CN215876154U - Department of respiration is with recovered trainer of pulmonary function - Google Patents

Abstract

The utility model discloses a lung function rehabilitation training device for a respiratory department, which comprises a chest cavity restraining device, an abdominal cavity restraining device and a pressure supply device, wherein the chest cavity restraining device is fixedly wound at the position of the chest cavity of a user and provides a restraining force for the chest cavity of the user, the abdominal cavity restraining device is fixedly wound at the position of the abdominal cavity of the user and provides a restraining force for the abdominal cavity of the user, and the pressure supply end of the pressure supply device is respectively connected with the pressure input ends of the chest cavity restraining device and the abdominal cavity restraining device. According to the utility model, the chest cavity constraint device and the abdominal cavity constraint device are arranged and are respectively fixed on the chest and the abdomen of a user, so that the user can take good exercise no matter the user adopts chest breathing or abdominal breathing.

Description

Department of respiration is with recovered trainer of pulmonary function

Technical Field

The utility model relates to medical equipment, in particular to a lung function rehabilitation training device for a respiratory department.

Background

If the lung function of a patient is low, hypoxia is caused in life, and various chronic diseases are induced easily:

1. effect on cardiovascular system: easily aggravate hypertension, induce myocardial infarction, cerebral thrombosis, etc.;

2. effects on the nervous system: hypoxia can directly affect the nervous system of a human and even damage brain tissues;

3. damage to tissues and cells: the energy metabolism of the whole tissue cells is obstructed, the immunity is reduced, and the cell degeneration is caused. Chronic diseases such as renal insufficiency and diabetes

The general breathing pattern of a person is divided into two types, chest breathing and abdominal breathing.

Chest breathing refers to the assistance of the diaphragm and the respiratory muscles above the diaphragm, and the intercostal muscles and the active inspiration action can maintain good chest breathing.

Abdominal breathing is assisted by the respiratory muscles below the diaphragm, which are mainly the movement of the diaphragm. Has effects in strengthening lung, reducing lung infection, increasing vital capacity, and improving cardiac function.

Most of the existing lung function rehabilitation training devices do not have corresponding devices for chest breathing and abdominal breathing and cannot be adjusted according to the specific conditions of users.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, an object of the present invention is to provide a pulmonary function rehabilitation training device for a respiratory department.

The utility model realizes the purpose through the following technical scheme:

the utility model provides a department of respiration is with recovered trainer of pulmonary function, includes chest restraint device, abdominal cavity restraint device and pressure feeding device, the chest restraint device is fixed to be twined in user's chest position and provides the binding force to user's chest, the abdominal cavity restraint device is fixed to be twined in user's abdominal cavity position and provides the binding force to user's abdominal cavity, the pressure feeding end of pressure feeding device respectively with the chest restraint device with the pressure input end of abdominal cavity restraint device is connected.

Specifically, the thoracic cavity binding device comprises a thoracic cavity binding belt, a thoracic cavity air bag and a thoracic cavity belt assembly, wherein at least one thoracic cavity air bag is fixedly arranged on the inner side surface of the thoracic cavity binding belt, two ends of the thoracic cavity binding belt are detachably connected through the thoracic cavity belt assembly, and a pressure supply end of the pressure supply device is fixedly connected with the outer side surface of the thoracic cavity binding belt and is communicated with the interior of the thoracic cavity air bag.

Specifically, the abdominal cavity constraint device comprises an abdominal cavity constraint belt, an abdominal cavity air bag and an abdominal cavity belt assembly, wherein at least one abdominal cavity air bag is fixedly arranged on the inner side surface of the abdominal cavity constraint belt, two ends of the abdominal cavity constraint belt are detachably connected through the abdominal cavity belt assembly, and a pressure supply end of the pressure supply device is fixedly connected with the outer side surface of the abdominal cavity constraint belt and is communicated with the inside of the abdominal cavity air bag.

Preferably, the chest strap assembly/abdominal strap assembly is a hook and loop assembly, a hook and loop assembly or a strap.

Specifically, the pressure supply device comprises a plurality of air pressure sensors, an air pressure pump, an electromagnetic valve and a pressure release valve, the air pressure sensors are respectively and fixedly arranged in the thoracic cavity air bag and the abdominal cavity air bag, the compressed air output end of the pneumatic pump is communicated with the thoracic cavity air bag and the abdominal cavity air bag through a plurality of air pipes, the decompression valves are communicated with the thoracic cavity air bag and the abdominal cavity air bag respectively, the electromagnetic valves are arranged on a plurality of air pipe passages respectively and are arranged at a certain position in the thoracic cavity air bag/the abdominal cavity air bag, the signal output end of the pneumatic sensor is electrically connected with the signal input end of the electromagnetic valve on the air pipe, and the signal output end of the pneumatic sensor is electrically connected with the signal input end of the pneumatic pump.

Preferably, the air inlet end of the air pipe is fixed and communicated with the compressed air output end of the pneumatic pump, and the air outlet end of the air pipe is fixedly connected with the outer side surface of the chest cavity constraint belt/the abdominal cavity constraint belt and is communicated with the interior of the chest cavity air bag/the abdominal cavity air bag through the chest cavity constraint belt/the abdominal cavity constraint belt.

Specifically, the pressure relief valve is fixedly arranged on the outer side surface of the chest cavity constraint belt/the abdominal cavity constraint belt.

Furthermore, the training device still includes the connecting band, and a plurality of the connecting band sets up the thorax constraint area with between the abdominal cavity constraint area, the upper end of connecting band with thorax constraint area fixed connection, the lower extreme of connecting band with abdominal cavity constraint area fixed connection.

Still further, the training device also comprises two shoulder belts, wherein the two shoulder belts are positioned at the shoulders of the user and are fixedly connected with the upper end of the chest binding belt.

Preferably, the length of the connecting band and the shoulder strap are adjustable.

The utility model has the beneficial effects that:

according to the utility model, the chest cavity constraint device and the abdominal cavity constraint device are arranged and are respectively fixed on the chest and the abdomen of a user, so that the user can take good exercise no matter the user adopts chest breathing or abdominal breathing.

Drawings

Fig. 1 is a schematic structural diagram of a lung function rehabilitation training device for department of respiration, according to the present invention;

fig. 2 is a plan view of a lung function rehabilitation training device for respiratory department according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiment is only one embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the objects, technical solutions and advantages of the present application more clear, the present invention is further described below with reference to fig. 1 and 2:

the utility model provides a department of respiration is with recovered trainer of pulmonary function, includes chest restraint device, abdominal cavity restraint device and pressure feeding device, and the chest restraint device is fixed to be twined in user's chest position and provides the constraint power to user's chest, and the abdominal cavity restraint device is fixed to be twined in user's abdominal cavity position and provides the constraint power to user's abdominal cavity, and the pressure feeding end of pressure feeding device is connected with the pressure input end of chest restraint device and abdominal cavity restraint device respectively.

The mode of breathing at present stage has two kinds, and chest formula is breathed and abdominal type is breathed promptly, and this embodiment produces the constraint power through chest constraint device to user's thorax, produces the constraint power through abdominal cavity constraint device to user's abdominal cavity for no matter the user adopts chest formula to breathe or abdominal type to breathe homoenergetic and play the control of taking exercise to the muscle that corresponds, thereby can carry out the rehabilitation training of pulmonary function.

Most rehabilitation training devices can only carry out the training in a single breathing mode at the present stage, and the situation that the user originally adopts chest type breathing and avoids the training in a mode of abdominal type breathing instead of the chest type breathing due to the limitation on the chest type breathing can occur, so that the training effect is poor.

The thorax constraint device includes thorax constraint area 1, thorax gasbag 3 and thorax area subassembly, and at least one thorax gasbag 3 is fixed to be set up at the medial surface of thorax constraint area 1, and the connection can be dismantled through thorax area subassembly in the both ends of thorax constraint area 1, and pressure feed end and the lateral surface fixed connection of thorax constraint area 1 of pressure feed device, and with 3 inside intercommunications of thorax gasbag.

Before using, through tying up chest constraint area 1 in user's chest position to place thorax gasbag 3 in user's chest, then through taut thorax area subassembly for thorax gasbag 3 provides certain prestressing force to user's chest, avoids appearing the condition that drops.

When chest type respiration is carried out, because the internal volume of the chest cavity needs to be enlarged when inspiration is carried out, the chest cavity needs to be enlarged, but because the chest has the chest air bag 3 to provide pressure, the pressure of the chest air bag 3 and the chest muscle are confronted, and the purpose of exercising the chest muscle is realized.

The abdominal cavity constraint device comprises an abdominal cavity constraint belt 2, an abdominal cavity air bag 4 and an abdominal cavity belt assembly, wherein the at least one abdominal cavity air bag 4 is fixedly arranged on the inner side surface of the abdominal cavity constraint belt 2, the two ends of the abdominal cavity constraint belt 2 are detachably connected through the abdominal cavity belt assembly, and the pressure supply end of the pressure supply device is fixedly connected with the outer side surface of the abdominal cavity constraint belt 2 and is communicated with the inside of the abdominal cavity air bag 4.

When carrying out abdominal type breathing, because need enlarge abdominal cavity internal volume when breathing in, consequently need expand the abdominal cavity, but because the belly has abdominal cavity gasbag 4 to provide pressure to it competes to make between the pressure of abdominal cavity gasbag 4 and the abdominal cavity muscle, thereby has realized taking exercise's purpose to the abdominal cavity muscle.

The thoracic belt assembly/abdominal belt assembly is a magic tape assembly, a hanging buckle and hook assembly or a bandage. Can be in various structures, and only the chest cavity constraint belt 1 and the abdominal cavity constraint belt 2 are required to be in a connectable and separable structure.

The pressure supply device comprises an air pressure sensor 7, an air pressure pump 10, an electromagnetic valve and a pressure relief valve 9, air in the air bag can be supplied by arranging the air pressure pump 10, and the pressure relief valve 9 can avoid the phenomenon that the chest cavity or the abdominal cavity is greatly oppressed due to overlarge air pressure in the air bag, so that the condition that the user cannot breathe or is difficult to breathe is avoided.

A plurality of baroceptors 7 are fixed respectively and are set up in thorax gasbag 3 and abdominal cavity gasbag 4, through set up the sensor in thorax gasbag 3 and abdominal cavity gasbag 4, can detect the implementation atmospheric pressure in the gasbag, when atmospheric pressure is low excessively, the gasbag can't produce the opposition to thorax muscle and abdominal cavity muscle this moment, consequently need pneumatic pump 10's compressed air output to communicate through many trachea and thorax gasbag 3 and abdominal cavity gasbag 4, and with compressed air input to the gasbag in, thereby realize the purpose of increasing pressure.

A plurality of relief valves 9 communicate with the inside of thorax gasbag 3 and abdominal cavity gasbag 4 respectively, through being connected relief valve 9 with the gasbag, and can preset relief pressure of relief valve 9, when the user breathes, consequently thorax or abdominal cavity's increase and lead to thorax gasbag 3 and abdominal cavity gasbag 4 to be oppressed, when the inside pressure value at thorax gasbag 3 and abdominal cavity gasbag 4 surpassed relief pressure, relief valve 9 pressure release, reduce thorax gasbag 3 and abdominal cavity gasbag 4's pressure, thereby avoid leading to unable problem of breathing because thorax muscle and abdominal cavity muscle can't be to the pressure of anti thorax gasbag 3 and abdominal cavity gasbag 4.

The plurality of electromagnetic valves are respectively arranged on the plurality of trachea passages and are used for being matched with the air pressure sensor 7, when the air pressure sensor 7 detects that the air pressure in the corresponding air bag is too low, the electromagnetic valves can be opened, and the thoracic cavity air bag 3 or the abdominal cavity air bag 4 is inflated by the air pressure pump 10 to increase the air pressure. When the air in the corresponding air bag is pressed in time, the electromagnetic valve is closed, so that the excessive air is prevented from being filled into the air bag and causing excessive pressure on a user.

The signal output end of the air pressure sensor 7 arranged in one thoracic cavity air bag 3/abdominal cavity air bag 4 is electrically connected with the signal input end of the electromagnetic valve on the trachea communicated with the thoracic cavity air bag 3/abdominal cavity air bag 4, and the connecting structure can use the functions.

The signal output ends of the plurality of air pressure sensors 7 are electrically connected with the signal input end of the air pressure pump 10, and when all the air pressure sensors 7 detect that the air pressure meets the requirement, the air pressure pump 10 can be controlled to stop, so that the energy consumption is reduced.

The air inlet end of the air pipe is fixed and communicated with the compressed air output end of the air pressure pump 10, the air outlet end of the air pipe is fixedly connected with the outer side surface of the thoracic cavity binding belt 1/the abdominal cavity binding belt 2 and is communicated with the thoracic cavity air bag 3/the abdominal cavity air bag 4 through the thoracic cavity binding belt 1/the abdominal cavity binding belt 2.

The pressure release valve 9 is fixedly arranged on the outer side surface of the thoracic cavity binding belt 1/abdominal cavity binding belt 2.

The trachea and the pressure release valve 9 are both arranged on the outer side surface of the thoracic cavity binding belt 1/abdominal cavity binding belt 2, and can be stably fixed and can not be directly contacted with the body of a user. And the pneumatic pump 10 may be disposed at one side without being connected to the chest or abdominal binding 1 or 2.

In order to restrict device and abdominal cavity constraint device in the thorax, avoid it to appear separating and cause the problem of not taking in well, connect a plurality of connecting bands 5 between thorax constraint device and abdominal cavity constraint device, a plurality of connecting bands 5 set up between thorax constraint area 1 and abdominal cavity constraint area 2, the upper end and the thorax constraint area 1 fixed connection of connecting band 5, the lower extreme and the abdominal cavity constraint area 2 fixed connection of connecting band 5. The length of the connecting band 5 can be adjusted.

According to the body shape of the user, the length of the connecting belt 5 is adjusted, so that the perfect fixation of the thoracic cavity and the abdominal cavity can be realized, and the situation of slipping can be avoided.

Because the thorax of a general user is a structure with a big top and a small bottom, and the interference of arms is easy to cause the situation of sliding down, two shoulder belts 6 are arranged on the thorax restraint device, and the two shoulder belts 6 are positioned at the shoulders of the user and are fixedly connected with the upper end of the thorax restraint belt 1. The length of the shoulder straps 6 is adjustable.

By providing the shoulder straps 6 with an upward pulling force on the chest restraint device, a situation of slipping down is avoided.

In the following description, references to "one embodiment," "an embodiment," "one example," "an example," etc., indicate that the embodiment or example so described may include a particular feature, structure, characteristic, property, element, or limitation, but every embodiment or example does not necessarily include the particular feature, structure, characteristic, property, element, or limitation. Moreover, repeated use of the phrase "in accordance with an embodiment of the present application" although it may possibly refer to the same embodiment, does not necessarily refer to the same embodiment.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a department of respiration is with recovered trainer of pulmonary function which characterized in that: the thoracic cavity binding device is fixedly wound at the thoracic cavity position of a user and provides binding force for the thoracic cavity of the user, the abdominal cavity binding device is fixedly wound at the abdominal cavity position of the user and provides binding force for the abdominal cavity of the user, and the pressure supply end of the pressure supply device is respectively connected with the pressure input ends of the thoracic cavity binding device and the abdominal cavity binding device.

2. The lung function rehabilitation training device for respiratory department according to claim 1, characterized in that: the thoracic cavity binding device comprises a thoracic cavity binding belt, a thoracic cavity air bag and a thoracic cavity belt assembly, wherein at least one thoracic cavity air bag is fixedly arranged on the inner side surface of the thoracic cavity binding belt, two ends of the thoracic cavity binding belt are detachably connected through the thoracic cavity belt assembly, and a pressure supply end of the pressure supply device is fixedly connected with the outer side surface of the thoracic cavity binding belt and is communicated with the interior of the thoracic cavity air bag.

3. The lung function rehabilitation training device for respiratory department according to claim 2, characterized in that: the abdominal cavity constraint device comprises an abdominal cavity constraint belt, abdominal cavity air bags and an abdominal cavity belt assembly, wherein at least one abdominal cavity air bag is fixedly arranged on the inner side surface of the abdominal cavity constraint belt, two ends of the abdominal cavity constraint belt are detachably connected through the abdominal cavity belt assembly, and a pressure supply end of the pressure supply device is fixedly connected with the outer side surface of the abdominal cavity constraint belt and is communicated with the inside of the abdominal cavity air bag.

4. The lung function rehabilitation training device for respiratory department according to claim 3, characterized in that: the chest belt assembly/abdominal belt assembly is a magic tape assembly, a hanging buckle and hook assembly or a bandage.

5. The lung function rehabilitation training device for respiratory department according to claim 3, characterized in that: the pressure supply device comprises an air pressure sensor, an air pressure pump, an electromagnetic valve and a pressure release valve, wherein the air pressure sensor is fixedly arranged in the thoracic cavity air bag and the abdominal cavity air bag respectively, a compressed air output end of the air pressure pump is communicated with the thoracic cavity air bag and the abdominal cavity air bag through a plurality of air pipes, the pressure release valve is communicated with the thoracic cavity air bag and the abdominal cavity air bag respectively, the electromagnetic valve is arranged on a plurality of air pipe channels respectively, a signal output end of the air pressure sensor in the thoracic cavity air bag/the abdominal cavity air bag is communicated with a signal input end of the electromagnetic valve on the air pipe, and the signal output end of the air pressure sensor is electrically connected with the signal input end of the air pressure pump.

6. The lung function rehabilitation training device for respiratory department according to claim 5, characterized in that: the air inlet end of the air pipe is fixed and communicated with the compressed air output end of the air pressure pump, and the air outlet end of the air pipe is fixedly connected with the outer side surface of the chest cavity binding belt/the abdominal cavity binding belt and is communicated with the insides of the chest cavity air bag/the abdominal cavity air bag after penetrating through the chest cavity binding belt/the abdominal cavity binding belt.

7. The lung function rehabilitation training device for respiratory department according to claim 6, characterized in that: the pressure release valve is fixedly arranged on the outer side surface of the chest cavity constraint belt/the abdominal cavity constraint belt.

8. The lung function rehabilitation training device for respiratory department according to claim 3, characterized in that: still include the connecting band, a plurality of the connecting band sets up the thorax constraint area with between the abdominal cavity constraint area, the upper end of connecting band with thorax constraint area fixed connection, the lower extreme of connecting band with abdominal cavity constraint area fixed connection.

9. The lung function rehabilitation training device for respiratory department according to claim 8, characterized in that: the chest binding belt further comprises two shoulder belts, wherein the two shoulder belts are positioned at the shoulders of a user and fixedly connected with the upper end of the chest binding belt.

10. The lung function rehabilitation training device for respiratory department according to claim 9, characterized in that: the length of the connecting band and the shoulder strap can be adjusted.

Images