CN106448398A - Pulse condition stimulator - Google Patents

Abstract

The invention provides a pulse condition stimulator, comprising a base plate; a water storage tank fixedly arranged on the base plate with water therein and provided with a plurality of water inlets and water outlets; and a plurality of water pumps fixedly arranged on the base plate in rows. Each water pump is provided with a water inlet and a water outlet. The water outlets of the water storage tank are connected with the water inlet of each water pump. The water outlet of each water pump is connected to a pulse condition synthesizing voltage-stabilizer. The pulse condition synthesizing voltage-stabilizer includes at least one water return mouth in connection with the water inlets of the water storage tank. A solenoid value is arranged between the water outlet of each water pump and the pulse condition synthesizing voltage-stabilizer. The stimulator also comprises a stimulated arm. The stimulated arm is provided with a stimulated blood vessel. One end of the stimulated blood vessel is connected with the pulse condition synthesizing voltage-stabilizer and the other end is connected with the water inlets of the water storage tank. The stimulator of the invention utilizes distilled water to stimulate blood, which overcomes the problem of an existing stimulator with oil leakage and at the same time, is capable of stimulating complex pulse condition waveforms. The stimulator is also highly accurate.

Description

Pulse condition simulator

Technical field

Present invention design medical treatment ＆ health field, and in particular to arriving a kind of pulse condition simulator, is a kind of Chinese medicine pulse Diagnostic teaching equipment, controls, by frame for movement and circuit, the multiple pulse conditions simulating human body, and pulse condition Accurately, feel is true, have multiple concurrent pulses as.

Background technology

Hope, hear, asking, four kinds of important means of tcm diagnosis that Qie Shi China is traditional.Wherein " cut " more Be diagnosis during and its an important indispensable part.Felt the pulse by the accumulation of older generation's experience all the year round As summing up for numerous species, such as floating pulse, deep pulse, forceful pulse, forceless pulse etc., but due to tcm diagnosis arteries and veins As traditional Chinese medical doctor's experience can only be relied on completely to be responsible for analysis, can with regard to different doctor from the point of view of same pulse condition Different feels can occur.And during pulse condition diagnostic teaching, mainly by the mouth of teacher Capitiform hold and books written description expressing the actual feel felt the pulse, so just as water for student Middle flower, Jing Zhongyue cause them to be difficult to complete comprehension wherein elite.

In order to more diagnose to students professor's pulse condition, some producers produce a kind of pulse condition visual pattern Analog meter, this pulse condition simulator pours silicone oil in flexible pipe, and is driven in flexible pipe by an oil pump Silicone oil, and then simulate blood flow, for row teaching and clinical research.But current market uses silicon Because it cannot be guaranteed that simulated blood vessel material, simulated blood vessel material is easy to produce aging the pulse condition simulator of oil Problem and then frequent oil leak；Prior art is only with single oil pump simultaneously, and coordinates electromagnetic valve to be driven, The Wave data of complexity, the pulse condition Wave data simulating and preferable desired simulation therefore cannot be simulated There is certain gap in the data going out.

Content of the invention

The invention provides a kind of pulse condition simulator, including：

Base plate；

Water tank, is fixed on described base plate, and described water tank internal memory contains water, and if this water tank have Dry water inlet and some outlets；

Some water pumps, are in a row fixed on described base plate, and each described water pump is provided with a water inlet and and goes out The mouth of a river, the outlet of described water tank is connected one by one with the water inlet of each described water pump, each described water pump Outlet is all connected to a pulse condition synthetic voltage stable device, and this pulse condition synthetic voltage stable utensil has at least one water return outlet, Described water return outlet is connected with the water inlet of described water tank, and the outlet of each described water pump and described pulse condition It is provided with an electromagnetic valve between synthetic voltage stable device；

Simulation arm, is provided with simulated blood vessel in described simulation arm, one end of described simulated blood vessel connects institute State pulse condition synthetic voltage stable device, the other end connects the water inlet of described water tank.

Above-mentioned pulse condition simulator, wherein, described base plate is additionally provided with switching circuit board, described switch electricity Switching device and power supply change-over device, described switching device and described power supply change-over device phase are had on the plate of road Even, described power supply change-over device and each described water pump, each described electromagnetic valve and described pulse condition synthetic voltage stable device It is connected.

Above-mentioned pulse condition simulator, wherein, described base plate is additionally provided with motor driver and main control board, Described motor driver is connected with described main control board, and described motor driver and each described water pump phase Even.

Above-mentioned pulse condition simulator, wherein, by a silica gel tube, the outlet of described water tank is described with each The water inlet of water pump is connected one by one.

Above-mentioned pulse condition simulator, wherein, described pulse condition synthetic voltage stable utensil has some entrance points and an outlet End；

Each described entrance point is all connected with the outlet of each described water pump by a silica gel tube, and any one described Described electromagnetic valve is provided with the silica gel tube between the outlet of water pump and described entrance point；

The port of export of described pulse condition synthetic voltage stable device is connected with one end of described simulated blood vessel by a silica gel tube.

Above-mentioned pulse condition simulator, wherein, described base plate is provided with 3 water pumps.

Above-mentioned pulse condition simulator, wherein, described base plate is additionally provided with arteries and veins position sink-float motor, with master control electricity Road plate is connected, and described arteries and veins position sink-float motor has a lowering or hoisting gear, and the top of described lowering or hoisting gear passes through institute State simulation arm to lift described simulated blood vessel and to drive simulated blood vessel to move.

Simultaneously present invention also offers a kind of using as above-mentioned pulse condition simulator pulse condition analogy method, including such as Lower step：

One or more water pump is driven to extract water from water tank out and conveyed by the outlet of water pump；

Through electromagnetic valve, the instantaneous pressure of the water that each pump outlet conveys is adjusted to simulate pulse condition ripple Shape amplitude and frequency, are delivered to the entrance point of pulse condition synthetic voltage stable device afterwards；

By the port of export of pulse condition synthetic voltage stable device deliver water into simulation arm in simulated blood vessel in, water from One end of simulated blood vessel passes into the water inlet flowing out to water tank by the other end.

Above-mentioned pulse condition analogy method, wherein, methods described also includes：

Control described motor driver by described main control board, and then adjust the motor of described water pump and turn Speed.

Above-mentioned pulse condition analogy method, wherein, methods described also includes：

Simulate the pulse condition output waveform of arm by a pulse-tracing collection instrument come real-time detection.

This equipment to simulate the blood of human body by using distilled water, overcomes the arteries and veins that current market uses silicone oil As handss because it cannot be guaranteed that the problem of the frequent oil leak of short time problem of aging of simulated blood vessel material；Using water Cooperation thin-walled silica gel tube can be very good aging resistance, and water is also easily obtainable as transmission medium, adds It is convenient to；In addition also overcome and also there is not bad transport in transportation；On the other hand, It is driven due to employing multiple stage water pump, the pulse condition Wave data therefore, it is possible to simulate is more complicated, Degree of accuracy is also higher simultaneously.There is not Leakage in the pulse condition simulator that the present invention provides, simultaneously being capable of mould Draw up complicated pulse condition, be suitable in colleges and universities and the popularization and application of clinic field.

Brief description

By reading detailed description, the present invention and its spy non-limiting example being made with reference to the following drawings Levy, profile and advantage will become more apparent upon.Identical labelling instruction identical part in whole accompanying drawings. Deliberately it is not drawn to scale accompanying drawing, it is preferred that emphasis is the purport of the present invention is shown.

The structure top view of the pulse condition simulator that Fig. 1 provides for the present invention；

Fig. 2 is the schematic diagram being reequiped and being installed additional touch screen actuation means in one embodiment for Fig. 1；

Fig. 3 is the schematic diagram of arteries and veins position sink-float motor；

Fig. 4 is the main circuit part annexation schematic diagram of the present invention；

Fig. 5 is the circuit diagram of main control board；

Fig. 6 is the circuit diagram of electromagnetic valve；

A kind of pulse condition oscillogram that Fig. 7 can simulate for the present invention.

Specific embodiment

In the following description, give a large amount of concrete details to provide, the present invention more thoroughly to be managed Solution.It is, however, obvious to a person skilled in the art that the present invention can one or These details multiple and be carried out.In other examples, in order to avoid obscuring with the present invention, Some technical characteristics well known in the art are not described.

In order to thoroughly understand the present invention, detailed step and detailed knot will be proposed in following description Structure, so that explaination technical scheme.Presently preferred embodiments of the present invention is described in detail as follows, but In addition to these describe in detail, the present invention can also have other embodiment.

Embodiment one

The invention provides a kind of pulse condition simulator, shown in reference Fig. 1, including：

Base plate 424；

Water tank 404, is fixed on base plate 424, and water tank 404 internal memory contains water, and this water tank 404 There is some water inlets and some outlets；Some water pumps, are in a row fixed on base plate 420, each water pump It is provided with a water inlet and an outlet, the outlet of water tank is connected one by one with the water inlet of each water pump, The outlet of each water pump is all connected to a pulse condition synthetic voltage stable device 407, and this pulse condition synthetic voltage stable device 407 has At least one water return outlet, each water return outlet is all connected one by one with each water inlet of water tank 404, and each water pump Outlet and pulse condition synthetic voltage stable device 407 between be provided with an electromagnetic valve；

Simulation arm 408, is provided with the simulated blood vessel 425 of hollow, simulated blood vessel 425 in simulation arm 408 One end connect pulse condition synthetic voltage stable device 407, the other end connect water tank 404 a water inlet.Need Bright, the water inlet that simulated blood vessel 425 one end connects water tank 404 is different from pulse condition synthetic voltage stable device The water inlet of 407 connection water tanks 404.

This equipment to simulate the blood of human body by using distilled water, overcomes the arteries and veins that current market uses silicone oil As handss because it cannot be guaranteed that the problem of the frequent oil leak of short time problem of aging of simulated blood vessel material；Using water Cooperation thin-walled silica gel tube can be very good aging resistance, and water is also easily obtainable as transmission medium, adds It is convenient to；In addition also overcome and also there is not bad transport in transportation；On the other hand, It is driven due to employing multiple stage water pump, the pulse condition Wave data therefore, it is possible to simulate is more complicated, Degree of accuracy is also higher simultaneously.There is not Leakage in the pulse condition simulator that the present invention provides, simultaneously being capable of mould Draw up complicated pulse condition, be suitable in colleges and universities and the popularization and application of clinic field.

In the present invention one optional embodiment, base plate 424 arranges 3 water pumps, in conjunction with Fig. 1 and Fig. 2 Shown, 420, No. 2 water pumps 419 of No. 1 water pump and No. 3 water pumps 418 are provided with base plate 424.

In the present invention one optional embodiment, pulse condition synthetic voltage stable device 407 has some entrance points and and goes out Mouth end；Each entrance point is all connected with the outlet of each water pump by a silica gel tube, and the going out of any one water pump It is provided with electromagnetic valve on silica gel tube between the mouth of a river and entrance point；The port of export of pulse condition synthetic voltage stable device 407 It is connected with one end of simulated blood vessel by a silica gel tube.

In the present invention one optional embodiment, by a silica gel tube by the outlet of water tank 404 and each water The water inlet of pump is connected one by one.Shown in seeing figures.1.and.2, water tank 404 and No. 1 water pump 420,2 Pass through silica gel tube 401, silica gel tube 402, silica gel tube 403 number between water pump 419 and No. 3 water pumps 418 respectively Connect, 420, No. 2 water pumps 419 of No. 1 water pump and No. 3 water pumps 418 pass through silica gel tube 401, silicon respectively Distilled water in water tank 404 can be extracted out by sebific duct 402, silica gel tube 403.

With continued reference to shown in Fig. 1, the outlet of 420, No. 2 water pumps 419 of No. 1 water pump and No. 3 water pumps 418 Pass through and No. 1 electromagnetic valve 413, No. 3 electromagnetic valves 412 of 414, No. 2 electromagnetic valves between respectively silica gel tube 417, Silica gel tube 416, silica gel tube 415 connect；No. 1 electromagnetic valve 413, No. 3 electromagnetic valves of 414, No. 2 electromagnetic valves Pass through silica gel tube 409, silica gel tube 410, silica gel tube 411 respectively between 412 and pulse condition synthetic voltage stable device 407 Connect, enter to be about to 420, No. 2 water pumps 419 of No. 1 water pump and No. 3 water pumps 418 extract from water tank 404 Water be delivered to pulse condition synthetic voltage stable device 407.By 414, No. 2 electromagnetic valves of No. 1 electromagnetic valve 413,3 Electromagnetic valve 412 420, No. 2 water pumps 419 of No. 1 water pump and No. 3 water pumps 418 are synthesized surely with pulse condition Between depressor 407, the flow of water is adjusted respectively, and then can simulate different pulse condition waveforms.Phase With, one end of simulated blood vessel 425 connects the output of pulse condition synthetic voltage stable device 407 by silica gel tube 406 End, the other end connects the water inlet of water tank 404 by silica gel tube 405.Additionally, pulse condition synthetic voltage stable Device 407 is additionally provided with a water return outlet, and this water return outlet is connected to entering of water tank 404 by silica gel tube 430 The mouth of a river.

No. 1 water pump 420 after water tank 404 water suction, successively via No. 1 electromagnetic valve 414, pulse combination Manostat 407 enters in the simulated blood vessel 425 in simulation arm 408, forms the in simulated blood vessel 425 The pulse of one waveform；No. 2 water pumps 419 after water tank 404 water suction, successively via No. 2 electromagnetic valves 413rd, pulse combination manostat 407 enters in the simulated blood vessel 425 in simulation arm 408, in simulation blood Pipe 425 forms the pulse ... of first waveform by third party's pulse-tracing collection instrument real-time detection pulse condition handss Output waveform, interval time, motor speed size to be determined by main control board 423, thus passing through Main control board 423 is controlling each electromagnetic valve to produce different pulse signals, and then it is different to reach output The purpose of pulse condition waveform.

In the present invention one optional embodiment, base plate 424 is additionally provided with switching circuit board, on-off circuit Switching device 421 and power supply change-over device (in figure does not indicate) are had on plate, switching device and power supply turn Changing device is connected, and power supply change-over device is connected with each water pump, each electromagnetic valve and pulse condition synthetic voltage stable device.This Outward, base plate 424 is additionally provided with debugging interface panel 422, to be attached with other electronic equipments.

In the present invention one optional embodiment, base plate 424 is additionally provided with motor driver (not shown) With main control board 423, motor driver is connected with main control board 423, and motor driver and each water Pump is connected, for driving and controlling water pump to operate.

In the present invention one optional embodiment, sink with reference to shown in Fig. 3, base plate 424 being additionally provided with arteries and veins position Floating motor 426, is connected with main control board 423；The top of arteries and veins position sink-float motor 426 has a lifting dress Put 427, the top of lowering or hoisting gear 427 passes through simulation arm 408 to lift simulated blood vessel 425 and to carry dynamic model Intend blood vessel 425 to move.It should be noted that Fig. 1 is due to being the structure chart overlooked, therefore in The arteries and veins position sink-float motor 426 of simulation arm 408 lower section cannot be visible.

The operation principle of hardware circuit design and the job step of whole equipment：

Fig. 4 shows hardware circuit design schematic diagram of the present invention, and this circuit, by outside 24V direct current supply, leads to Cross power module 11 produce 24V and 5V DC source be single chip control module 12, pulse condition generate mould Block 13, communication module 14, communication module 21, ARM control module 22, touch screen module 23 are supplied Electricity.

Pulse condition analog circuit function declaration：

In accompanying drawing 5, the inductance L1 of U1, inductance L2, inductance L3 and inductance L4 produce according to simulation pulse condition Need output pulse signal to control field effect transistor Q1, Q2, Q3, Q4 in Fig. 6, be then passed through field effect The continuous switch of pipe exports on the electromagnetic valve of J3 connection of Fig. 6, finally in the simulation of simulation arm 408 Obtain in blood vessel 425 simulating pulse condition.

The J1 of Fig. 5 is USB output interface；The J5 of Fig. 2 is 420, No. 2 water pumps 419,3 of No. 1 water pump Number water pump 418 interface, the rotating speed for controlling motor reaches the flow velocity controlling simulation blood；Fig. 5 In J6 be arteries and veins position sink-float motor 426 interface, for controlling the sink-float of arteries and veins position；J7 is sensor interface, For detecting the sink-float height of arteries and veins position；U1 is that single-chip microcomputer (can be produced using atmel corp The single-chip microcomputer of AT90USB1287 model), this single-chip microcomputer carries TCP/IP network interface, and cooperation J1 is real Remote Diagnosis System is realized in the input of existing pulse profile data and output.

Fig. 2 is the schematic diagram being reequiped and being installed additional touch screen actuation means in one embodiment for Fig. 1, By removing simulation arm 408, and directly detected with simulated blood vessel 425, installed additional a touch simultaneously Panel module 23, for operating and simulating pulse condition.Can show in touch screen module 23 after the energising of this equipment User interface, user can select to need the arteries and veins of simulation by way of finger touches on screen As.After user selects the pulse condition needing, touch screen module 23 says the word to main control board 423 at once, It is allowed to start to simulate pulse condition.

Embodiment two

In the present embodiment, the invention provides a kind of pulse condition analogy method using above-mentioned pulse condition simulator, Comprise the steps：

Step S1：One or more water pump is driven to extract water from water tank out and enter by the outlet of water pump Row conveying；

Step S2：The instantaneous pressure of the water that each pump outlet conveys is adjusted to simulate through electromagnetic valve Pulse condition waveforms amplitude and frequency, are delivered to the entrance point of pulse condition synthetic voltage stable device afterwards；

Step S3：Simulated blood vessel in simulation arm is delivered water into by the port of export of pulse condition synthetic voltage stable device Interior, water passes into the water inlet flowing out to water tank by the other end from one end of simulated blood vessel.

In above-mentioned step, also include following program：By main control board come controlled motor driver, And then the rotating speed of adjustment pump motor, and then water pump is controlled to extract/convey the flow velocity of water.

In above-mentioned step, also include following program：Simulated come real-time detection by a pulse-tracing collection instrument The pulse condition output waveform of arm.

Below pulse condition simulation process is described further：

1st, arteries and veins position adjustment

Main control board 423 according to the ascending and descending condition of current pulse condition say the word to arteries and veins position rise and fall motor 426, so Sink-float motor 426 in arteries and veins position starts to lift the heavy or floating physical state to adjust simulated blood vessel 425 afterwards. Arteries and veins position sink-float motor 426 is rotated up a simulated blood vessel 425 and holds up as floating pulse, rotates down simulation Blood vessel 425 declines as deep pulse, and heavy, floating centre position takes pulse condition in being.

2nd, simulate blood circulation of human body

Motor driver and main control board 423 say the word to motor driver, are driven by motor driver No. 1 water pump 419, No. 3 water pumps 418 of 420, No. 2 water pumps, then allow it start to rotate, the speed of rotation Degree can be adjusted according to different pulse conditions.At this time water pump passes through simulated blood vessel 425 from water tank 404 Middle extraction out simulates blood (i.e. distilled water), flows into 414, No. 2 electromagnetic valves of No. 1 electromagnetic valve 413,3 Electromagnetic valve 412.

3rd, simulate human body pulse condition

Main control board 423 passes through to control No. 1 electromagnetic valve 413, No. 3 electromagnetic valves 412 of 414, No. 2 electromagnetic valves Opening and closing produce pulse to simulate the crest of pulse condition, the pulse that simulation blood produces with this 3 electromagnetic valves Finally enter after pulse condition synthesizer manostat 407 in the simulated blood vessel 425 in simulation arm 408. It is closely related that the crest of each electromagnetic valve and each waveform is formed.When being effectively off electromagnetic valve, The pressure of this road water can rise, when electromagnetic valve is opened, the pulses generation of a high pressure, so First crest occurs as soon as, and can refer to shown in Fig. 7, defines the ripple shown in any one arrow in Fig. 7 Peak, and traditional analog meter does not enable this accurate pulse condition waveform.In the present invention, water pump is just Be equivalent to heart, electromagnetic valve is equivalent to valve between VA room, coordinated by water pump and electromagnetic valve, And then generate complicated pulse condition waveform.

4th, pulse condition output

Now just obtain the pulse condition of needs simulation at the simulated blood vessel 425 in simulation arm 408.Rear mold Intend blood (distilled water circulating in simulated blood vessel 425) to be once more back in water tank 404, whole Individual simulated technological process terminates and constantly repeats to produce continuous pulse condition.

Above presently preferred embodiments of the present invention is described.It is to be appreciated that the present invention does not limit to In above-mentioned particular implementation, wherein the equipment describing in detail and structure are not construed as using this area to the greatest extent In common mode be practiced；Any those of ordinary skill in the art, without departing from the technology of the present invention In the case of aspects, all can be utilized the methods and techniques content of the disclosure above that technical solution of the present invention is done Go out many possible variations and modification, or be revised as the Equivalent embodiments of equivalent variations, this has no effect on this The flesh and blood of invention.Therefore, every content without departing from technical solution of the present invention, according to the present invention's Technical spirit, to any simple modification made for any of the above embodiments, equivalent variations and modification, all still falls within this In the range of inventive technique scheme protection.

Claims (10)

1. a kind of pulse condition simulator is it is characterised in that include：

Base plate；

Water tank, is fixed on described base plate, and described water tank internal memory contains water, and if this water tank have Dry water inlet and some outlets；

Some water pumps, are in a row fixed on described base plate, and each described water pump is provided with a water inlet and and goes out The mouth of a river, the outlet of described water tank is connected one by one with the water inlet of each described water pump, each described water pump Outlet is all connected to a pulse condition synthetic voltage stable device, and this pulse condition synthetic voltage stable utensil has at least one water return outlet, Described water return outlet is connected with the water inlet of described water tank, and the outlet of each described water pump and described pulse condition It is provided with an electromagnetic valve between synthetic voltage stable device；

Simulation arm, is provided with simulated blood vessel in described simulation arm, one end of described simulated blood vessel connects institute State pulse condition synthetic voltage stable device, the other end connects the water inlet of described water tank.

2. pulse condition simulator as claimed in claim 1 is it is characterised in that be additionally provided with described base plate Switching circuit board, described switching circuit board has switching device and power supply change-over device, described switch dress Put and be connected with described power supply change-over device, described power supply change-over device and each described water pump, each described electromagnetism Valve is connected with described pulse condition synthetic voltage stable device.

3. pulse condition simulator as claimed in claim 1 is it is characterised in that be additionally provided with described base plate Motor driver and main control board, described motor driver is connected with described main control board, and described Motor driver is connected with each described water pump.

4. pulse condition simulator as claimed in claim 1 is it is characterised in that will be described by a silica gel tube Each outlet of water tank is connected one by one with the water inlet of each described water pump.

5. pulse condition simulator as claimed in claim 1 is it is characterised in that described pulse condition synthetic voltage stable device There is some entrance points and a port of export；

Each described entrance point is all connected with the outlet of each described water pump by a silica gel tube, and any one described Described electromagnetic valve is provided with the silica gel tube between the outlet of water pump and described entrance point；

The port of export of described pulse condition synthetic voltage stable device is connected with one end of described simulated blood vessel by a silica gel tube.

6. pulse condition simulator as claimed in claim 1 is it is characterised in that be provided with 3 on described base plate Platform water pump.

7. pulse condition simulator as claimed in claim 3 is it is characterised in that be additionally provided with described base plate Rise and fall motor for arteries and veins position, is connected with described main control board, and described arteries and veins position sink-float motor has a lowering or hoisting gear, Described lowering or hoisting gear passes through described simulation arm to lift described simulated blood vessel.

8. a kind of pulse condition analogy method using described pulse condition simulator as any one in claim 1 to 7, It is characterized in that, comprise the steps：

One or more water pump is driven to extract water from water tank out and conveyed by the outlet of water pump；

Through electromagnetic valve, the instantaneous pressure of the water that each pump outlet conveys is adjusted to simulate pulse condition ripple Shape amplitude and frequency, are delivered to the entrance point of pulse condition synthetic voltage stable device afterwards；

By the port of export of pulse condition synthetic voltage stable device deliver water into simulation arm in simulated blood vessel in, water from One end of simulated blood vessel passes into the water inlet flowing out to water tank by the other end.

9. pulse condition analogy method as claimed in claim 8 is it is characterised in that methods described also includes：

Control described motor driver by described main control board, and then adjust the motor of described water pump and turn Speed.

10. pulse condition analogy method as claimed in claim 8 is it is characterised in that methods described also includes：

Simulate the pulse condition output waveform of arm by a pulse-tracing collection instrument come real-time detection.