CN220478020U - Respiratory pressure load type anti-resistance training device - Google Patents

Abstract

The utility model relates to the technical field of lung training, in particular to a respiratory pressure load type anti-resistance training device. The breathing training device comprises a breathing training device body, a breathing weight, an air duct and a breathing mouthpiece, wherein the breathing training device body comprises a breathing tube body, a breathing tube cover and a breathing tube base, a breathing chamber is formed in the breathing tube body, the breathing weight is placed in the breathing chamber, scales are arranged on the surface of the breathing tube body, the top of the breathing tube body is connected with the breathing tube cover, the bottom of the breathing tube body is connected with the breathing tube base, the breathing tube cover is provided with air holes, the breathing tube base is provided with an air flow pipeline, one end of the air flow pipeline is communicated with the breathing chamber, the other end of the air flow pipeline is connected with one end of the air duct, and the other end of the air duct is connected with the breathing mouthpiece. The weight of the breathing weight and the air flow resistance are utilized to adjust the breathing of a user, so as to achieve the purposes of strengthening the muscle strength of the lung and increasing the control and capacity of the lung; by adding the quantization scales, the defect that the original device cannot be quantitatively evaluated and cannot be used for inspiration training is overcome.

Description

Respiratory pressure load type anti-resistance training device

Technical Field

The utility model relates to the technical field of lung training, in particular to a respiratory pressure load type anti-resistance training device.

Background

The lung capacity is the maximum ventilation of a breath, in a sense that reflects the potential ability of the breathing function. Compared with the normal value, the vital capacity detection value is low, which means that the oxygen uptake capacity and the exhaust capacity of the organism are poor, the oxygen supply in the human body is insufficient, and some works of the organism cannot be normal. Exercising the user's lungs may increase the user's respiratory ability. As with swimming and marathons, training may improve oxygen intake and cardiovascular system.

Respiratory pressure threshold load type anti-resistance training is respiratory activity that a trainee needs to generate enough respiratory pressure before breathing. Research shows that the training instrument can improve respiratory muscle strength of healthy adults and patients with chronic obstructive pulmonary disease and multiple sclerosis and improve whole-body endurance athletic performance of the healthy adults and patients with chronic obstructive pulmonary disease and multiple sclerosis.

One patent according to U.S. patent publication No. 10722748B1 discloses a method and apparatus for training muscles of the lungs, diaphragm and surrounding area comprising at least one weight, a hollow cylinder having a bottom and a top, wherein the weight is positioned within the hollow cylinder, and a tube, wherein the distal end of the tube is connected to the bottom of the hollow cylinder, and the user exhales toward the proximal end of the tube. When the air exhaled from the user's lungs flows into the hollow cylinder through the tube, pressure is applied to the weight. When the user increases the amount of air that is drawn into the tube, the force applied to the weight will increase. When the air force in the cylinder exceeds the weight of the balancing weight, the balancing weight moves along the radial direction of the cylinder.

According to the technical scheme of the U.S. patent, the effect of adjusting the training difficulty is achieved by adjusting the weight of the balancing weight, but the expiratory pressure of a user cannot be quantitatively evaluated, and on the other hand, the technical scheme only aims at expiratory muscle strength training and does not achieve training on the inspiratory muscle strength.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides a respiratory pressure load type anti-resistance training device, which aims to strengthen the strength of lung muscles and increase the control and capacity of the lung.

The utility model provides a respiratory pressure load type anti-resistance training device which comprises a respiratory training device, a respiratory weight, an air duct and a respiratory mouthpiece, wherein the respiratory training device comprises a respiratory tube body, a respiratory cover and a respiratory tube base, a respiratory chamber is arranged in the respiratory tube body, the respiratory weight is placed in the respiratory chamber, scales are arranged on the surface of the respiratory tube body, the top of the respiratory tube body is connected with the respiratory cover, the bottom of the respiratory tube body is connected with the respiratory tube base, the respiratory cover is provided with an air hole, the respiratory tube base is provided with an air flow pipeline, one end of the air flow pipeline is communicated with the respiratory chamber, the other end of the air flow pipeline is connected with one end of the air duct, and the other end of the air duct is connected with the respiratory mouthpiece.

As a further improvement of the utility model, the respiratory pressure loading type resistance training device comprises a cover sealing gasket, wherein the cover sealing gasket is connected with the respirator cover, and the cover sealing gasket is connected with the respirator cylinder body in a sealing way.

As a further improvement of the utility model, the respiratory pressure load type anti-resistance training device comprises a base sealing gasket, wherein the base sealing gasket is connected to the respirator base, and the base sealing gasket is in sealing connection with the respirator cylinder.

As a further improvement of the utility model, the respirator cylinder comprises an outer cylindrical surface and an inner cylindrical surface, the breathing chamber is composed of the inner cylindrical surface, a respirator cover and a respirator base, and an air gap is reserved between the breathing weight and the inner cylindrical surface.

As a further improvement of the utility model, the respiratory pressure load type anti-resistance training device further comprises a connector, one end of the connector is connected with the airflow pipeline in a threaded mode, and the other end of the connector is connected with the air duct.

As a further improvement of the utility model, the respirator cartridge is a transparent cartridge.

As a further improvement of the utility model, the respiratory pressure load type anti-drag training device further comprises a storage base, the respiratory training device is fixed on the storage base, and the respiratory weight is placed on the storage base.

As a further improvement of the utility model, the respiratory mouthpiece is a single-aperture structure or a structure with a plurality of small holes.

As a further development of the utility model, the respiratory pressure loading type resistance training device further comprises a timer for recording the suspension time of the respiratory weight.

As a further improvement of the utility model, the respiratory pressure load type anti-resistance training device also comprises a display screen for tracking the vital capacity, the training times and the training time of the user, wherein the display screen is arranged on the respirator base or the storage base and is connected with the air pressure lead, the trigger or the sensor in the breathing weight or the cavity.

The beneficial effects of the utility model are as follows: the user exhales and inhales through the breathing mouthpiece, and the breathing of the user is regulated by the weight of the breathing weight and the airflow resistance, so that the purposes of strengthening the muscle strength of the lung and increasing the control and capacity of the lung are achieved; by additionally arranging the quantization scales on the respirator cylinder, the defect that the original device cannot be quantitatively evaluated and cannot be used for inspiration training is overcome.

Drawings

FIG. 1 is a cross-sectional view of the respiratory trainer of the present utility model;

FIG. 2 is a cross-sectional view of the respiratory pressure loading type resistance training device during exhalation training according to the present utility model;

FIG. 3 is a cross-sectional view of the respiratory pressure loading type resistance training device during inspiration training in accordance with the present utility model;

fig. 4 is a block diagram of a respiratory pressure load type resistance training device including a storage base according to the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

As shown in fig. 1 to 3, the respiratory pressure load type anti-resistance training device comprises a respiratory training device 1, a respiratory weight 2, an air duct 3 and a respiratory mouthpiece 4, wherein the respiratory training device 1 comprises a respiratory tube body 5, a respiratory cover 6 and a respiratory base 7, a respiratory chamber is arranged in the respiratory tube body 5, the respiratory weight 2 is placed in the respiratory chamber, scales 51 are arranged on the surface of the respiratory tube body 5, the top of the respiratory tube body 5 is connected with the respiratory cover 6, the bottom of the respiratory tube body 5 is connected with the respiratory base 7, the respiratory cover 6 is provided with an air hole 61, the respiratory base 7 is provided with an air flow pipeline 71, one end of the air flow pipeline 71 is communicated with the respiratory chamber, the other end of the air flow pipeline 71 is connected with one end of the air duct 3, and the other end of the air duct 3 is connected with the respiratory mouthpiece 4.

One side of the respiration training device 1 is provided with an air duct 3, the air duct 3 is connected with a respiration mouthpiece 4 so that a user can blow or inhale, a scale 51 is arranged outside the respiration training device 1 and used for describing the respiration pressure threshold value of the user, and one or more respiration weights 2 can be placed in a respiration chamber. When in use, a user can perform ladder resistance training by combining the body health condition of the user, thereby achieving the purposes of strengthening the strength of the muscle strength of the lung and increasing the control force and capacity of the lung.

The respirator bowl 5 is a hollow cylinder with a bottom and a top, the length of the respirator bowl 5 is preferably 150-200mm, the length of the respirator bowl 5 being related to the number and weight of the breathing weights 2. The breathing weight 2 preferably has a thickness of 20-40mm and a number of 3-6.

The respiratory pressure loading type anti-resistance training device comprises a cover sealing gasket 62, wherein the cover sealing gasket 62 is connected to the respirator cover 6, and the cover sealing gasket 62 is in sealing connection with the respirator cylinder 5. The cover gasket 62 is preferably a silicone pad for sealing the junction of the respirator cover 6 and the interior wall of the respirator bowl 5 to prevent leakage of gas from the junction and concentrate gas into and out of the gas holes 61 of the respirator cover 6.

The respiratory pressure load type anti-resistance training device comprises a base sealing pad 72, wherein the base sealing pad 72 is connected to a respirator base 7, and the base sealing pad 72 is in sealing connection with the respirator cylinder 5. The base gasket 72 is preferably a silicone pad for sealing the junction of the respirator base 7 and the interior wall of the respirator bowl 5 to prevent leakage of gas from the junction and to concentrate gas into and out of the gas flow conduit 71 of the respirator base 7.

The respiratory pressure load type anti-resistance training device further comprises a pagoda-shaped connector 8, one end of the pagoda-shaped connector 8 is in threaded connection with the air flow pipeline 71, and the other end of the pagoda-shaped connector 8 is connected with the air duct 3. The pagoda type connector 8 is preferably a stainless steel or PP material straight joint.

The respirator bowl 5 is a hollow cylinder in which the breathing weight 2 is inserted through an opening in the top of the respirator bowl 5. The top of the respirator bowl 5 is provided with a respirator cover 6, the respirator cover 6 being provided with air holes 61. The bottom of the respirator cylinder 5 is closed, an L-shaped airflow pipeline 71 is arranged on the respirator base 7 below the closed bottom of the respirator cylinder 5, and one end of the L-shaped airflow pipeline 71 is contacted with a silica gel pad of the circular base so as to support the breathing weight 2; the other end of the L-shaped air flow pipe 71 is provided with a screw thread and is connected to one end of the pagoda-type connector 8. The other end of the pagoda connector 8 is connected with the air duct 3, and the other end of the air duct 3 is connected with the respiratory mouthpiece 4.

The breather cylinder 5 comprises an outer cylindrical surface and an inner cylindrical surface, the breather chamber is composed of the inner cylindrical surface, a breather cover 6 and a breather base 7, and an air gap is reserved between the breathing weight 2 and the inner cylindrical surface. The respirator cylinder 5 may be cylindrical in shape, and its cylindrical structure includes an outer cylindrical surface and an inner cylindrical surface. The diameter of the breathing weight 2 is smaller than the inner diameter of the inner cylindrical surface, and the distance between the diameter of the breathing weight 2 and the inner cylindrical surface is defined as the air gap. The force required by the user to exhale is related to the size of the air gap, the larger the air gap is, the larger the user's required exhale force is, but the air gap should not be too large, if the air gap exceeds a certain value, the maximum air force generated by the user will be insufficient to move the breathing weight 2.

The respirator cartridge 5 is a transparent cartridge. The respirator cartridge 5 is preferably made of plastic or acrylic (plexiglas), preferably the material is transparent so that the user can see the interior cavity of the respirator cartridge 5. The respirator base 7 and the respirator cover 6 may be made of plastic or stainless steel. The breathing weight 2 is preferably made of a non-oxidizing material, such as copper or stainless steel. However, any material may be used for the breathing weight 2 in the present utility model.

As shown in fig. 4, the respiratory pressure load type resistance training device further comprises a storage base 9, the respiratory training device 1 is fixed on the storage base 9, and the respiratory weight 2 is placed on the storage base 9. The storage base is used for fixing the breathing training device 1 and placing the breathing weight 2, so that unified storage of parts is facilitated, the breathing weight 2 is placed conveniently, the breathing training device 1 is directly placed when the breathing weight 2 needs to be increased, and the breathing weight 2 needs to be reduced, and the breathing weight is only required to be taken out of the breathing training device 1 and placed on the storage base 9.

The respiratory mouthpiece 4 is a single aperture structure or a structure with a plurality of small holes. According to the expiration and inspiration modes required to be trained, the breathing mouthpiece 4 with a common single-aperture structure can be selected as a mouthpiece for training, and the breathing mouthpiece 4 with a plurality of small holes can be used for controlling and training the air flow of the air blowing of the wind instrument.

The respiratory pressure load type anti-resistance training device can be further added with a timer for recording the suspension time of the respiratory weight 2, so that the vital capacity of a user is measured.

The respiratory pressure load type anti-resistance training device also comprises a display screen, which is used for tracking the vital capacity, the training times and the training time of the user who exercises by using the lung instrument training device. The display screen may be mounted on the ventilator base 7 or the receiving base 9 and may optionally be connected to leads, triggers or sensors of the training session, the breathing weight 2 or the air pressure in the cavity.

When the respiratory pressure load type anti-resistance training device is used, the process is as follows:

as shown in fig. 2, when performing the expiratory training, the user places the device in the forward direction, and the air exhaled from the lungs of the user enters the respiratory mouthpiece 4 and enters the airflow conduit 71 through the airway 3. Air flows from the air flow conduit 71 into the breather cartridge 5 and fills the interior cavity of the breather cartridge 5, thereby exerting a positive pressure on the breathing weight 2. When the user increases the air to the mouthpiece, the positive force exerted on the breathing weight 2 increases and when the positive pressure air force acting on the breathing weight 2 exceeds the weight of the breathing weight 2, the breathing weight 2 moves along the length of the respirator bowl 5. When the positive pressure air force in the breather cylinder 5 is equal to the weight of the breathing weight 2, the breathing weight 2 is suspended in the cylinder cavity.

As shown in FIG. 3, when performing inhalation training, the user places the device in reverse, and inhales toward the respiratory mouthpiece 4, and the air pressure in the interior chamber of the respirator cartridge 5 decreases. Air flows from the air hole 61 of the respirator cover 6 into the interior cavity of the respirator bowl 5, thereby exerting negative pressure on the breathing weight 2. When the user increases the inhaled air, the negative pressure applied to the breathing weight 2 increases and when the negative pressure air force acting on the breathing weight 2 exceeds the weight of the breathing weight 2, the breathing weight 2 moves along the length of the respirator bowl 5. When the negative pressure air force in the breather cylinder 5 is equal to the weight of the breathing weight 2, the breathing weight 2 can suspend in the inner cavity of the breather cylinder 5.

The object of the utility model is to train the lungs of a user to increase the lung capacity by overcoming a certain weight of the breathing weight 2 and the resistance to the flow of air, i.e. generating a certain breathing pressure, the flow of breathing air preferably being suspended in a cylinder.

The user can perform the following training by using the respiratory pressure load type resistance training device.

1. And (5) training resistance to expiration.

For the first use, in particular for users with a relatively small lung capacity, a breathing weight 2 is used as a basis for training and the breathing weight 2 is suspended at a low height. Comprises the following substeps: the respirator cover 6 is unscrewed and the corresponding breathing weight 2 is put in, and then the respirator cover 6 is unscrewed for exhalation training. During the exhalation training of the present utility model, the user continuously blows air into the respiratory mouthpiece 4 and generates sufficient positive air force to overcome the weight of the respiratory weight 2, such that the respiratory weight 2 moves along the length of the cylinder and floats within the interior chamber of the respirator bowl 5. After the user uses the breathing weights 2 for a period of time, the second and third pieces can be added for step training.

2. And (5) training the resistance of inspiration.

When the user performs inspiration resistance training, the method comprises the following substeps: the respiration training device 1 is reversely placed, the respiration training cover is unscrewed, the corresponding respiration weight 2 is placed, and then the respiration training cover is unscrewed to perform respiration training. During the inhalation training of the present utility model, the user continuously inhales air into the respiratory mouthpiece 4 and generates sufficient negative pressure air force to overcome the weight of the respiratory weight 2, such that the respiratory weight 2 moves along the length of the respirator bowl 5 and is suspended within the interior chamber of the respirator bowl 5. After the user uses the breathing weights 2 for a period of time, the second and third pieces can be added for step training.

According to the respiratory pressure load type anti-resistance training device, a user can set training courses according to the training method, and a solution with variable respiratory pressure threshold is provided for improving the vital capacity, strength and air control of the user. Meanwhile, the detachable structural design can be used for cleaning, disinfecting and replacing more conveniently.

The respiratory pressure load type anti-resistance training device has the following beneficial effects:

1) By increasing the respiratory pressure scale 51, a respiratory pressure threshold of the user can be obtained, and the user can be assisted in customizing more scientific personalized training courses.

2) The inspiration training function is added, the inspiration is an active process under normal conditions, and most of people mainly have weakened inspiration muscle strength, so that most of current respiratory muscle training designs mainly adopt inspiration muscle strength training.

3) The device can also measure the duration time of inspiration and expiration by combining a stopwatch and a timer, and synthesize the pressure and duration time of inspiration and expiration into a score, so as to objectively evaluate the myodynamia and endurance of respiratory muscles and meet clinical requirements. The user can train by oneself and evaluate simultaneously, is convenient for know training effect through the contrast, reduces medical consumption.

The present utility model uses the weight and airflow resistance of the breathing weight 2 to regulate the user's breathing, and various users can benefit from using the breathing pressure loading type resistance training device. For example, athletes, such as swimmers and long-distance runners, use the present respiratory pressure loading type anti-drag training device to increase their lung capacity, strength and control to cope with heavy sports. The utility model can also be used in the medical health industry, and cancer and other medical patients use the respiratory pressure load type anti-resistance training device for respiratory rehabilitation. The respiratory pressure loading type resistance training device can provide support in a plurality of fields, including but not limited to sports, music and other fields.

The foregoing is a further detailed description of the utility model in connection with the preferred embodiments, and it is not intended that the utility model be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims (10)

1. The utility model provides a breathe pressure load type anti-resistance trainer, its characterized in that, including breathing training ware, breathing weight, air duct, breathing mouthpiece, breathing training ware includes respirator barrel, respirator lid, respirator base, the inside breather chamber that is equipped with of respirator barrel, the breathing weight is placed in the breather chamber, the respirator barrel surface is equipped with the scale, the respirator lid is connected at the top of respirator barrel, the respirator base is connected to the bottom of respirator barrel, the respirator lid is equipped with the gas pocket, the respirator base is equipped with the air current pipeline, the one end intercommunication breather chamber of air current pipeline, the one end of air duct is connected to the other end of air duct, the breathing mouthpiece is connected to the other end of air duct.

2. The respiratory pressure loading type resistance exercise apparatus according to claim 1, comprising a cap seal attached to the respirator cap, the cap seal being sealingly attached to the respirator bowl.

3. The respiratory pressure loading type resistance training device according to claim 1, comprising a base gasket, wherein the base gasket is connected to the respirator base, and wherein the base gasket is in sealing connection with the respirator cartridge.

4. The respiratory pressure loading type anti-resistance training device according to claim 1, wherein the respirator cylinder comprises an outer cylindrical surface and an inner cylindrical surface, the respiratory chamber is composed of the inner cylindrical surface, the respirator cover and the respirator base, and an air gap is reserved between the respiratory weight and the inner cylindrical surface.

5. The respiratory pressure loading type resistance training device according to claim 1, further comprising a connector, wherein one end of the connector is in threaded connection with the airflow pipe, and the other end of the connector is connected with the airway.

6. The respiratory pressure loading type resistance training device according to claim 1, wherein the respirator cartridge is a transparent cartridge.

7. The respiratory pressure loading type resistance training device according to claim 1, further comprising a storage base, wherein the respiratory trainer is fixed on the storage base, and wherein the respiratory weight is placed on the storage base.

8. The respiratory pressure loading type anti-resistance training device according to claim 1, wherein the respiratory mouthpiece is a single aperture structure or a structure with a plurality of small holes.

9. The respiratory pressure loading type resistance training device according to claim 1, further comprising a timer for recording a respiratory weight suspension time.

10. The respiratory pressure loading type anti-resistance training device according to claim 1, further comprising a display screen for tracking the vital capacity, the training times and the training time of the user exercise, wherein the display screen is mounted on the respirator base or the storage base, and is connected with an air pressure lead, a trigger or a sensor in the breathing weight or the cavity.