CN112971750A - Multifunctional cardio-cerebral-ventilation training instrument - Google Patents

Abstract

The invention relates to a multifunctional cardio-cerebral apoplexy training instrument, which comprises a training instrument body, wherein a control circuit board, a power supply, a measuring air pump and a training air pump are arranged in the training instrument body, a right side arm hole is arranged on the right side surface of the training instrument body, a first electromagnetic valve is connected between the right side arm hole and the measuring air pump, a second electromagnetic valve is connected between the right side arm hole and the training air pump, a right side arm belt is connected outside the right side arm hole, a left side arm hole and a USB power supply interface are arranged on the left side surface of the training instrument body, a third electromagnetic valve is connected between the left side arm hole and the measuring air pump, a fourth electromagnetic valve is connected between the, the upper surface of the training instrument body is provided with a display screen, a power switch key, a blood pressure measuring key, an ischemia pre-adaptation key, an emergency stop key, a setting key, a blood pressure mode selection gear key, an ischemia pre-adaptation training gear key, a left arm memory value key and a right arm memory value key. The invention can find the cardiovascular problem in time; enhancing the tolerance of organs to ischemia and hypoxia.

Description

Multifunctional cardio-cerebral-ventilation training instrument

Technical Field

The invention relates to the technical field of rehabilitation equipment, in particular to a multifunctional cardio-cerebral apoplexy training instrument.

Background

Cardiovascular and cerebrovascular diseases are the general names of cardiovascular and cerebrovascular diseases, and generally refer to ischemic or hemorrhagic diseases of heart, brain and systemic tissues caused by hyperlipidemia, blood viscosity, atherosclerosis, hypertension and the like. The cardiovascular and cerebrovascular diseases are common diseases seriously threatening the health of human beings, particularly the middle-aged and old people over 50 years old, have the characteristics of high morbidity, high disability rate and high mortality, even if the most advanced and perfect treatment means at present are applied, more than 50 percent of cerebrovascular accident survivors can not completely take care of the life, the number of people dying from the cardiovascular and cerebrovascular diseases in each year in the world reaches 1500 thousands, and the people live at the first of various causes of death.

Disclosure of Invention

The invention aims to prevent and assist in improving cardiovascular and cerebrovascular diseases, and provides a multifunctional cardio-cerebral vascular disease training instrument.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a multi-functional heart brain leads to training appearance, includes training appearance body, this internal control circuit board, power, measurement air pump and training air pump of being equipped with of training appearance, be equipped with MCU circuit on the control circuit board and with display screen circuit, power circuit, measurement air pump circuit and the training air pump circuit of MCU circuit connection, the power links to each other for all part power supplies with power circuit, it links to each other with measurement air pump circuit to measure the air pump, the training air pump links to each other with training air pump circuit, training appearance body upper surface is equipped with the display screen, the display screen links to each other with the display screen circuit, be equipped with right side arm hole on the training appearance body right flank, even have first solenoid valve between right side arm hole and the measurement air pump, even have the second solenoid valve between with the training air pump, even have right side arm area outside the right side arm hole, be equipped with left side arm hole on, The left side arm hole is externally connected with a left side arm belt, the USB power supply interface is connected with a power supply, the upper surface of the training instrument body is provided with a power switch key, a blood pressure measuring key, an ischemia pre-adaptation key, an emergency stop key, a setting key, a blood pressure mode selection shift key, an ischemia pre-adaptation training shift key, a left arm memory value key and a right arm memory value key, the power switch key is connected with a power circuit, and the blood pressure measuring key, the ischemia pre-adaptation key, the emergency stop key, the setting key, the blood pressure mode selection shift key, the ischemia pre-adaptation training shift key, the left arm memory value key and the right arm memory value key are connected with the MCU circuit.

The right arm belt and the left arm belt respectively comprise a binding belt bound on an arm and an air pipe communicated with the inner cavity of the binding belt, and the air pipes of the right arm belt and the left arm belt are respectively connected with the right arm belt hole and the left arm belt hole.

The bandage outside is equipped with two and accomodates the area, and the link in two accomodate areas is equipped with the complex connector link.

The lower surface of the training instrument body is provided with a plurality of supporting bases.

The blood pressure mode selection gear key comprises three gears, wherein the first gear is a single blood pressure measurement mode; the second gear is a three-time average value measurement mode; the third gear is the blood pressure difference blood pressure measuring mode between the upper arms.

The ischemia pre-adaptive training gear key comprises five gears, wherein a first gear is a pre-adaptive training mode one: left 47 minute cycle, right 42 minute cycle; the second gear is a second pre-adaptive training mode: left 47 minute cycle, right 42 minute cycle; the third gear is a pre-adaptive training mode three: left 40 minute cycle, right 35 minute cycle; gear four is automatic mode one: alternating for about 15 minutes; the fifth gear is an automatic mode two: about 21 minutes simultaneously.

The circumference range of the binding arm of the binding band is 22-35 cm.

The invention has the beneficial effects that: the invention finds the cardiovascular problem in time by measuring the blood pressure at two sides; then, the potential of the human body for resisting ischemia and anoxia is stimulated through pre-adaptation training, and an organism is induced to generate endogenous protective substances to establish collateral circulation as soon as possible, so that the tolerance capability of important organs such as heart, brain, liver, kidney and the like to ischemia and anoxia is enhanced, and the possible serious fatal ischemia and anoxia damage is reduced; by applying periodic pressure to the limb, blood and tissue fluid circulation is promoted, and edema and pain of the limb are relieved; has the function of training both arms simultaneously.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a right side schematic view of the exercise apparatus body;

FIG. 3 is a schematic left side view of the training apparatus body;

FIG. 4 is a schematic structural view of the right and left armbands;

FIG. 5 is a circuit diagram of the MCU of the present invention;

FIG. 6 is a circuit diagram of a display panel according to the present invention;

FIG. 7 is a power supply circuit diagram of the present invention;

FIG. 8 is a circuit diagram of the measurement air pump of the present invention;

FIG. 9 is a circuit diagram of the training air pump of the present invention;

in the figure: 1-training instrument body; 2-a display screen; 3-the right side arm is provided with a hole; 4-right side arm band; 5-the left side arm is provided with a hole; 6-USB power interface; 7-left side armband; 8-power switch key; 9-blood pressure measurement key; 10-ischemia preconditioning bond; 11-emergency stop key; 12-a setting key; 13-blood pressure mode selection gear key; 14-ischemia pre-adaptation training gear key; 15-left arm memory value key; 16-right arm memory value key; 17-a strap; 18-trachea; 19-a storage belt; 20-connecting buckles; 21-a support base;

the following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1 to 9, a multifunctional training instrument for cardio-cerebral circulation comprises a training instrument body 1, a control circuit board, a power supply, a measurement air pump and a training air pump are arranged in the training instrument body 1, an MCU circuit, a display screen circuit connected with the MCU circuit, a power supply circuit, a measurement air pump circuit and a training air pump circuit are arranged on the control circuit board, the power supply is connected with the power supply circuit to supply power to all components, the measurement air pump is connected with the measurement air pump circuit, the training air pump is connected with the training air pump circuit, a display screen 2 is arranged on the upper surface of the training instrument body 1, the display screen 2 is connected with the display screen circuit, a right side arm hole 3 is arranged on the right side surface of the training instrument body 1, a first electromagnetic valve is connected between the right side arm hole 3 and the measurement air pump, a second electromagnetic valve is connected between the right side arm hole 3 and the training air pump, a left side arm hole 5 and a USB power supply interface 6 are arranged on the left side surface of the training instrument body 1, a third electromagnetic valve is connected between the left side arm hole 5 and the measuring air pump, a fourth electromagnetic valve is connected between the training air pump and the measuring air pump, the left arm belt 7 is connected outside the left arm belt hole 5, the USB power interface 6 is connected with a power supply, the upper surface of the training instrument body 1 is provided with a power switch key 8, a blood pressure measuring key 9, an ischemia pre-adaptation key 10, an emergency stop key 11, a setting key 12, a blood pressure mode selection gear key 13, an ischemia pre-adaptation training gear key 14, a left arm memory value key 15 and a right arm memory value key 16, the power switch key 8 is connected with a power circuit, and the blood pressure measuring key 9, the ischemia pre-adaptation key 10, the emergency stop key 11, the setting key 12, the blood pressure mode selection gear key 13, the ischemia pre-adaptation training gear key 14, the left arm memory value key 15 and the right arm memory value key 16 are connected with the MCU circuit.

The right arm belt 4 and the left arm belt 7 respectively comprise a bandage 17 which is bound on an arm and an air pipe 18 which is communicated with the inner cavity of the bandage 17, and the air pipes 18 of the right arm belt 4 and the left arm belt 7 are respectively connected with the right arm belt hole 3 and the left arm belt hole 5.

Two storage belts 19 are arranged on the outer side of the binding belt 17, and a connecting buckle 20 matched with the two storage belts 19 is arranged at the connecting end of the two storage belts 19.

The lower surface of the training instrument body 1 is provided with a plurality of supporting bases 21.

The blood pressure mode selection gear key 13 comprises three gears, wherein a gear I is a single blood pressure measurement mode; the second gear is a three-time average value measurement mode; the third gear is the blood pressure difference blood pressure measuring mode between the upper arms.

The ischemia pre-adaptive training gear key 14 includes five gears, wherein the first gear is a pre-adaptive training mode one: left 47 minute cycle, right 42 minute cycle; the second gear is a second pre-adaptive training mode: left 47 minute cycle, right 42 minute cycle; the third gear is a pre-adaptive training mode three: left 40 minute cycle, right 35 minute cycle; gear four is automatic mode one: alternating for about 15 minutes; the fifth gear is an automatic mode two: about 21 minutes simultaneously.

The circumference range of the binding arm of the binding band 17 is 22-35 cm.

The invention adopts the principle of remote ischemia pre-adaptation, which means that an advanced intelligent pumping pressure technology is adopted, and the invention can activate a large amount of protective factors such as limb adenosine, bradykinin and nitric oxide and the like instantaneously by external intervention and regular transient blockage of blood flow of limb arteries and veins, thereby having important effects on prevention and adjuvant therapy of cardiovascular diseases and the like.

After the human heart, brain and other important organs are subjected to transient, nonpathogenic ischemia and anoxia in advance, the human heart, brain and other important organs produce endogenous protective substances (such as adenosine, bradykinin, nitric oxide and the like) per se, so that the myocardial infarction and cerebral infarction caused by subsequent ischemia lasting for a longer time are relieved, and the disability rate and death rate of cardiovascular and cerebrovascular diseases are reduced. This phenomenon is called ischemic preconditioning. Generally speaking, after the local short-term ischemia and anoxia of the upper limb or the lower limb of our body are repeated, the body generates the endogenous protective medium of the body, and then the endogenous protective medium circulates to each part of the body through blood to enable the body to generate the tolerance and adaptability to the short-term ischemia and anoxia, so that the heart, the brain, the lung, the kidney, the liver and other organs of our body are protected.

Pre-adapted training therapy 9 major effects: promoting blood and tissue fluid circulation, and preventing thrombosis; the medicine is anti-ischemic and anti-hypoxia, and sudden death is avoided; establishing collateral circulation to protect the heart; against ischemic and hypoxic cardiovascular and cerebrovascular diseases; improving sleep quality; is beneficial to the rehabilitation after cerebral infarction or myocardial infarction; relieving edema and pain of limbs; the infarct area is reduced, and sequelae are reduced; and (4) stabilizing blood pressure.

The invention finds the cardiovascular problem in time by measuring the blood pressure at two sides; then, the potential of the human body for resisting ischemia and anoxia is stimulated through pre-adaptation training, and an organism is induced to generate endogenous protective substances to establish collateral circulation as soon as possible, so that the tolerance capability of important organs such as heart, brain, liver, kidney and the like to ischemia and anoxia is enhanced, and the possible serious fatal ischemia and anoxia damage is reduced; by applying periodic pressure to the limb, blood and tissue fluid circulation is promoted, and edema and pain of the limb are relieved; has the function of training both arms simultaneously.

The invention has been described in connection with the accompanying drawings, it is to be understood that the invention is not limited to the specific embodiments disclosed, but is intended to cover various modifications, adaptations or uses of the invention, and all such modifications and variations are within the scope of the invention.

Claims (7)

1. The multifunctional cardio-cerebral-circulatory training instrument is characterized by comprising a training instrument body (1), wherein a control circuit board, a power supply, a measuring air pump and a training air pump are arranged in the training instrument body (1), the control circuit board is provided with an MCU circuit, and a display screen circuit, a power supply circuit, a measuring air pump circuit and a training air pump circuit which are connected with the MCU circuit, the power supply is connected with the power supply circuit to supply power for all parts, the measuring air pump is connected with the measuring air pump circuit, the training air pump is connected with the training air pump circuit, the upper surface of the training instrument body (1) is provided with a display screen (2), the display screen (2) is connected with the display screen circuit, the right side arm hole (3) is arranged on the right side surface of the training instrument body (1), a first electromagnetic valve is connected between the right side arm hole (3) and the measuring air pump, and a second electromagnetic valve, the left arm hole (5) and the USB power interface (6) are arranged on the left side face of the training instrument body (1), a third electromagnetic valve is connected between the left arm hole (5) and the measurement air pump, a fourth electromagnetic valve is connected between the training air pump and the training air pump, a left arm belt (7) is connected outside the left arm hole (5), the USB power interface (6) is connected with a power supply, a power switch key (8), a blood pressure measurement key (9), an ischemia pre-adaptation key (10), an emergency stop key (11), a setting key (12), a blood pressure mode selection gear key (13), an ischemia pre-adaptation training gear key (14), a left arm memory value key (15) and a right arm memory value key (16) are arranged on the upper surface of the training instrument body (1), the power switch key (8) is connected with the power supply circuit, the blood pressure measurement key (9), An ischemia pre-adaptation key (10), an emergency stop key (11), a setting key (12), a blood pressure mode selection gear key (13), an ischemia pre-adaptation training gear key (14), a left arm memory value key (15) and a right arm memory value key (16) are connected with the MCU circuit.

2. The multifunctional cardio-cerebral apoplexy training instrument according to claim 1, wherein the right arm strap (4) and the left arm strap (7) each comprise a binding band (17) attached to an arm and an air tube (18) communicated with an inner cavity of the binding band (17), and the air tubes (18) of the right arm strap (4) and the left arm strap (7) are respectively connected with the right arm strap hole (3) and the left arm strap hole (5).

3. The multifunctional cardio-cerebral-ventilation training instrument according to claim 2, wherein two storage belts (19) are arranged on the outer side of the binding belt (17), and the connecting ends of the two storage belts (19) are provided with the matched connecting buckles (20).

4. The multifunctional cardio-cerebral-resuscitation training instrument according to claim 3, wherein the lower surface of the training instrument body (1) is provided with a plurality of supporting bases (21).

5. The multifunctional cardio-cerebral-connectivity training instrument according to claim 4, characterized in that the blood pressure mode selection gear key (13) comprises three gears, wherein the first gear is a single blood pressure measurement mode; the second gear is a three-time average value measurement mode; the third gear is the blood pressure difference blood pressure measuring mode between the upper arms.

6. The multifunctional cardio-cerebral-connectivity training instrument according to claim 5, wherein the ischemia pre-adaptive training gear key (14) comprises five gears, wherein the first gear is a pre-adaptive training mode one: left 47 minute cycle, right 42 minute cycle; the second gear is a second pre-adaptive training mode: left 47 minute cycle, right 42 minute cycle; the third gear is a pre-adaptive training mode three: left 40 minute cycle, right 35 minute cycle; gear four is automatic mode one: alternating for about 15 minutes; the fifth gear is an automatic mode two: about 21 minutes simultaneously.

7. The multifunctional cardio-cerebral-ventilation training instrument according to claim 6, wherein the circumference of the binding arm of the binding band (17) ranges from 22 cm to 35 cm.

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