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CN-122006213-A - Respiration training device

CN122006213ACN 122006213 ACN122006213 ACN 122006213ACN-122006213-A

Abstract

The invention relates to a respiration training device, which comprises a training device body and a controller, wherein the training device body is in a hollow columnar structure, an air suction cavity and an air exhaust cavity are independently arranged in the training device body, an air suction pressure sensor is arranged in the air suction cavity, an air exhaust pressure sensor is arranged in the air exhaust cavity, a sound generating mechanism is arranged on the training device body, the air suction pressure sensor, the air exhaust pressure sensor and the sound generating mechanism are respectively and electrically connected with the controller, the air suction pressure sensor is used for collecting air suction pressure signals in the air suction cavity and sending the air suction pressure signals to the controller, the air exhaust pressure sensor is used for collecting air exhaust pressure signals in the air exhaust cavity and sending the air exhaust pressure signals to the controller, and the controller controls the sound generating mechanism to send sound signals with different frequencies according to the air suction pressure signals and the air exhaust pressure signals. Through setting up pressure sensor and sounding mechanism, can utilize sounding mechanism to send the sound signal of different frequency according to exhaling and inhaling pressure, the exhaling that can audio-visual experience breathe training process breathes the pressure variation of inhaling.

Inventors

  • LI SONGBO
  • LU YU
  • GONG LIJING

Assignees

  • 北京体育大学

Dates

Publication Date
20260512
Application Date
20251230

Claims (12)

  1. 1. The utility model provides a breathe trainer, its characterized in that, including being cavity columnar structure's training ware body and controller, this internal breathing chamber and the expiration chamber that independently use of having of training ware, be equipped with the pressure sensor that breathes in the chamber, be equipped with the pressure sensor that breathes in the expiration intracavity, be equipped with sound production mechanism on the training ware body, pressure sensor and sound production mechanism respectively with the controller electricity is connected, pressure sensor is used for gathering the pressure signal that breathes in the chamber and send to the controller, pressure sensor that breathes in is used for gathering the pressure signal that breathes in and send to the controller, the controller is according to pressure signal that breathes in and exhales pressure signal control sound production mechanism sends the sound signal of different frequencies.
  2. 2. The respiratory training device of claim 1, wherein the controller controls the sound emitting mechanism to emit a first sound signal when the inspiratory pressure signal is greater than a first pressure set range, and wherein the frequency at which the sound emitting mechanism emits the first sound signal gradually decreases as the inspiratory pressure signal increases; when the air suction pressure signal is smaller than the first pressure setting range, the controller controls the sound generating mechanism to generate a third sound signal, and the frequency of the third sound signal generated by the sound generating mechanism is gradually increased along with the reduction of the air suction pressure signal; When the expiratory pressure signal is larger than a first pressure setting range, the controller controls the sounding mechanism to emit a first sound signal, the frequency of the sounding mechanism emitting the first sound signal gradually decreases along with the increase of the expiratory pressure signal, when the expiratory pressure signal is in the first pressure setting range, the controller controls the sounding mechanism to emit a second sound signal, when the expiratory pressure signal is smaller than the first pressure setting range, the controller controls the sounding mechanism to emit a third sound signal, and the frequency of the sounding mechanism emitting the third sound signal gradually increases along with the increase of the expiratory pressure signal.
  3. 3. The respiration training device of claim 2, wherein the training device body is further provided with a plurality of lamp tubes, and the lamp tubes are electrically connected with the controller; When the air suction pressure signal is within the first pressure setting range, the controller controls at least one of the multi-grid lamp tubes to display green light, and when the air suction pressure signal is smaller than the first pressure setting range, the controller controls at least one of the multi-grid lamp tubes to display red light, and when the air suction pressure signal is within the first pressure setting range, the controller controls at least one of the multi-grid lamp tubes to display green light, and when the air suction pressure signal is smaller than the first pressure setting range, the controller controls the at least one of the multi-grid lamp tubes to display red light, and when the air suction pressure signal is smaller, the number of the red light displayed in the multi-grid lamp tubes is gradually increased; When the expiration pressure signal is greater than a first pressure setting range, the controller controls at least one of the multiple-grid lamp tubes to display yellow light, and as the expiration pressure signal increases, the number of lamp tubes displaying yellow light in the multiple-grid lamp tubes gradually decreases, when the expiration pressure signal is within the first pressure setting range, the controller controls at least one of the multiple-grid lamp tubes to display green light, and as the expiration pressure signal decreases or increases, the number of lamp tubes displaying green light in the multiple-grid lamp tubes gradually increases or decreases, and when the expiration pressure signal is less than the first pressure setting range, the controller controls at least one of the multiple-grid lamp tubes to display red light, and as the expiration pressure signal decreases, the number of lamp tubes displaying red light in the multiple-grid lamp tubes gradually increases.
  4. 4. A respiration training device according to claim 3, characterized in that the training device body is provided with a power supply, and the power supply is electrically connected with and supplies power to the controller, the suction pressure sensor, the exhalation pressure sensor, the sounding mechanism and the multiple-lattice lamp tube respectively.
  5. 5. The respiration training device according to claim 3 or 4, wherein the training device body is further provided with a power source main switch key, a sound switch key and a signal lamp switch key which are respectively electrically connected with the controller, the sound generating mechanism is electrically connected with the sound switch key to form a sound control loop, the sound switch key is used for controlling the starting of the sound control loop, the multi-grid lamp is electrically connected with the signal lamp switch key to form a signal lamp control loop, and the signal lamp switch key is used for controlling the starting of the signal lamp control loop.
  6. 6. The respiratory training device of claim 5, wherein the training device body is further provided with a heating resistance wire for heating the inhalation cavity and the exhalation cavity, the training device body is further provided with a resistance wire control button electrically connected with the controller, the heating resistance wire is electrically connected with the resistance wire control button to form a heating control loop, and the resistance wire control button is used for controlling the starting of the heating control loop.
  7. 7. The respiratory training device of claim 1, wherein the training device body is further provided with an electronic display screen, the controller is electrically connected with the electronic display screen, and the electronic display screen is used for displaying an exhalation volume, an inhalation volume, an exhalation number and an inhalation number.
  8. 8. The respiratory training device according to any one of claims 1 to 4, 6 to 7, wherein an intermediate transition chamber is further formed in the training device body, the intermediate transition chamber is located between the inhalation chamber and the exhalation chamber, an inhalation one-way valve is arranged between the intermediate transition chamber and the inhalation chamber, and an exhalation one-way valve is arranged between the intermediate transition chamber and the exhalation chamber; the side wall of the air suction cavity is rotationally connected with a first adjusting knob, the side wall of the air suction cavity is rotationally connected with a second adjusting knob, the side wall of the air suction cavity and the side wall of the air suction cavity are respectively provided with a first semicircular through hole and a second semicircular through hole, one end of the first adjusting knob extending into the air suction cavity is fixedly provided with a first adjusting piece, one end of the second adjusting knob extending into the air suction cavity is fixedly provided with a second adjusting piece, one part of the first adjusting piece is sequentially provided with a plurality of first adjusting holes along the self rotation direction, one part of the second adjusting piece is sequentially provided with a plurality of second adjusting holes along the self rotation direction, the first adjusting piece is attached to the inner surface of the side wall of the air suction cavity and can shield the first semicircular through hole, and the second adjusting piece is attached to the inner surface of the side wall of the air suction cavity and can shield the second semicircular through hole; in the rotating process of the first adjusting knob, a plurality of first adjusting holes on the first adjusting piece can be correspondingly communicated with the first semicircular through holes partially or completely, and in the rotating process of the second adjusting knob, a plurality of second adjusting holes on the second adjusting piece can be correspondingly communicated with the second semicircular through holes partially or completely.
  9. 9. The respiratory training device according to claim 8, wherein the plurality of first adjusting holes are round holes, the aperture of each of the plurality of second adjusting holes is gradually increased or gradually decreased in the clockwise rotation direction, the aperture of the first adjusting hole with the largest aperture is not larger than the radial width of the first semicircular arc through hole, and the aperture of the second adjusting hole with the largest aperture is not larger than the radial width of the second semicircular arc through hole.
  10. 10. The respiratory training device of claim 9, wherein the number of the first adjusting holes is six, the number of the second adjusting holes is six, the area ratio of the six first adjusting holes from small to large is 4:6:10:15:25:40, and the area ratio of the six second adjusting holes from small to large is 4:6:10:15:25:40.
  11. 11. The respiration training device of claim 8, wherein a plurality of first clamping grooves are formed in the inner surface of the side wall of the suction cavity, the plurality of first clamping grooves are sequentially arranged at intervals along the rotation direction of the first adjusting knob, first clamping protrusions are fixed on the first adjusting piece, and the first clamping protrusions can be clamped in any one of the first clamping grooves to be adjusted and positioned; a plurality of second clamping grooves are formed in the inner surface of the side wall of the breathing cavity, the second clamping grooves are sequentially distributed at intervals along the rotation direction of the second adjusting knob, second clamping protrusions are fixed on the second adjusting piece, and the second clamping protrusions can be clamped in any second clamping groove for adjusting and positioning; The first clamping grooves are positioned on the inner ring sides of the first adjusting holes, one first clamping groove is respectively corresponding to the outer sides of the first adjusting holes between two adjacent first adjusting holes and the outer sides of the first adjusting holes and the second adjusting holes, the second clamping grooves are positioned on the inner ring sides of the second adjusting holes, and one second clamping groove is respectively corresponding to the outer sides of the second adjusting holes between two adjacent second adjusting holes and the outer sides of the first adjusting holes and the second adjusting holes.
  12. 12. The respiratory training device of claim 11, wherein the number of first adjustment holes is six and the number of second adjustment holes is six; In the rotation process of the first adjusting knob, six first adjusting holes are sequentially communicated with the first semicircular through holes from small to large, when the first clamping protrusions pass through each first clamping groove, the ventilation amount of the six first adjusting holes corresponding to the first semicircular through holes is changed to 0% -2% -4% -7% -10% -15% -20% -27.5% -35% -47.5% -60% -80% -100%, and when the first clamping protrusions pass through each first clamping groove, the ventilation amount of the six first adjusting holes corresponding to the first semicircular through holes is changed to 0% -20% -40% -52.5% -65% -72.5% -80% -85% -90% -93% -96% -98% -100%; In the rotation process of the second adjusting knob, six second adjusting holes are sequentially communicated with the second semicircular arc through holes from small to large, when the second clamping protrusions pass through each second clamping groove, the ventilation amounts of the six second adjusting holes corresponding to the second semicircular arc through holes are changed to 0% -2% -4% -7% -10% -15% -20% -27.5% -35% -47.5% -60% -80% -100%, and when the second clamping protrusions pass through each second clamping groove, the ventilation amounts of the six second adjusting holes corresponding to the second semicircular arc through holes are changed to 0% -20% -40% -52.5% -65% -72.5% -80% -85% -90% -96% -98% -100%.

Description

Respiration training device Technical Field The invention relates to the technical field of sports health promotion, in particular to a respiratory training device. Background The conventional respiratory training device has the defects of complex structure, inconvenience in carrying, monotonous training mode, low training efficiency and poor training effect, is difficult to perform respiratory training in the human body movement process, cannot directly observe and feed back the pressure load of the respiratory training in real time in the training process, has fixed air inflow and air outflow, cannot be adjusted, and can only perform respiratory training with air inflow and air outflow resistance. Disclosure of Invention The invention provides a breath training device for solving one or more of the problems in the prior art. The invention provides a respiratory training device which comprises a training device body and a controller, wherein the training device body is of a hollow columnar structure, an air suction cavity and an air exhaust cavity are independently arranged in the training device body, an air suction pressure sensor is arranged in the air suction cavity, an air exhaust pressure sensor is arranged in the air exhaust cavity, a sound generating mechanism is arranged on the training device body, the air suction pressure sensor, the air exhaust pressure sensor and the sound generating mechanism are respectively and electrically connected with the controller, the air suction pressure sensor is used for collecting air suction pressure signals in the air suction cavity and sending the air suction pressure signals to the controller, the air exhaust pressure sensor is used for collecting air exhaust pressure signals in the air exhaust cavity and sending the air exhaust pressure signals to the controller, and the controller is used for controlling the sound generating mechanism to send sound signals with different frequencies according to the air suction pressure signals and the air exhaust pressure signals. The breath training device has the beneficial effects that by arranging the pressure sensor and the sounding mechanism, the sounding mechanism can be used for emitting sound signals with different frequencies according to the expiratory and inspiratory pressures, and the expiratory and inspiratory pressure changes in the breath training process can be intuitively sensed. On the basis of the technical scheme, the invention can be improved as follows. Further, when the suction pressure signal is greater than a first pressure setting range, the controller controls the sounding mechanism to emit a first sound signal, and as the suction pressure signal increases, the frequency of the sounding mechanism emitting the first sound signal gradually decreases; when the air suction pressure signal is smaller than the first pressure setting range, the controller controls the sound generating mechanism to generate a third sound signal, and the frequency of the third sound signal generated by the sound generating mechanism is gradually increased along with the reduction of the air suction pressure signal; When the expiratory pressure signal is larger than a first pressure setting range, the controller controls the sounding mechanism to emit a first sound signal, the frequency of the sounding mechanism emitting the first sound signal gradually decreases along with the increase of the expiratory pressure signal, when the expiratory pressure signal is in the first pressure setting range, the controller controls the sounding mechanism to emit a second sound signal, when the expiratory pressure signal is smaller than the first pressure setting range, the controller controls the sounding mechanism to emit a third sound signal, and the frequency of the sounding mechanism emitting the third sound signal gradually increases along with the increase of the expiratory pressure signal. The adoption of the further scheme has the beneficial effects that the pressure ranges correspond to the different sound signals, so that the pressure changes of the expiration and inspiration can be intuitively sensed. Further, the training device body is also provided with a plurality of lamp tubes, and the lamp tubes are electrically connected with the controller; When the air suction pressure signal is within the first pressure setting range, the controller controls at least one of the multi-grid lamp tubes to display green light, and when the air suction pressure signal is smaller than the first pressure setting range, the controller controls at least one of the multi-grid lamp tubes to display red light, and when the air suction pressure signal is within the first pressure setting range, the controller controls at least one of the multi-grid lamp tubes to display green light, and when the air suction pressure signal is smaller than the first pressure setting range, the controller controls the at least one of the multi-grid lamp tubes to