CN206924341U - Respiration training - Google Patents

Abstract

The utility model discloses respiration training, including pipe, ventilation ring, shrouding, impeller, metering device, torsion adjusting means；Ventilation ring both ends are sealed by shrouding；Impeller is coaxial to be arranged in ventilation ring；It is patty in the middle part of pipe, ventilation ring is arranged at the patty of pipe, and pipe inner space is separated into two independent parts, and the patty of ventilation ring and pipe is coaxial；It is relative on ventilation ring outer surface to be provided with two passages；Passage and tube ends UNICOM on ventilation ring；Metering device is arranged on shell；A part for metering device is affixed through shell and one end of shrouding and impeller shaft；Torsion adjusting means is arranged on shell, and a part for torsion adjusting means is affixed through shell and the other end of shrouding and impeller shaft.The utility model can check the air capacity of each respiratory training amount by metering device, respiratory training breathing dynamics can be adjusted by torsion adjusting means, so as to realize the training to lung's muscle.

Description

Respiration training

Technical field

It the utility model is related to field of medical device, particularly respiration training.

Background technology

The ball respiration training of respiration training three on domestic market, by being blown into gas into three ball respiration trainings Body causes spheroid floating to have the function that to train lung muscle, but what the observation that can only quantify of three ball respiration trainings was blown into Gas flow, it is impossible to which real time inspection is blown into the content of gas every time, and can not adjust blowing force size when being blown into.

Utility model content

In view of the drawbacks described above of prior art, the purpose of this utility model is just to provide respiration training, can check Check outlet and air inflow during training every time, and can be to training every time when blowing force and suction size adjust.

The purpose of this utility model realized by such technical scheme, respiration training include pipe, ventilation ring, Shrouding, impeller, metering device, torsion adjusting means；The ventilation ring both ends are sealed by shrouding；The coaxial installation of the impeller In ventilation ring；It is patty in the middle part of the pipe, the ventilation ring is arranged at the patty of pipe, and will be empty inside pipe Between be separated into two independent parts, the patty of the ventilation ring and pipe is coaxial；It is relative on the ventilation ring outer surface Provided with two passages；Passage and tube ends UNICOM on the ventilation ring；The metering device is arranged on shell；Institute The part for stating metering device is affixed through shell and one end of shrouding and impeller shaft；The torsion adjusting means is arranged on outer On shell, a part for the torsion adjusting means is affixed through shell and the other end of shrouding and impeller shaft.

Further, the blade on the impeller is rectangle；One end of the remote impeller shaft of the blade of the impeller is Distally, the both ends adjacent with distal end are side end；The distal end of the blade of the impeller is with ventilation ring inwall minimum range no more than 1 milli Rice；The side end of the blade of the impeller is not more than 1 millimeter away from shrouding minimum range.

Further, the axial direction of the passage on the ventilation ring is the tangential direction phase that impeller blade rotates profile Together.

Further, the respiration training also includes gas blow pipe and air intake duct；One end of the gas blow pipe and air intake duct One end respectively with tube ends UNICOM.

Further, the gas blow pipe and air intake duct are flexible pipe.

Further, metering device is the mechanical counter with reset function.

Further, the torsion adjusting means includes drain pan, top shell, axostylus axostyle, the first frictional disk, the second frictional disk, led To bar, spring；

The axostylus axostyle is affixed through shell and shrouding and impeller shaft；The first frictional disk overcoat is fixed on axostylus axostyle； Second frictional disk is provided with circular hole；Second frictional disk outside circular hole by being enclosed on axostylus axostyle, and circular-hole internal-wall and axostylus axostyle Do not contact；The card away from the first frictional disk of second frictional disk is provided with guide rod；The guide rod outer casing spring；

The drain pan and top shell are tubular；The drain pan is arranged on shell；The rotating shaft, the first frictional disk are located at In drain pan；One end closing of the top shell；The blind end of the top shell is provided with the circular hole being engaged with guide rod；The spring Both ends respectively with the second frictional disk and top shell closing end in contact；

The inner surface of the drain pan is provided with some annular grooves being parallel to each other and the vertical slot by annular groove UNICOM；It is described The unclosed end of top shell is located in drain pan；The outer surface of the top shell is conformed with；The projection is located at the annular groove of drain pan Or in vertical groove.

By adopting the above-described technical solution, the utility model has the following advantages：By using impeller rotation and Metering device calculates the respiratory capacity trained every time, the rotary resistance to impeller is realized by using torsion adjusting means, so as to real Now control the drag size breathed every time.

Other advantages, target and feature of the present utility model will be explained in the following description to a certain extent State, and to a certain extent, based on will be apparent to those skilled in the art to investigating hereafter, or Person can be instructed from practice of the present utility model.Target of the present utility model and other advantages can be said by following Bright book and claims are realized and obtained.

Brief description of the drawings

Brief description of the drawings of the present utility model is as follows.

Fig. 1 is overlooking the structure diagram of the present utility model；

Fig. 2 is cross-sectional view at A in Fig. 1；

Fig. 3 is cross-sectional view at B in Fig. 1；

Fig. 4 is mplifying structure schematic diagram at C in Fig. 1；

In figure：1. pipe；2. ventilation ring；21. passage；3. shrouding；4. impeller；5. metering device；6. torsion regulation dress Put；61. drain pan；611. groove；612. vertical slot；62. top shell；621. projection；63. axostylus axostyle；64. the first frictional disk；65. second rubs Wipe disk；66. guide rod；67. spring；7. gas blow pipe；8. air intake duct.

Embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.

As shown in figures 1-4, respiration training includes pipe 1, ventilation ring 2, shrouding 3, impeller 4, metering device 5, torsion tune Regulating device 6；The both ends of ventilation ring 2 are sealed by shrouding 3；Impeller 4 is coaxial to be arranged in ventilation ring 2；The middle part of pipe 1 is cake Shape, ventilation ring 2 is arranged at the patty of pipe 1, and the inner space of pipe 1 is separated into two independent parts, ventilation ring 2 It is coaxial with the patty of pipe 1；It is relative on the outer surface of ventilation ring 2 to be provided with two passages 21；Passage 21 on ventilation ring 2 With the both ends UNICOM of pipe 1；Metering device 5 is arranged on shell；A part for metering device 5 passes through shell and shrouding 3 and impeller 4 One end of rotating shaft is affixed；Torsion adjusting means 6 is arranged on shell, and a part for torsion adjusting means 6 passes through shell and shrouding 3 It is affixed with the other end of the rotating shaft of impeller 4.

Metering device 5 can be electronics number of turns logger or mechanical Lap Time logger, be recorded in the respiratory middle period The rotation Lap Time of wheel 4, the amount of breathing can be calculated according to the number of turns, exhalation and suction during so as to know each respiratory training Enter the size of amount, and can be recorded using text, convenient deduction and grasp to patient's state of an illness；By setting torsion to adjust The size of the rotation friction of impeller 4 can be adjusted for device 6, so as to realize the instruction of the exhalation of enhancing patient and inhalation power Practice, lung's muscle power of patient can be effectively improved.

As the improvement of the present embodiment, the blade on impeller 4 is rectangle；The one of the rotating shaft of remote impeller 4 of the blade of impeller 4 Hold as distally, adjacent both ends are side end with distal end；The distal end of the blade of impeller 4 is 0.5 milli with the inwall minimum range of ventilation ring 2 Rice, the side end of the blade of impeller 4 are 0.5 millimeter away from the minimum range of shrouding 3.The minimum range of blade and shell is arranged to 0.5 Millimeter, the air of exhalation and suction can be effectively reduced not by impeller 4, improves the accuracy of the present apparatus.

As the improvement of the present embodiment, the axial direction of the passage 21 on ventilation ring 2 rotates profile for the blade of impeller 4 Tangential direction is identical.The air for setting the passage 21 of tangential direction to enter impeller 4 and discharge impeller 4 will not be to leaf The rotation of wheel 4 produces drag effect so that the rotation of impeller 4 is more smoothly, decrease air from the side end of impeller 4 with Gap between shell is flowed through, and improves the accuracy of the present apparatus.

As the improvement of the present embodiment, respiration training also includes gas blow pipe 7 and air intake duct 8；One end of gas blow pipe 7 and suction One end of tracheae 8 respectively with the both ends UNICOM of pipe 1.

As the improvement of the present embodiment, the gas blow pipe 7 and air intake duct 8 are flexible pipe.Gas blow pipe 7 and air intake duct 8 are set Convenient use and the Lap Time that records can be checked on metering device 5 in use.

As the improvement of the present embodiment, metering device 5 is the mechanical counter with reset function, such as on counting skipping rope Counter, and by enumerative number of turns digital scale tolerance size in a row.

As the improvement of the present embodiment, torsion adjusting means 6 includes drain pan 61, top shell 62, axostylus axostyle 63, the first frictional disk 64th, the second frictional disk 65, guide rod 66, spring 67；

Axostylus axostyle 63 is affixed through shell and shrouding 3 and the rotating shaft of impeller 4；The overcoat of first frictional disk 64 is fixed on axostylus axostyle 63； Second frictional disk 65 is provided with circular hole；Second frictional disk 65 outside circular hole by being enclosed on axostylus axostyle 63, and circular-hole internal-wall and axostylus axostyle 63 Do not contact；The card away from the first frictional disk 64 of second frictional disk 65 is provided with guide rod 66；The outer casing spring 67 of guide rod 66；

Drain pan 61 and top shell 62 are the shape of pipe 1；Drain pan 61 is arranged on shell；Rotating shaft, the first frictional disk 64 are located at bottom In shell 61；One end closing of top shell 62；The blind end of top shell 62 is provided with the circular hole being engaged with guide rod 66；The two of spring 67 End in contact is closed with the second frictional disk 65 and top shell 62 in end respectively；

The inner surface of drain pan 61 is provided with some annular grooves 611 being parallel to each other and the vertical slot by the UNICOM of annular groove 611 612；The unclosed end of top shell 62 is located in drain pan 61；The outer surface of top shell 62 is conformed with 621；Projection 621 is located at drain pan 61 Annular groove 611 or vertical groove 611 in.

By setting guide rod 66 and spring 67 to realize the second frictional disk 65 and the first frictional disk on the second frictional disk 65 Pressure is produced between 64, so as to which the rotation to impeller 4 produces resistance.By setting groove 611 and vertical slot 612 on drain pan 61, Projection 621 is set to realize the distance between adjustment top shell 62 and drain pan 61 in top shell 62, it is big so as to adjust the pressure of spring 67 It is small, and then realize the pressure size between the first frictional disk 64 and the second frictional disk 65.

This city utility model so works, when needing to test exhalation and soakage, first by metering device 5 Reset, by the distance controlling of drain pan 61 and top shell 62 to maximum, the first frictional disk 64 and the second frictional disk 65 is not contacted, the Two, breathed out, the air capacity after the completion of exhalation on record metering device 5, the 3rd, metering device 5 is resetted, sucked, The air capacity on metering device 5 is recorded after the completion of exhalation.

When needing to carry out lung's muscle strength training, regulation drain pan 61 and the distance of top shell 62, make the first friction Pressure size between the frictional disk 65 of disk 64 and second, then breathed out and sucked training.

Finally illustrate, above example is only unrestricted to illustrate the technical solution of the utility model, although ginseng The utility model is described in detail according to preferred embodiment, it will be understood by those within the art that, can be to this The technical scheme of utility model is modified or equivalent substitution, and without departing from the objective and scope of the technical program, it all should Cover among right of the present utility model.

Claims (7)

1. respiration training, it is characterised in that the respiration training include pipe, ventilation ring, shrouding, impeller, metering device, Torsion adjusting means；The ventilation ring both ends are sealed by shrouding；The impeller is coaxial to be arranged in ventilation ring；The pipe Middle part is patty, and the ventilation ring is arranged at the patty of pipe, and pipe inner space is separated into independent two Part, the patty of the ventilation ring and pipe are coaxial；It is relative on the ventilation ring outer surface to be provided with two passages；It is described Passage and tube ends UNICOM on ventilation ring；The metering device is arranged on shell；A part for the metering device One end through shell and shrouding and impeller shaft is affixed；The torsion adjusting means is arranged on shell, the torsion regulation A part for device is affixed through shell and the other end of shrouding and impeller shaft.

2. respiration training according to claim 1, it is characterised in that the blade on the impeller is rectangle；The leaf One end of the remote impeller shaft of the blade of wheel is distal end, and adjacent both ends are side end with distal end；The blade of the impeller it is remote End is not more than 1 millimeter with ventilation ring inwall minimum range；The side end of the blade of the impeller is away from shrouding minimum range no more than 1 milli Rice.

3. respiration training according to claim 1, it is characterised in that the axial direction of the passage on the ventilation ring The tangential direction that profile is rotated for impeller blade is identical.

4. respiration training according to claim 1, it is characterised in that the respiration training also includes gas blow pipe and suction Tracheae；One end of the gas blow pipe and one end of air intake duct respectively with tube ends UNICOM.

5. respiration training according to claim 4, it is characterised in that the gas blow pipe and air intake duct are flexible pipe.

6. respiration training according to claim 1, it is characterised in that metering device is the machinery meter with reset function Number device.

7. according to any described respiration training in claim 1-6, it is characterised in that the torsion adjusting means includes bottom Shell, top shell, axostylus axostyle, the first frictional disk, the second frictional disk, guide rod, spring；

The axostylus axostyle is affixed through shell and shrouding and impeller shaft；The first frictional disk overcoat is fixed on axostylus axostyle；It is described Second frictional disk is provided with circular hole；Second frictional disk outside circular hole by being enclosed on axostylus axostyle, and circular-hole internal-wall does not connect with axostylus axostyle Touch；The card away from the first frictional disk of second frictional disk is provided with guide rod；The guide rod outer casing spring；

The drain pan and top shell are tubular；The drain pan is arranged on shell；The rotating shaft, the first frictional disk are located at drain pan It is interior；One end closing of the top shell；The blind end of the top shell is provided with the circular hole being engaged with guide rod；The two of the spring End in contact is closed with the second frictional disk and top shell in end respectively；

The inner surface of the drain pan is provided with some annular grooves being parallel to each other and the vertical slot by annular groove UNICOM；The top shell Unclosed end be located in drain pan；The outer surface of the top shell is conformed with；The projection is located at the annular groove or perpendicular of drain pan Into groove.