JPH08112324A - Blood circulation accelerating unit - Google Patents

Abstract

PURPOSE: To easily use a unit at a desired pressure value of an air bag for blood circulation acceleration. CONSTITUTION: The blood circulation accelerating unit is equipped with the air bag 2 which expands with compressed air, a compressor 24 (compressed air supply means), a solenoid valve 29 (valve means), a remote control unit 10 (input means), a pressure sensor 28 (pressure detecting means), a memory 23 (storage means) which stores the desired pressure value, and a control unit 21. Then when the pressure value in the air bag 2 which is supplied based on a compressed air supply signal inputted from the remote control unit 10 reaches the desired pressure value, the pressure value detected by the pressure sensor 28 is stored as a desired pressure value in the memory 23 based a compressed air stop signal inputted from the remote control unit 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention aims to promote blood circulation in the body by supplying and exhausting compressed air to the air bag to inflate it and causing the inflation pressure of the air bag to intermittently act on the body. The blood circulation promoting device.

[0002]

2. Description of the Related Art Heretofore, this type of blood circulation promoter supplies compressed air to an air bag attached to the body to inflate it, and the inflation pressure associated with the expansion strongly clamps the body to compress the blood vessel and then the compressed air. The air is rapidly exhausted to remove the inflation pressure, thereby rapidly opening the compressed blood vessel and instantaneously releasing the blood flow which has been blocked until then, thereby promoting the blood flow. And
Air supply / exhaust of an air bag detects that the pressure of the compressed air supplied to the air bag has reached a predetermined pressure, exhausts the air, and repeats expansion and contraction, but there are individual differences in this predetermined pressure value. Also, the pressure value desired by the user is not always constant. Further, the predetermined pressure is set by the air supply time of the air bag,
In the setting by this time, the compressed air supply time until reaching the predetermined pressure value varies depending on the physique of the user.Therefore, when the user sets the pressure value desired by the user, it is repeatedly adjusted by the adjusting knob or the like. Had to do.

[0003]

As described above, in the conventional blood circulation promoter, it is difficult to set a desired pressure value, so that it is difficult for the user to use at a desired pressure value, which is extremely difficult. There was a problem that it was not easy to use.

[0004]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems of the prior art. The invention according to claim 1 expands and contracts by supplying and discharging compressed air and is attached to at least a part of the body. An air bag, compressed air supply means for supplying compressed air to the air bag via a tube, and valve means provided in communication with the tube for opening and closing the inside of the tube to the outside, Input means for inputting a compressed air supply signal and a stop signal, and start supplying compressed air to the air bag in response to the input of the compressed air supply signal input from this input means, and in response to the input of the stop signal. The blood circulation promoter provided with the compressed air supply means and the control means for controlling the valve means so that the supply of the compressed air is stopped and the air in the air bag is exhausted. Ming is an air bag that expands and contracts due to the supply and exhaust of compressed air and is attached to at least a part of the body, compressed air supply means for supplying compressed air to this air bag through a pipe body, and the pipe body. Valve means provided in communication with each other to open and close the inside of the tube to the outside, pressure detection means for detecting the pressure of compressed air supplied to the air bag, and compressed air supply signal and pressure value writing Input means for inputting a signal, storage means for storing a pressure value, and a writing means for writing the pressure value detected by the pressure detection means on the basis of the pressure value writing signal input from the input means in the storage means. From the input means, the pressure value comparison means for comparing the pressure value stored in the storage means with the pressure value detected by the pressure detection means, and outputting a coincidence signal when the both coincide with each other. Entering When the pressure in the air bag supplied from the compressed air supply means reaches a desired pressure value based on the compressed air supply signal, the pressure detection means detects the pressure value according to the input pressure value write signal. The stored pressure value is written and stored in the storage means via the writing means, and compressed air is supplied from the compressed air supply means to the air bag until the coincidence signal is output from the pressure value comparison means. And a control means for controlling the valve means to open so as to exhaust the compressed air from the air bag in accordance with the output of the blood circulation promoter.

[0005]

The invention according to claim 1 configured as described above,
The user can use it while sensing his or her desired pressure value each time the airbag is inflated, and the invention according to claim 2 is such that the user inputs a compressed air signal from the input means to output compressed air to the airbag. The pressure value at this point can be set in the storage means by inputting the pressure value write signal when the supply is started and when it is sensed that the pressure has reached the desired pressure. It can be set reliably.

[0006]

Embodiments of the present invention will now be described with reference to FIGS.
It will be described based on.

The blood circulation promoter 1 comprises an air bag 2 and a device body 3 for supplying compressed air to the air bag 2, as shown in FIG. The air bag 2 is made of, for example, two soft and airtight sheet materials 4a and 4b made of vinyl chloride, polyurethane or the like, and their outer edges are airtightly fixed by adhesion or the like to form a space 4c inside. Although it is formed into a bag shape and is shown as an outerwear type to be worn on the upper body 5 in FIG. 1, it is configured to be worn on a part of the body. An air tube 6b is connected to the air bag 2, and an air tube 6a as a tube body for supplying compressed air is connected to the apparatus body 3. Both air tubes 6a and 6b are connected to a rapid exhaust valve 25 described later. In addition, quick exhaust valve 2
5 is provided on the air bag 2 side, and the air tube 6b is formed shorter than the air tube 6a.

Next, the apparatus main body 3 will be described. 7
Is a casing of the device main body 3 including an upper casing 7a and a lower casing 7b. Inside the casing 7, a compressed air supply device 20 described later is provided.

A pressure value indicator 8 for analogically displaying the magnitude of the pressure value is provided at the center of the front surface of the casing 7. This pressure value indicator 8 is composed of display bars 8a to 8n whose display height increases from left to right in the figure, and a light emitting diode is arranged on the back surface. The height of the display bar indicates the magnitude of the pressure value, and the light emitting diode corresponding to the display bar corresponding to the pressure value is caused to emit light to indicate the pressure value.

A storage recess 9 is formed on the right side of the housing 7 in the drawing, and a remote control device 10 as an input means is detachably stored in the storage recess 9. This remote control device 10 transmits a signal by infrared rays, and an infrared light emitting diode 11 for emitting infrared rays is provided at one end thereof, and a compressed air supply signal input button 10a, an expansion / contraction number input button 10b,
A desired pressure value setting button 10c, a compressed air supply stop signal input button 10d and the like are provided. Also, the storage recess 9
A light-receiving sensor 12 that receives an infrared signal, which is a component of the receiving unit, is arranged in the. Furthermore, the device body 3
An indicator 13 for displaying the number of inflations and deflations of the airbag 2 to be described later is provided on the upper left side of the above, and a power switch 14 is provided below it. Further, one end of the air tube 6a is connected to one side surface of the apparatus body 3. Reference numeral 15 is a power cord.

Next, the compressed air supply device 20 will be described with reference to the block diagram of FIG. In FIG. 2, reference numeral 21 denotes a central processing unit (CPU), read only memory (ROM), random access memory (R).
AM) or the like as a control device, and the control device 21 includes the remote control device 10
Receiving unit 22 for receiving an input signal from the sensor 12 via the light receiving sensor 12, the pressure value display 8 and the airbag 2
A display 13 for displaying the number of times of expansion and contraction is connected. The control device 21 is supplied with power via the power switch 14. In addition, the control device 21
A memory 23 as a rewritable storage means is connected to the memory. The memory 23 stores the number of times the airbag 2 is inflated and deflated, which is input from the remote control device 10, and a desired pressure value of compressed air, which will be described later. Then, the stored desired pressure value of the compressed air is displayed on the pressure value display 8 via the control device 21. The desired pressure value and the expansion / contraction number value indicate values desired by the user, that is, values suitable for the user, and these values are arbitrarily set by the user in use.

Next, 24 is a compressor as a compressed air supply means, and this compressor 24 includes the air tube 6a, the quick exhaust valve 25 and the air tube 6.
Compressed air is supplied to the air bag 2 via b. A pipe 27 communicating with the inside of the air tube 6a is connected to the air tube 6a, and the pipe 27 is branched into a pipe 27a and a pipe 27b.
A pressure sensor 28, which is a semiconductor pressure sensor as a pressure detecting means, is connected to, and a solenoid valve 29 is connected to the pipe 27b. And the pressure sensor 2
Reference numeral 8 always detects the pressure value of the compressed air in the air tube 6a supplied from the compressor 24. The pressure value detected by the pressure sensor 28 is gradually increased when compressed air is supplied, and is constantly changed so as to be rapidly decreased when the supply of the compressed air is stopped and a solenoid valve 29 described later is opened. The changing pressure value is displayed on the pressure value display 8 via the control device 21. Therefore, the user can always confirm this pressure value visually.

Further, the controller 21 has a writing means 30.
Are connected to the controller 21.
When a desired pressure value write signal is input from the desired pressure value setting button 10c of the input means 10, the pressure in the pipe 27 which is controlled by the control device 21 and is currently detected by the pressure sensor 28, that is, the air bag. It functions to write the pressure value of the compressed air in 2 into the memory 23.

A pressure value comparator 31 is connected to the pressure sensor 28, and the pressure value comparator 31 is connected.
Constantly compares the pressure value of the compressed air detected by the pressure sensor 28 with the desired pressure value written in the memory 23, and when both match, that is, have the same magnitude, the controller 21 sends a match signal. It is designed to output to. When the coincidence signal is output from the pressure comparator 31, the control device 21 stops the compressor 24 and stops the supply of compressed air to the air bag, and at the same time, connects the inside of the air tube 6a with the outside through the pipe 27. The solenoid valve 29 is controlled to open. The solenoid valve 29 is normally closed and is opened only when electricity is supplied. When the compressor 24 is stopped due to the stop of the compressed air supply,
The inside of the air tube 6a communicates with the outside and functions to reduce the pressure inside the air tube 6a.

A solenoid valve operation counter 32 is connected to the solenoid valve 29. The solenoid valve operation counter 32 is connected to the solenoid valve operation counter 32.
Operates when the solenoid valve 29 is opened. That is, the compressed air is supplied to the air bag 2 to reach the desired pressure value, and the control device 21 stops the compressor 24 and the electromagnetic force based on the coincidence signal output from the pressure value comparator 31 via the pressure sensor 28. Although the valve 29 is to be opened, the solenoid valve operation counter 32 counts the number of times the solenoid valve 29 is opened, that is, the number of times the airbag 2 is inflated and deflated.

A switching device 33 for switching the compressed air supply device 20 between the automatic mode and the manual mode is connected to the solenoid valve operation counter 32. That is, when the solenoid valve operation counter 32 is connected to the expansion / contraction frequency value comparator 34, the automatic mode is set, and when the electromagnetic valve operation counter 32 is disconnected, the manual mode is set. The mode switching is performed by operating the remote control device 10.

When the expansion / contraction frequency value comparator 34 is connected to the solenoid valve operation counter 32 by the automatic mode, that is, the switch 33, the user stores the data in the memory via the remote control device 10 prior to use. The set inflation / deflation count value of the airbag 2 is compared with the count value of the solenoid valve operation counter 32, and when the two coincide, a coincidence signal is output to the control device 21. When the controller 21 receives the coincidence signal from the expansion / contraction number comparator 34, the controller 21 stops the compressor 24 so as to stop the supply of compressed air to the airbag 2, and at the same time, connects the inside of the air tube 6a to the outside. To do so, the compressor 24 and the solenoid valve 29 are controlled so that the solenoid valve 29 is opened. That is, when the inflation and deflation of the airbag 2 is repeated a desired number of times set by the user, the supply of compressed air to the airbag 2 is automatically stopped, and the compressed air in the air tube 2 is exhausted to supply compressed air. The device 20 stops the operation. The count value of the expansion / contraction number value comparator 34 is displayed on the display 13.

Next, when the solenoid valve operation counter 32 is separated from the expansion / contraction frequency value comparator 34 by the switching device 33 to be in the manual mode, the solenoid valve operation counter 32 is used.
Is directly connected to the control device 21, and the count value of the solenoid valve operation counter 32 is displayed on the display 13 via the control device 21. Therefore, when the user selects the manual mode, the compressed air supply stop signal is input from the remote control device 10 when the desired number of times is reached while visually confirming the number of times of expansion and contraction displayed on the display. The operation of the compressed air supply device 20 may be stopped.

Next, the rapid exhaust valve 25 will be described. The quick exhaust valve 25 functions to rapidly exhaust the compressed air in the air bag 2 when compressed air is supplied from the compressor 24 and reaches a reference pressure value and the supply is stopped. It will be described with reference to FIG. The quick exhaust valve 25 is provided on the opposing walls 35a, 35.
It is composed of a hollow casing 35 having b, and a plate-shaped valve body 36 disposed inside the casing 35 so as to be movable in the directions of the facing walls 35a and 35b. The valve body 36 has a vent hole 36a formed in the central portion thereof and at the same time has a valve 36b made of an elastic material that closes the vent hole 36a. The valve 36b opens in the direction in which the compressed air from the compressor 24 flows to the air bag 2 side. Further, connecting pipes 37 and 38 are provided in the central portions of the opposing walls 35a and 35b, respectively, and the quick exhaust holes 3 are provided in the opposing wall 35b.
9 is formed. The air tube 6a is connected to the connecting tube 37, and the connecting tube 38 is connected to the air tube 6b of the air bag 2.

Next, the operation of the quick exhaust valve 25 will be described. First, when the compressed air is started to be supplied from the compressor 24 to the air bag 2, the valve body 36 is compressed by the compressed air so that the opposing wall 35b is formed as shown in FIG. 3B.
And the rapid exhaust hole 39 is closed. At this time, the valve 36b is opened and compressed air is supplied to the air bag 2 through the vent hole 36a. Then, as the air bag 2 gradually expands, the pressure value of the compressed air in the air bag 2, that is, the pressure value in the air tube 6a also increases, reaching the set desired pressure value, and the control device 21 causes the compressor 24 to operate. When the operation is stopped and the solenoid valve 29 is opened, the pressure in the air tube 6a decreases, so that the valve body 36 is separated from the facing wall 35b as shown in FIG. 3 (A), and the vent hole 36a is replaced by the valve body 36b. When closed, the rapid exhaust hole 39 is opened, and the compressed air in the air bag 2 is rapidly exhausted through the rapid exhaust hole 39. The compressed air in the air bag 2 is supplied and exhausted by the solenoid valve 29 and the rapid exhaust valve 25 working in cooperation with each other, and these both constitute a valve means.

Next, the operation of the blood circulation promoter 1 of the above embodiment will be described.

First, the case where the user selects the manual mode will be described.

In operation, the user selects the manual mode by operating the remote control device 10, and after mounting the airbag 2 on the upper half of the body, operates the remote control device 10 to input a compressed air supply signal. Based on this compressed air supply signal, the control device 21 operates the compressor 24 so that the air tube 6a, the quick exhaust valve 25, and
The supply of compressed air to the air bag 2 via the air tube 6b is started, the pressure value of the compressed air in the air bag 2 and the pressure value of the air tube 6a gradually increase, and this pressure value is detected by the pressure sensor 28. At the same time, it is displayed on the pressure value display 8.

The pressure value in the air bag 2 gradually increases, but when the user feels that the pressure value is his or her desired value in the process, the remote control device 1
Input a compressed air supply stop signal from 0. Based on the compressed air supply stop signal, the control device 21 stops the compressor 24 and controls the electromagnetic valve 29 to be opened to exhaust the compressed air in the air bag 2. The user decreases the pressure as the air bag 2 is exhausted, but when he feels that the pressure is that he desires, that is, the pressure at which blood flows out, he operates the remote control device 10 again to squeeze. When the air supply signal is input, the control device 21 operates the compressor 24 based on the compressed air supply signal device 20 to start supplying compressed air to the air bag 2. Then, as described above, the user inputs the compressed air supply stop signal from the remote control device 10 when the user feels that the pressure value is his or her desired value, and causes the compressed air in the air bag 2 to be exhausted.
The supply / exhaust, that is, the number of inflations / expansions of the air bag 2 is counted by the solenoid valve operation counter 32 and displayed on the display unit 13. Therefore, the user can check the count value displayed on the display unit 13 for a predetermined number of times. It is sufficient to operate the device 20 by alternately repeating the input of the compressed air supply signal and the input of the compressed air supply stop signal until the above condition is reached.

As described above, by tightening the body by inflating and deflating the air bag 2 and rapidly releasing the tightening, the blood circulation can be promoted by repeatedly compressing and rapidly releasing the blood vessel.

In the above case, when the compressed air supply to the air bag 2 is stopped, the compressor 24 is stopped so that the compressed air is continuously supplied from the compressor to the air bag separately. As compared with the case where a switching valve for switching the exhaust to the outside is provided and the supply is stopped by switching the switching valve, the cost can be reduced because the switching valve is unnecessary. Further, in the case where the compressed air from the compressor is exhausted to the outside by using the switching valve, it is said that the pressure inside the airbag becomes abnormally high when the valve that exhausts the outside malfunctions. Since a safety valve is installed to avoid problems and the operating pressure of this safety valve is set higher than the normal exhaust pressure, the compressor must be driven until this operating pressure is reached, and the load on the compressor is increased. As a result, the problem of compressor failure or shortening of the life of the compressor is unavoidable. However, when the compressor is stopped as in the above embodiment, the above problem does not occur.

Next, the operation of the automatic mode will be described. Upon use, the user selects the automatic mode by operating the remote control device 10, inputs a desired number of times of inflation and deflation and sets it in the memory 23, and then attaches the air bag 2 to the upper half of the body to mount the remote control device 10. When the compressed air supply signal is operated to operate the device 20, the compressed air is started to be supplied from the compressor 24 to the air bag 2 through the air tube 6a, the rapid exhaust valve 25, and the air tube 6b. The pressure value of the compressed air in 2 and the pressure value of the air tube 6a gradually increase, and this pressure value is detected by the pressure sensor 28 and displayed on the pressure value display 8.

The pressure value in the air bag 2 gradually increases, but when the user feels that the pressure value is his or her desired value in the process, the remote control device 1
By operating the desired pressure value setting button 10c of 0, a write signal for writing this pressure value is input. This write signal is sent to the control device 21, and the control device 21 controls the writing means 30 based on the write signal of this desired pressure value so that the pressure sensor 28 detects at this time. The pressure value is written and set in the memory 23 as a desired pressure value. Then, when the compressed air is supplied to and exhausted from the air bag 2 thereafter, the pressure value detected by the pressure sensor 28 and the desired pressure value stored in the memory 23 are compared by the pressure value comparator 31, and the two coincide with each other. At this time, a coincidence signal is output to the control device 21. Based on this coincidence signal, the control device 21 stops the compressor 24 and at the same time the solenoid valve 29
Is opened and the inside of the air tube 6a is made to communicate with the outside to reduce the pressure value inside the air tube 6a. Then, the quick exhaust valve 25 operates to rapidly exhaust the compressed air in the air bag 2 to the outside. When the solenoid valve 29 operates to open, the solenoid valve operation counter 32 counts as having operated once. Then, after the compressed air in the air bag 2 is exhausted, the control device 21 closes the electromagnetic valve 29 again and operates the compressor 24 to start the supply of the compressed air to the air bag 2 when a predetermined time elapses. , Air bag 2 by repeating the above operation
Repeat the expansion and contraction operation of. This expansion / contraction operation is counted by the solenoid valve operation counter 32 as the operation of the solenoid valve 29, and this count value is compared with the expansion / contraction number value set in the memory 23 by the expansion / contraction number value comparator 34. When they match, a match signal is output to the control device 21. Based on this coincidence signal, the control device 21 stops the compressor 24 and controls the electromagnetic valve 29 to open, so that the pressure in the air tube 6a decreases, the quick exhaust valve 25 operates, and the squeeze in the air bag 2 is performed. Air is also exhausted through the quick exhaust hole 39. Then, after exhausting the compressed air in the air bag 2, the control device 21
Stops the compressed air supply device 20 and stops the operation of the blood circulation promoter 1.

While the blood circulation promoter 1 is in operation, that is, when the supply of compressed air is started, the air bag 2 is inflated gradually, and the inflation pressure accompanying this inflation gradually tightens the body. The blood vessels are compressed and the flow of blood is temporarily suppressed, but thereafter, as the compressed air in the air bag 2 is rapidly exhausted, the tightening up to that point is rapidly released. Blood that has been rapidly released and whose flow has been suppressed also starts to flow rapidly, and blood circulation is promoted by the forced suppression of this blood flow and the rapid release of this suppression.

In the above embodiment, the pressure sensor 28 detects the pressure inside the air tube 6a, but it can also detect the pressure inside the air bag 2.

In the above embodiment, the desired pressure value is set based on the input from the desired pressure value setting button 10c, but this setting stops the supply of compressed air when the desired pressure value is reached. Therefore, the setting may be made based on the stop signal input from the compressed air supply stop input button 10d.

[0032]

According to the invention of claim 1 configured as described above, the user can determine his / her desired pressure value each time the airbag is inflated, and the invention of claim 2 uses The person inputs the compressed air signal from the input means to start supplying compressed air to the air bag and inputs the pressure value write signal when the desired pressure is reached, so that the pressure value at this point is stored in the storage means. Since it can be set, a desired pressure value can be set easily and surely.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a blood circulation promoter showing an embodiment of the present invention.

FIG. 2 is a block diagram of the compressed air supply device of the above embodiment.

3A and 3B are cross-sectional views of the quick exhaust valve of the above embodiment, FIG. 3A is a diagram showing an operating state of the air bag in an exhaust state, and FIG. 3B is a diagram showing an operating state of the air bag in an air supply state.

[Explanation of symbols]

 1 Blood circulation promoter 2 Air bag 3 Device body 6a Air tube (tube) 8 Pressure value display 10 Remote control (input means) 13 Display (display means) 21 Control device (control means) 23 Memory (memory means) 24 Compressor (Compressed air supply means) 25 Rapid exhaust valve (valve means) 28 Pressure sensor (pressure detection means) 29 Electromagnetic valve (valve means) 30 Pressure value comparator (pressure comparison means) 31 Electromagnetic valve operation counter (expansion / contraction number counting means) ) 33 Expansion / contraction frequency comparator (expansion / compression frequency value comparison means)

Claims (2)

[Claims] 1. An air bag that expands and contracts by supplying and exhausting compressed air and is attached to at least a part of the body, compressed air supply means for supplying compressed air to the airbag via a pipe body, and the pipe. Valve means provided in communication with the body for opening and closing the inside of the pipe body to the outside, input means for inputting a compressed air supply signal and a stop signal, and a compressed air supply signal input from this input means The compressed air supply means and the valve means for starting the supply of compressed air to the air bag in response to the input and stopping the supply of the compressed air in response to the input of the stop signal and for exhausting the air in the air bag. And a control means for controlling the blood circulation promoter. 2. An air bag which expands and contracts by supplying and exhausting compressed air and is attached to at least a part of the body, compressed air supply means for supplying compressed air to the airbag via a pipe, and the pipe. Valve means provided in communication with the body for opening and closing the inside of the tube with respect to the outside, pressure detection means for detecting the pressure of compressed air supplied to the air bag, compressed air supply signal and pressure value Input means for inputting a write signal, storage means for storing a pressure value, and pressure value detected by the pressure detecting means on the basis of the pressure value write signal input from the input means in the storage means. Writing means for writing, pressure value comparing means for comparing the pressure value stored in the storing means with the pressure value detected by the pressure detecting means, and outputting a coincidence signal when the both agree with each other, and the input Means When the pressure in the air bag supplied from the compressed air supply means reaches a desired pressure value based on the input compressed air supply signal, it is detected by the pressure detection means according to the input pressure value write signal. The stored pressure value is written and stored in the storage means via the writing means, and the compressed air is supplied from the compressed air supply means to the air bag until the coincidence signal is output from the pressure value comparison means. And a control means for controlling the valve means to open so as to exhaust the compressed air from the air bag in response to the output of a signal.