind of dynamic heart blood supply monitoring device, it includes main body and beam sleeve, and main body is provided with display screen, time-frequency setting key, data read-out key, AC power interface and on ＆ off switch；Constant current source module, signal amplification module, rectification filtering module, AD conversion module, processor and memory module are provided with inside main body；Beam sleeve includes beam sleeve main body, the tight beam air flue of supercharging, sensor laminating gas bag, sacculus air pump and the high and low pressure sensor and pulse transducer being arranged on sensor laminating gas bag；High and low pressure sensor and pulse transducer are electrically connected by wire with constant current source module, are connected by the signal amplification module of data wire and main body.Ingehious design and the rational deployment of internal processing modules that the present invention passes through outside mechanical structure, on the premise of dynamic heart blood supply monitoring is realized, the high efficiency of data transfer, low loss are also assures that, while substantially increasing the reliability of monitoring result and the accuracy of dynamic change.

Description

A kind of dynamic heart blood supply monitoring device

Technical field

The present invention relates to a kind of Cardiological medicine equipment, more particularly to a kind of dynamic heart blood supply monitoring device.

Background technology

The critical sufferer of angiocardiopathy is no matter in hospitalization or after symptom disappears, considerably long one after morbidity In the section time, it is required for needing round-the-clock real-time monitoring for heart blood supply situation, when blood supply blood pressure, cacosphyxia is found Need to take corresponding measure at once, the dangerous for otherwise occurring intracardiac lesion, and round-the-clock real-time monitoring is to medical personnel's Greatly, corresponding expense is also very expensive, and in the case of unstable condition, patient can only be trapped in for labour cost demand Hospital, it is impossible to realize dynamic monitoring in family again.Chinese invention patent CN102499660A is supervised there is provided a kind of dynamic heart blood supply Device and method is surveyed, this method can only realize current monitoring of blood pressure, and the meaning of its dynamic monitoring actually is only to realize " wink When monitor ", it is impossible to the overall dynamic change of reaction；Chinese invention patent CN104188639B provides a kind of dynamic heart Blood supply continuous monitoring and real-time analyzer, the technical scheme can realize distribution time point continuous monitoring, it is possible to structure Drawing of Curve analysis is carried out, but its part of data acquisition is the acquisition mode of traditional blood, and then taste is multiple for data processing section Electric elements are connected, and not only gather path of information flow length but also conduction of velocity is slow so that be so-called to be shown in certain journey in real time Data occur on degree delayed, the response speed of the instrument external equipment substantially reduced and the efficiency continuously worked, while straight line The mode of series connection causes data degradation greatly, substantially to have impact on the accuracy of result.Therefore, for dynamic heart blood supply Detection device, the Further aim of its application state and direction should be：Easily grasp simple words, device miniaturization, structural module, function Centralization, the Further aim of its application effect and direction should be conceived to the high efficiency and accuracy of dynamic result.

The content of the invention

The technical problem to be solved in the present invention is the drawbacks described above for how overcoming prior art, easily to grasp summary, equipment Miniaturization, structural module, function centralization, the high efficiency of dynamic result and accuracy are that there is provided a kind of dynamic for technical purpose Heart blood supply monitoring device.

In order to solve the above technical problems, this dynamic heart blood supply monitoring device includes main body and beam is tucked inside the sleeve, the main body The display screen of high pressure, low pressure and pulse, the time-frequency for setting the timely long spacing of monitoring point initial time can be shown by being provided with Setting key, control display screen shows the data read-out key of each monitoring point high pressure, low pressure and pulse situation, AC power interface with open It is crucial；Constant current source module, signal amplification module, rectification filtering module, AD conversion module, processor are provided with inside main body and is deposited Store up module；The beam sleeve includes beam sleeve main body, is pressurized tight beam air flue, sensor laminating gas bag, sacculus air pump and is arranged on sensing High and low pressure sensor and pulse transducer on device laminating gas bag；The high and low pressure sensor and pulse transducer of the beam sleeve are logical Cross wire to electrically connect with constant current source module, high and low pressure sensor and pulse transducer are put by the signal of data wire and main body Big module connection, the sacculus air pump of the beam sleeve is connected with the output end of signal processor.It is so designed that, beam is tucked inside the sleeve when using Installed in needing to face on the upside of shield sufferer large arm, by controlling time-frequency to set record time and the record frequency of key assignments dynamic monitoring Rate, processor controls air pump to tight beam air flue and sensor laminating gas bag difference pressurising is pressurized, and the former adjusts stress metal, the latter The contact of high and low pressure sensor and pulse transducer is adjusted, two sensorses merge pressure data in sensor circuit After pass information to information amplification module, then will directly amplify signal and rectification filtering module processing after secondary amplification letter Number merge, electric signal is converted to by AD conversion module, processor is conveyed to, the processor is a single-chip microcomputer, and it is transported Store data in storage module, lead to after external key sends instruction, then by information stored in memory module after calculation Cross display circuit to be output on display screen, difference curve can be drawn by the data of Fixed Time Interval, or be connected with computer, The variable condition at computing each time point, just realizes the dynamic monitoring for heart blood supply and pulse, if being networked by main frame, suffers from Person produces the dynamic monitoring from school at home, is easy to prepare emergency measures in time in monitoring field medical personnel.

As optimization, the constant current source module is connected with AC power interface and is other module for power supply in main body, The signal amplification module of the main body includes two inputs and two outputs, wherein one in two inputs with beam sleeve High and low pressure sensor be connected with pulse transducer by data wire, two output ends connect rectification filtering module respectively The input of input and AD conversion module, the output end of the rectification filtering module access again amplification module another is defeated Enter end and carry out secondary amplification, AD conversion module, AD conversion mould are then transmitted a signal to by the output end of signal amplification module The output end of block connects the input of signal processor；The input of signal processor is also connected with data read-out key, signal Single display screen, time-frequency set key and sacculus air pump respectively for the output end connection of processor.It is so designed that, two sensorses are by number pressure According to information amplification module is passed information to after merging in sensor circuit, signal and rectifying and wave-filtering mould then will be directly amplified Secondary amplified signal after block processing merges, and is converted to electric signal by AD conversion module, is conveyed to processor, the processor For a single-chip microcomputer, it is stored data in storage module after carrying out computing, after external key sends instruction, then will store mould Stored information is output on display screen by display circuit in block, so that equipment operation is simple, data accuracy height, Error is small.

As optimization, the signal processor is connected by display circuit with display screen.The signal processor passes through Keyboard circuit is connected with time-frequency setting key, control data read-out key switch key.Set between the signal processor and display circuit There are clock circuit and storage circuit.It is so designed that, removes complicated integrated circuit ordering designs, circuit is directly by single-chip microcomputer Control or signal transmission, reaction speed is fast, and as a result accuracy is high.

As optimization, the clock circuit and storage circuit parallel connection are etched on same PCB printed circuit boards；The keyboard Circuit is arranged on same PCB printed circuit boards with display circuit.It is so designed that, inputting and export two circuits by circuit concentrates It is printed on a circuit board, takes full advantage of the function distribution in a loop, on the premise of space is saved, improves response Speed.

As optimization, the beam sleeve main body is strip flexible polyurethane band, and the one-level which is provided with arc tightens card, the beam Tight card two ends are provided with long slot bore, and beam sleeve main body is set through long slot bore described in the two of card, the sensor laminating gas bag is tightened It is placed in beam sleeve main body and tightens between card, beam tucks inside the sleeve main body in high and low pressure sensor and pulse transducer on sensor laminating gas bag Installation site is provided with opening.Be so designed that, as data acquisition mechanism, main body can directly air pump to be pressurized tight beam air flue and Sensor laminating gas bag difference pressurising, the former adjusts stress metal, and the latter's adjustment high and low pressure sensor and pulse transducer connect Touch pressure, two sensorses pass information to the data processor of main body after pressure data is merged in sensor circuit Structure.

As optimization, the beam sleeve main body is double-decker, and the tight beam air flue of supercharging is arranged on two layers of beam sleeve main body Between structure, beam sleeve body ends are provided with the velcro for connecting.The sacculus air pump is provided with two air taking ports, wherein One air taking port is connected with the tight beam air flue of the supercharging by airway tube, and another air taking port is fitted gas bag with the sensor It is connected by airway tube；The junction of the air taking port and airway tube is provided with magnetic valve, the magnetic valve and the signal transacting The output end of device is connected；The beam sleeve main body is provided with the interface connected by velcro.It is so designed that, wears conveniently, Regulation is accurate.

As optimization, the high and low pressure sensor and pulse transducer output end are provided with sensing circuit PCB printed circuits Plate.Be so designed that, it is in parallel after as gathered data transmission unit, by single data wire the information gathered can be sent to Main body, that is, save space, data degradation reduced again, after amplification module amplification, can retain more detail datas.

It is a kind of dynamic heart blood supply monitoring device compact structure of the present invention, powerful, pass through the skilful of outside mechanical structure The rational deployment of wonderful design and internal processing modules, on the premise of dynamic heart blood supply monitoring is realized, it is ensured that data biographies Defeated high efficiency, low loss, while substantially increasing the reliability of monitoring result and the accuracy of dynamic change.

Brief description of the drawings

A kind of dynamic heart blood supply monitoring device of the invention is described further below in conjunction with the accompanying drawings：

Fig. 1 is the dimensional structure diagram of this dynamic heart blood supply monitoring device.

Fig. 2 is the planar structure schematic diagram of the beam sleeve main body of this dynamic heart blood supply monitoring device；

Fig. 3 is the structure annexation line frame graph of this dynamic heart blood supply monitoring device；

Fig. 4 is the circuit diagram of filtration module in the main body of this dynamic heart blood supply monitoring device and amplification module；

Fig. 5 is clock circuit and storage circuit PCB printed circuits in the main body of this dynamic heart blood supply monitoring device The circuit diagram of plate；

Fig. 6 is keyboard circuit and display circuit PCB printed circuits in the main body of this dynamic heart blood supply monitoring device The circuit diagram of plate；

Fig. 7 is the circuit diagram of the sensing circuit PCB printed circuit boards of the beam sleeve of this dynamic heart blood supply monitoring device.

In figure：1- display screens, 2- time-frequencies setting key, 3- data read-outs key, 4- AC power interfaces, 5- on ＆ off switches, 6- are permanent Flow source module, 7- signals amplification module, 8- rectification filtering modules, 9-AD modular converters, 10- processors, 11- memory modules, 12- Beam sleeve main body, 13- are pressurized tight beam air flue, 14- sensors laminating gas bag, 15- sacculus air pump, 16- high and low pressures sensor, 17- arteries and veins Fight sensor, 18- tightens card, 19- velcros, 20- air taking ports, 21- airway tubes, 22- magnetic valves.

Embodiment

As shown in Fig. 1 to 7, this dynamic heart blood supply monitoring device includes main body and beam is tucked inside the sleeve, it is characterized in that：The main frame Body be provided with can show high pressure, low pressure and pulse display screen 1, for set the timely long spacing of monitoring point initial time when Frequency setting key 2, control display screen show the data read-out key 3 of each monitoring point high pressure, low pressure and pulse situation, AC power interface 4 and on ＆ off switch 5；Inside main body provided with constant current source module 6, signal amplification module 7, rectification filtering module 8, AD conversion module 9, Processor 10 and memory module 11；Beam sleeve include beam sleeve main body 12, be pressurized tight beam air flue 13, sensor fit gas bag 14, Sacculus air pump 15 and the high and low pressure sensor 16 and pulse transducer 17 being arranged on sensor laminating gas bag 14；The beam sleeve High and low pressure sensor 16 and pulse transducer 17 electrically connected by wire with constant current source module, high and low pressure sensor 16 and arteries and veins Sensor 17 of fighting is connected by the signal amplification module 7 of data wire and main body, at the sacculus air pump 15 and signal of the beam sleeve The output end of reason device 9 is connected.

The constant current source module 6 is connected with AC power interface 4 and is other module for power supply in main body, the main frame The signal amplification module 7 of body includes two inputs and two outputs, wherein one in two inputs with it is high and low on beam sleeve Pressure sensor 16 is connected with pulse transducer 17 by data wire, and two output ends connect the defeated of rectification filtering module 8 respectively Enter the input of end and AD conversion module 9, the output end of the rectification filtering module 8 accesses another of amplification module 7 again Input carries out secondary amplification, then transmits a signal to AD conversion module 9 by the output end of signal amplification module 7, and AD turns The output end for changing the mold block 9 connects the input of signal processor 9；The input of signal processor is also connected with data read-out key 3 Connect, single display screen 1, time-frequency set key 2 and sacculus air pump 15 respectively for the output end connection of signal processor 9.The signal transacting Device 9 is connected by display circuit with display screen 1.The signal processor 9 sets key 2, control number by keyboard circuit and time-frequency It is connected according to the on ＆ off switch 5 of reading key 3.Clock circuit and storage circuit are provided between the signal processor 9 and display circuit.Institute State clock circuit and storage circuit parallel connection is etched on same PCB printed circuit boards；The keyboard circuit is set with display circuit On same PCB printed circuit boards.

The beam sleeve main body 12 is strip flexible polyurethane band, and the one-level which is provided with arc tightens card 18, and this tightens card The two ends of piece 18 are provided with long slot bore, and beam sleeve main body 12, which is passed through, tightens long slot bore described in the two of card 18, the sensor laminating gas bag 14 are arranged at beam sleeve main body 12 and tighten between card 18, and beam tucks inside the sleeve main body 12 in high and low pressure sensor on sensor laminating gas bag 14 16 and the installation site of pulse transducer 17 be provided with opening.The beam sleeve main body 12 is double-decker, the tight beam air flue 13 of supercharging Between the double-layer structure for being arranged on beam sleeve main body 12, beam sleeve main body 12 end is provided with the velcro 19 for connecting.The ball Capsule air pump 15 passes through the phase of airway tube 21 provided with two air taking ports 20, one of air taking port 20 with the tight beam air flue 13 of supercharging Connection, another air taking port 20 gas bag 14 of being fitted with the sensor is connected by airway tube 21；The air taking port 17 is with leading The junction of tracheae 21 is provided with magnetic valve 22, and the magnetic valve is connected with the output end of the signal processor 9；The beam sleeve master Body 12 is provided with the interface connected by velcro 12.High and low pressure sensor 16 and pulse transducer 17 output end is set There are sensing circuit PCB printed circuit boards.

It can be that professional and technical personnel in the field realize or used that above-mentioned embodiment, which is intended to illustrate the present invention, to above-mentioned Embodiment is modified and will be apparent for those skilled in the art, therefore the present invention includes but is not limited to Above-mentioned embodiment, it is any to meet the claims or specification description, meet with principles disclosed herein and novelty, The method of inventive features, technique, product, each fall within protection scope of the present invention.

Claims (10)

1. a kind of dynamic heart blood supply monitoring device, including main body and beam sleeve, it is characterized in that：The main body is provided with can Display high pressure, the display screen (1) of low pressure and pulse, the time-frequency setting key for setting the timely long spacing of monitoring point initial time (2), control display screen shows the data read-out key (3) of each monitoring point high pressure, low pressure and pulse situation, AC power interface (4) With on ＆ off switch (5)；Turn inside main body provided with constant current source module (6), signal amplification module (7), rectification filtering module (8), AD Change the mold block (9), processor (10) and memory module (11)；Beam sleeve include beam sleeve main body (12), the tight beam air flue (13) of supercharging, Sensor laminating gas bag (14), sacculus air pump (15) and the high and low pressure sensor being arranged on sensor laminating gas bag (14) And pulse transducer (17) (16)；The high and low pressure sensor (16) and pulse transducer (17) of the beam sleeve pass through wire and perseverance Source module electrical connection is flowed, high and low pressure sensor (16) and pulse transducer (17) are amplified by the signal of data wire and main body Module (7) is connected, and the sacculus air pump (15) of the beam sleeve is connected with the output end of signal processor (9).

2. dynamic heart blood supply monitoring device according to claim 1, it is characterized in that：The constant current source module (6) is with handing over Stream power interface (4) is connected and is other module for power supply in main body, and the signal amplification module (7) of the main body includes two Individual input and two outputs, wherein one in two inputs senses with the high and low pressure sensor (16) and pulse on beam sleeve Device (17) is connected by data wire, and two output ends connect the input and AD conversion module of rectification filtering module (8) respectively (9) input, the output end of the rectification filtering module (8) accesses another input progress of amplification module (7) again Secondary amplification, then transmits a signal to AD conversion module (9), AD conversion module by the output end of signal amplification module (7) (9) input of output end connection signal processor (9)；The input of signal processor is also connected with data read-out key (3) Connect, single display screen (1), time-frequency set key (2) and sacculus air pump (15) respectively for the output end connection of signal processor (9).

3. dynamic heart blood supply monitoring device according to claim 2, it is characterized in that：The signal processor (9) passes through Display circuit is connected with display screen (1).

4. dynamic heart blood supply monitoring device according to claim 3, it is characterized in that：The signal processor (9) passes through Keyboard circuit is connected with time-frequency setting key (2), control data read-out key (3) on ＆ off switch (5).

5. dynamic heart blood supply monitoring device according to claim 4, it is characterized in that：The signal processor (9) is with showing Show and clock circuit and storage circuit are provided between circuit.

6. dynamic heart blood supply monitoring device according to claim 5, it is characterized in that：The clock circuit and storage circuit Parallel connection is etched on same PCB printed circuit boards；The keyboard circuit is arranged on same PCB printed circuit boards with display circuit On.

7. dynamic heart blood supply monitoring device according to claim 1, it is characterized in that：The beam sleeve main body (12) is strip Flexible polyurethane band, the one-level which is provided with arc tightens card (18), and this tightens card (18) two ends provided with long slot bore, Shu Xiuzhu Body (12) is arranged at beam sleeve main body (12) through long slot bore described in the two of card (18), the sensor laminating gas bag (14) is tightened And tighten between card (18), beam sleeve main body (12) is in high and low pressure sensor (16) on sensor laminating gas bag (14) and pulse biography Sensor (17) installation site is provided with opening.

8. dynamic heart blood supply monitoring device according to claim 7, it is characterized in that：The beam sleeve main body (12) is bilayer Structure, the tight beam air flue (13) of supercharging is arranged between the double-layer structure of beam sleeve main body (12), and beam sleeve main body (12) end is set There is the velcro (19) for connection.

9. dynamic heart blood supply monitoring device according to claim 8, it is characterized in that：The sacculus air pump (15) is provided with Two air taking ports (20), one of air taking port (20) is connected with the tight beam air flue (13) of supercharging by airway tube (21), Another air taking port (20) gas bag (14) of being fitted with the sensor is connected by airway tube (21)；The air taking port (17) with The junction of airway tube (21) is provided with magnetic valve (22), and the magnetic valve is connected with the output end of the signal processor (9)；Institute State beam sleeve main body (12) and be provided with the interface connected by velcro (12).

10. dynamic heart blood supply monitoring device according to claim 9, it is characterized in that：The high and low pressure sensor (16) Sensing circuit PCB printed circuit boards are provided with pulse transducer (17) output end.