EP3458012A1 - Stimulating device - Google Patents
Stimulating deviceInfo
- Publication number
- EP3458012A1 EP3458012A1 EP16820169.7A EP16820169A EP3458012A1 EP 3458012 A1 EP3458012 A1 EP 3458012A1 EP 16820169 A EP16820169 A EP 16820169A EP 3458012 A1 EP3458012 A1 EP 3458012A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- vibration
- belt
- casing
- motor
- control panel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H11/00—Belts, strips or combs for massage purposes
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H23/00—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms
- A61H23/02—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive
- A61H23/0254—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive with rotary motor
- A61H23/0263—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive with rotary motor using rotating unbalanced masses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H23/00—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms
- A61H23/02—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive
- A61H23/0254—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive with rotary motor
- A61H23/0263—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive with rotary motor using rotating unbalanced masses
- A61H2023/0272—Percussion or vibration massage, e.g. using supersonic vibration; Suction-vibration massage; Massage with moving diaphragms with electric or magnetic drive with rotary motor using rotating unbalanced masses multiple masses each rotated by an individual motor
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/01—Constructive details
- A61H2201/0119—Support for the device
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/01—Constructive details
- A61H2201/0165—Damping, vibration related features
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/50—Control means thereof
- A61H2201/5002—Means for controlling a set of similar massage devices acting in sequence at different locations on a patient
Definitions
- the invention relates to a stimulating device, particularly for stimulating the diaphragm, the use of such a device and methods of treating hypoventilation and respiratory depression. More particularly, the present invention relates to a device for stimulating the diaphragm to enhance pulmonary function, particularly by biomechanical muscle stimulation.
- a belt is provided containing at least two vibration modules, which are externally applied to an abdominal region of a user to stimulate the diaphragm.
- biomechanical muscle stimulation in various diseases leads to the improvement of the condition of the patient.
- the main application of biomechanical muscle stimulation is in the medical field, in sports and in cosmetics.
- biomechanical stimulation for specific diseases, in particular for chronic pain, certain types of periphery paralysis, arterial and peripheral circulatory disorders, muscle metabolism disorders, muscle atrophy, muscle dystrophy and in various forms of arthritis.
- DE 10 2004 009 452 B4 discloses a device for stimulation of the heart muscle, which particularly promotes the conservation of the type Ila muscle fibers.
- the device comprises a pulse generator unit for generating and sending out an electrical stimulation pulse.
- the unit can be controlled by a control unit.
- a disadvantage of the device is that it is acting solely on the heart muscle and thus its use is restricted.
- the hardware of the device is solely restricted to the specific application.
- DE 102 41 340 B4 describes a complex device for biomechanical muscle stimulation for use in rehabilitation, regeneration.
- a horizontal tread plate is fixed to a vibration unit, where the tread plate swings horizontally with an amplitude of preferably 4 to 5 mm.
- the user by means of handles, straps or ropes achieves the desired body tension.
- a disadvantage of the disclosed apparatus is that the vibrations or oscillations affect the whole body and cannot be applied locally to specific muscles o groups of muscles.
- the device is very large and cannot be used on the move.
- the stimulation of the muscles is exclusively achieved by active work performed by the user, which is not always possible to do.
- the device may be difficult or impossible to be used by the elderly.
- DE 201 16 277 Ul discloses a device for biomechanical stimulation, with the aid of which a massage therapist can induce vibrations directly on certain areas of the body of a patient.
- the device comprises a vibration generator with a mechanical drive unit for the generation of oscillatory motions.
- the device is very large and heavy and cannot be used on the move. In addition, it is required to be operated by a trained professional.
- COPD Chronic Obstructive Pulmonary Disease
- COPD chronic Obstructive Pulmonary Disease
- Conditions like asthma affect over 17 million in the U.S., including 5 million children.
- Examples of lung depression include sleep apnea, opioid use, pneumonia, interstitial lung disease, sleep apnea, congestive heart failure and psychogenic causes such as anxiety or PTSD. All of these conditions have varying pharmaceutical interventions providing varying effectiveness, with accompanying side effects.
- a disadvantage of the devices described in the prior art is that the muscular stimulation is associated with not inconsiderable pain and the user must remain in a particular body position.
- electro-stimulation is applied, which can induce pain and needs to be in direct contact with skin. No data has demonstrated effectiveness, and it is questionable whether it is functional due to the complicated motor- magnet construction.
- DE 202010018159 Ul discloses a respiratory stimulation belt comprising an integrated sensor unit and at least two vibration generators integrated a housing and in a tubular flexible structure. Due to the insertion of the housing of the vibration generators in the belt the vibration generators generate vibrations in all directions and cannot be controlled. The vibrations have a frequency of 6 to 12 Hz. There is no indication of frequency, amplitude or time required before effects, if any, are observed.
- DE 10 2010 022 603 Al discloses a respiratory stimulation belt wherein a flywheel is magnetized or magnetized elements are incorporated into the flywheel to enhance a magnetic field generated by the motor and magnetic elements.
- the flywheel is magnetized by a disc magnet, part magnetic or bar magnet and the magneto-mechanical vibrations cause their effects via magnetic waves.
- the magneto-mechanic vibration unit can be combined with an inductive transformation element causing electrical stimulation currents to muscles.
- WO 01/19316 A2 discloses a digitally controlled vibratory therapy apparatus comprising one electromechanical vibrator and digital control means for employing cycloid vibrations.
- the digital control means utilizes linear time integrated frequency control and a small amplitude vibration without being further specific.
- the lungs become more stiff and less elastic, cardiorespiratory capacity is reduced as well as mobility, making daily activity difficult and also reducing sleep quality.
- the vital capacity of the lungs is 50% less than younger persons.
- the lungs are functioning less efficiently and the amount of vital oxygen that is inhaled is reduced, which is essential for our brains, heart and other organs to function optimally.
- the correct breathing pattern deteriorates to the shallow, rapid chest breathing method, which has the negative effect of using more energy and activating stress within the body, as well as causing people to inhale less air or oxygen. This causes the wide experienced effects seen by many older persons such as anxiety, poor sleep, lack of mobility and even depression.
- the stress aspect will also be targeted towards additional age groups that suffer high stress or anxiety, as well as those having sleeping problems.
- the present invention has the object to provide for an improved stimulation device, particularly for stimulating the diaphragm, the use of such a device and an improved method of treating hypoventilation and respiratory depression.
- the stimulation device comprises: a belt containing at least two vibration modules, wherein each of the at least two vibration modules comprises: a pod with a casing and a vibration pad arranged within the casing, and a vibration motor with a flywheel within the housing, a control panel operating said vibration motors of the at least two vibration modules; wherein the vibration motors are mounted to the vibration pad via at least one elastic motor housing.
- the invention also comprises the use of a such device for treating hypoventilation and respiratory depression and a method of treating hypoventilation and respiratory depression by fastening the belt to the abdomen of a user and operating the belt, wherein the at least two vibration modules are externally applied to an abdominal region of a user to stimulate the diaphragm, to enhance pulmonary function.
- the elastic motor housing of the stimulation device provides for elastic support of the vibration motor relative to the belt and housing of the motor such that generated vibrations are mainly directed to the user and thus the energy impacting a user is used more efficiently compared to the devices known from the state of the art.
- the device and the method of the present invention enhance pulmonary function by stimulating the diaphragm.
- the present invention alleviates symptoms related to hypoventilation and shallow breathing from various causes of lung disease and respiratory depression by averting pharmaceutical intervention and delivering relatively immediate results in enhancing and optimizing breathing ability. This results in increased blood oxygen levels, reduced heart and breathing rates and improved quality of life.
- the present invention is easy to use, overcomes the difficulties of use of the prior art, and has no observed negative side effects.
- the device of the present invention is more efficient than the prior art, i.e., within 2 mins the diaphragm is activated, and effects on 100% of individuals tested have been observed.
- the device and method according to the present invention can stimulate the diaphragm to enhance pulmonary function, and subsequently the parasympathetic nervous system to enhance relaxation, reduce the heart and breathing rates and improve sleep quality and even pain.
- a program of the device may be used for falling asleep, where the number of revolutions of the motor is reduced. This however can even increase the positive effects on the user.
- the device contains a belt with at least two removable engaged vibration modules, which are provided to make contact with a user to engage the diaphragm of a user
- the device of the present invention applies a biomechanical vibration to the human body through the contact of the vibration modules via the pods and vibration pads with the human body.
- the belt according to the present invention consists of at least two vibration modules, each housing a vibrating motor.
- the vibration modules are engaged with a strap, creating a belt, for contacting the abdomen of a user to stimulate the diaphragm.
- the motors are controlled by an electronic circuit.
- the electronic circuit is controlled by a control panel, which may be powered by a battery that is optionally rechargeable.
- the control panel controls the voltage and time that the motors run for.
- the belt may be worn by a user any time during the day or night.
- the belt of the present invention may be worn only for the amount of time that the user wishes for the diaphragm to be stimulated, or it may be worn for an extended period of time and the vibration motors activated intermittently throughout the extended period of time.
- the belt of the present invention may be used in any position by a user, for instance sitting, standing, or in a supine position.
- the belt may be worn and used while working in an office, sitting at a computer or when engaging in manual labor.
- the vibrations compresstrain" the diaphragm so that its ability to function or contract on its own increases and after the use in morning or evening should keep working for several hours. Minimum use time is 10 min and upto 30-60 min.
- the diaphragm recognizes the vibrations increasingly faster with repeated use that it commences to work quicker with each use of the belt.
- the belt comprises three vibrating modules that are arranged equidistant or in varying distance to allow for an optimal stimulation effect of the diaphragm for deep breathing movement of the stomach, i.e. the pods and vibration pads with the motors continue to vibrate optimally during the sauexpansion" phase during inhalation.
- each of the vibration motors of the device is spaced away from the vibration pad via the motor housing. This measure ensures a free movement of the flywheel attached to the motor within the housing or casing.
- the motor housing is mounted to the vibration pad via a snap-fit connection. This measure provides for a secure coupling of the motor and the motor housing.
- suitable attachment means may be used and or additional attachment means, e.g. adhesives or mechanical couplings.
- each of the motor housings is at least partly designed in a complementary manner to the vibration motor for holding and supporting the vibration motor. This measure provides for an easy assembly of the device and a secure support of the motor within the motor housing.
- the belt of the device comprises a strap having at least one a belt fastening attachment.
- the belt may be flexible. This measure provides for an easy adjustment of the belt to the user, specifically to the abdomen of the user.
- the belt fastening attachment may be of any suitable fastening means.
- the casing comprises a main casing and a back casing wherein the vibration pad is arranged within the back casing and/or the main casing is provided with a front panel.
- the vibrations are directed to a user more efficiently.
- the main casing and/or the back casing of the device comprise at least one attachment means for engagement with and through the strap and engagement with the other of the back casing or main casing. This measure provides for a suitable and safe connection between casing and strap and ensures that the vibration pads are kept in position.
- the control panel operates said vibration motors with an amplitude from around 0.3G to LOG and frequency ranging from 16 Hz to 45 Hz complementary to a voltage 0.6V to 1.3 V.
- the control panel operates said vibration motors with an amplitude of around 0.4G at a frequency of 30 Hz (0.8V) to an amplitude of 0.62G at a frequency 37 Hz (1.0V).
- the exact optimal frequency and amplitude is also person dependent, i.e. weight, age and general sensitivity. With these operation conditions optimal effects are achieved and quantified as clear changes in breathing pattern to deep, slow rhythmic diaphragm breathing and quantified as reduction in breathing rate of 20% or more.
- the belt is flexible and/or adjustable to a wearer's anatomy. Hence, the length of the belt can easily be adapted to the users and one belt can be adapted to different users.
- the at least one of the flywheels is dimensioned of around 12 mm diameter and 8 mm thickness. This measure provides for efficient vibrations.
- the at least one of the flywheels has a weight of 7-8 grams and/or is spaced 1-5 mm from the end of the motor. This measures my even more improve the efficiency of the device and the impact of the vibrating impulses. This weight and arrangement is based on several test results (compare below).
- the device may further comprise a display for displaying and monitoring vital functions, wherein the display of vital functions is integrated via an interface and/or the interface supports the exchange of information with an external device. This measure can improve the functionality of the device.
- the invention provides for a method of treating respiratory depression by engaging a belt device to the abdomen of a user, the belt device comprising: a) a strap having a belt fastening attachment; b.) at least two vibration motors engaged with said strap; c) said motor comprising a flywheel of 12 mm diameter, 8 mm thickness and 7- 8 grams; d) a control panel operating said at least two vibration motors; wherein said vibration motors have amplitude from 0.3G to LOG and frequency ranging from 16 Hz to 45 Hz.
- the at least two vibration modules are externally applied to an abdominal region of a user to stimulate the diaphragm, to enhance pulmonary function.
- the device of the present invention contains a belt, wherein the belt is adjustable in size to accommodate for variations in the size of a user.
- the belt contains at least two removable vibration modules, each module containing a vibration motor controlled by a control panel device.
- the belt of the present invention is provided to contact the abdominal region of a user under the rib cage to stimulate the diaphragm.
- the vibrating motor of the present invention may be effective at varying voltage, amplitude and frequency.
- An approximate effective range of the amplitude is from about 0.3G to about LOG, or a voltage from about 0.6V to 1.3V.
- An approximate effective range of the frequency is from about 16Hz to about 45 Hz.
- the device can be used to deepen abdominal or flank breathing.
- Abdominal breathing also called diaphragmatic breathing
- the diaphragm is the main breathing muscle and is located between the chest and the abdominal cavities.
- Abdominal breathing occurs by a contraction of the diaphragm, whereby the negative pressure in the pleural space is growing. Following this negative pressure, the lung extends and air gets sucked in.
- Exhalation in this breathing technique occurs by relaxation of the diaphragm, whereby the lung due to its own elastic properties contracts and pushes the air out. Consciously, exhalation can be supported by contracting the abdominal muscles.
- the device may be used for increasing the activity of the diaphragm. With the contribution of mechanical vibrations, the muscle of the diaphragm gets stimulated and subsequently can contribute to a better expansion of the lungs.
- a further benefit of using the device of the present invention is the activation of the parasympathetic nervous system, which subsequently reduces heart and breathing rates, increases muscle relaxation, relieves tension, pain in lower torso, abdominal contractions and improves sleep quality.
- the use of the device of the present invention helps with sleeping disorders such as insomnia.
- Yet another benefit of the device of the present invention is the assistance in weaning an individual from the use of mechanical ventilation.
- FIG. 1 illustrates a front view of an adjustable belt, in a linear open position, having at least two vibration modules and associated control panel.
- FIG. 2 illustrates an exploded view of a pod component of a vibration module.
- FIG. 3 illustrates a view of the user contact side of a belt having at least two vibration modules and associated control panel.
- FIG. 4 illustrates a vibration motor
- FIG. 5 illustrates a front perspective view of the control panel.
- FIG. 6 illustrates a back perspective view of the control panel.
- FIG. 7 illustrates an exploded view of the control panel.
- Fig 8a illustrates a back perspective view of a vibration module.
- Fig 8b illustrates a sectional side view of the vibration module 12 of Fig. 8a.
- the device of the present invention applies a mechanical vibration to the human body through the contact of vibration pads of a respective pod comprising vibration motors.
- the present invention consists of at least two vibration modules, each housing a vibrating motor.
- the vibration modules are engaged with a strap, creating a belt, for contacting the abdomen of a user to stimulate the diaphragm.
- the motors are controlled by an electronic circuit.
- the electronic circuit is controlled by a control panel, which may be powered by a battery that is optionally rechargeable.
- the control panel controls the voltage and time that the motors run for.
- the belt may be worn by a user any time during the day or night.
- the belt of the present invention may be worn only for the amount of time that the user wishes for the diaphragm to be stimulated, or it may be worn for an extended period of time and the vibration motors activated intermittently throughout the extended period of time.
- the belt of the present invention may be used in any position by a user, for instance sitting, standing, or in a supine position.
- the belt may be worn while working in an office, sitting at a computer or when engaging in manual labor.
- FIG. 1 illustrates the front view of a length-adjustable belt 10 of the present invention in an open position, comprising three vibration modules. More particularly, the belt 10 comprises a first vibration module 5, a second vibration module 7 and a third vibration module 9. Each vibration module comprises a casing 6 and a pod 4 containing a vibration motor. The belt 10, further depicts a strap 1 between the vibration modules 5, 7 and 9. Further, a control panel 15 is mounted to the strap 1 in any suitable manner, for example via clamp 8. The vibration modules 5, 7 and 9 are mounted to the strap 1 of the belt 10 equidistantly.
- the strap 1 of belt 10 may be constructed of a variety of suitable materials, including lycra, any material containing spandex, neoprene, elastic, cotton, nylon webbing, StretchBandsTM, silicone, ethylene propylene diene monomer (M-class) rubber, urethane, Chloroprene, Hypalon, natural rubber, leather, cloth, plastics and the like.
- the strap 1 is stretchable and made of materials such as including lycra, any material containing spandex, neoprene, elastic, nylon webbing, StretchBandsTM, silicone, ethylene propylene diene monomer (M-class) rubber, urethane, Chloroprene, Hypalon or natural rubber.
- strap 1 is made of a combination of neoprene, elastic and nylon webbing. Strap 1 may be of varying lengths and widths suitable for the size of the respective user. Strap 1 may be constructed of an inner strap, closest to the abdomen of a user, and an outer strap away from a user. Between the inner strap and outer strap are a path of the wires leading from a control panel to the motors. Alternatively, the path of the wires may be integrated in the strap.
- Belt 10 further comprises a belt fastening attachment 2, 3 for closure around a user.
- the belt fastening attachment 2, 3 may be selected from a variety of off the shelf buckles such as quick-release clips, simple buckles, adjuster buckles, belt buckles and the like.
- the belt securing attachment 2, 3 may comprise snaps, clips, zippers, buttons, clasps, clips, knots, ties, Velcro, pins, hooks or any other fastening means known in the art.
- Vibration modules 5, 7 and 9 each contain a removable pod 4, which contains a vibration motor.
- Pod 4 is advantageously removable for repair or exchange of the pod or vibration motor.
- the motor sits in a plastic housing that clicks into place, and the outer casing of the removable pod(s) 4 is screwed over the complete casing 6.
- the pod can also be glued to casing 6.
- Said pod 4 may be made by injection moulding of materials such as plastic, metal, silicone, synthetic fabric and the like.
- the dimension of the pod may vary. Smaller pods may be used for smaller belts and larger pods may be used for larger belts.
- the pods may be about 6-8 cm in width; about 8-9 cm in Length; and about 2.5-3.5 cm in depth depending on the size of the motor to be housed.
- the exploded view of pod 4 illustrates a front panel 21, which covers the pod.
- the front panel 21 may be made of ABS plastic and made by injection molding.
- the front panel 21 may be made of any metal or other suitable material.
- the front panel 21 may be of any color and may be imprinted or embossed with a logo or design.
- the casing 6 forms a structural cabinet feature that clamps the strap into position and guides the wiring.
- the belt has slits 23 for engaging the casing 6 to secure to the belt.
- the casing 6, may also be made by injection molding of ABS plastic.
- the casing 6 may also be made of metal or any other suitable material.
- the pod 4 also comprises a back casing 26 with a motor housing 22.
- the motor housing 22 receives and houses a vibration motor 20 and is mounted to a vibration pad 24.
- the motor housing 22 isolates the motor from main casing 6.
- the motor housing 22 may be made of ABS plastic by injection moulding, or may be made of any other suitable material.
- each of the motor housings 22 is made of an elastic material, e.g. silicone.
- the motor housings 22 are designed at least partly complementary to the outer surface of the motor 20 (comp. Fig. 4 and 8a, b) to receive and hold the motor 20 when the pod 4 is mounted or assembled.
- the vibration pad 24 is used to transmit the vibrations from the motor to the user's body.
- the vibration pad 24 incorporates damping features, such as a sponge, and isolates the vibration motor from main casing 6.
- the vibration pad may be made of a silicone, i.e. Rubber, TPE/TPU or PVC or any other suitable material.
- the back casing 26 forms a structural cabinet to clamp the strap in position via slits 23 of strap 1 and to guide wires.
- the back casing 26 comprises two extensions that extend perpendicularly to the back casing 26 for engagement with slits 23 of strap 1.
- the casing 6 comprises pins or other suitable means also extending perpendicularly to the casing 6 for counter engagement with the extensions to hold the vibration modules 5, 7 or 9 or pod 4 securely on the strap 1 in position.
- the back casing 26 may be made by injection moulding of ABS plastic, or may be made of metal or any other suitable material. [0052] Fig.
- FIG. 3 illustrates the posterior side of the casing 6 and the user contact side of the pod 4, whereby contact is made by vibration pads 12, 14 and 16 (24 in Fig. 2).
- the vibration pads 12, 14 and 16 (24) provide beneficial features, such as transmitting the vibration effects in a more focused and efficient manner than plastic casing due to the elastic support or mount of the motor 20 within the elastic motor housing 22.
- the elastic support of the motor 20 with respect to the casing 6 and back casing 26 allows for directing most of the generated vibrations to the user increasing the efficiency of the stimulation device.
- the silicone vibration pad is also quieter than plastic casing construction and more comfortable for a user.
- Vibration motors used in the present invention may be off the shelf and equivalent to Precision Microdrives TM, Model 320-100, Uni-Vibe TM, 20mm Vibration Motor - 25mm Type.
- a variety of motors may be used, as generally illustrated in Fig. 4.
- the vibration motor may generally include motor casing, washers, a NdFeB neodymium permanent magnet, a motor shaft, a motor end cap, ball race bearings and an eccentric mass counter weight (the flywheel 28). Larger or smaller motors may be used in the present invention, but what is critical is that the frequency or amplitude or voltage range is achieved with any type of motor for the effect to be seen.
- Activation of the diaphragm can be measured as a change in breathing pattern, i.e., shallow breathing versus slower deep belly breathing. This can be quantified by slower breathing (rate/min) and also heart rate.
- the flywheel was of 12 mm diameter, 8 mm thickness and 7-8g.
- the motor is Precision Microdrives TM, Model 320-100.
- +++ is strong activation of deep belly (diaphragm) breathing; the breathing rate is deeper and slower as measured by breaths per minute (reduction greater than 20% of normal previous breathing)
- Effects on lung function were notable within the range from 0.3G at 20 Hz to 1.00 at 45 Hz. Optimal effects were observed in the range from 0.8V (30 Hz at 0.4G) to 1.0V (37 Hz at 0.62G). Optimal effects are quantified as clear changes in breathing pot-tern to deep, slow rhythmic diaphragm breathing and quantified as reduction in breathing rate of 20% or more.
- the amplitude was measured using a closed-loop control (accelerometer) and accurate motor speed measurement device.
- An MMA 7361 triple axis accelerometer from Freescale was used and mounted on a PCB with several external components. The vibration motor and accelerometer were mounted together. These were then mounted with a lOOg mass (sled).
- the device of the present invention comprises a single control panel PCB A, which includes a number of TACT switches and LED's.
- the control panel may be used to control the speed of the motors by varying the voltage supplied to the motors.
- the control panel may also control the time the motors run for and have pre-programmed functions that control the time for different motor speeds.
- Fig. 1 additionally, illustrates a control panel 15, removably engaged with strap 1, for convenient storage via clamp 8.
- Control panel 15 is a handheld device, which can work independently from the power grid using a grid- independent power supply, such as a battery.
- the control panel 15 may be made of any suitable plastic or metal known in the art.
- Control panel 15 may be fixedly or removably secured to strap 1 by any means known in the art.
- Fig. 5 illustrates a front perspective of the control panel 15, having a front control panel casing 40. Also illustrated, a wire port 41 connects a circuit board in the control panel 15 to the motors. Power control pad 42 turns the control panel 15 on or off.
- Program 1 control pad 43 is to select a pre-programmed schedule of voltage and time by which the vibrating motors will operate. Examples of such programs are provided below.
- Program 2 control pad 44 is to select an alternate pre-programmed schedule of voltage and time by which the vibrating motors will operate. Examples of such programs are provided below.
- a timing control pad 45 may provide a step-wise increase of the time the vibrating motor will operate.
- a timing button may be programmed to increase or decrease in any increment of time, such as seconds, minutes, hours and the like each time it is selected.
- Timing Magnitude Indicators 46 is a light feature to indicate the increase or decrease in increments of time.
- Speed control pad 47 is selected to increment Voltage each time it is selected. The increment in Voltage may either be an increase or decrease, the magnitude of which is indicated by the lighting on Speed Magnitude Indicators 48. Varying control features may be incorporated into a control panel for the present invention. LED readouts of which program is selected, the speed, timing and any other useful information for a user may be provided. Additional control buttons may be added, which may be specific to each motor, for instance to turn the power on an off for each motor independent of the others.
- buttons may be added for independent control of the speed, voltage, amplitude, frequency and time of Operation of each motor independent of the others.
- controls and selection buttons may be added for independent control of the speed, voltage, amplitude, frequency and time of Operation of each motor independent of the others.
- controls may be incorporated in the control panel to enhance the user experience for convenience and/or maximum health benefit.
- the buttons of the present invention may be made of any suitable material known in the art, and may include silicone and rubber.
- Fig. 6 illustrates a back perspective view of control panel 15, providing a back control panel casing 50 and view of charging port 51 for recharging a rechargeable battery in the control panel 15.
- Fig. 6 illustrates charging port 51 as a micro USB port, however any suitable charger and port used in the art may be used.
- Fig. 6 also indicates four screws 52, 53, 54, 55 by which the control panel is secured from the front panel to a back panel 56.
- Fig. 7 is an exploded view of control panel 15, having front control panel casing 40 comprising perforations 61, 62, 63, 64, 65 for receiving control pads 42, 43, 44, 45, 47 (not fully shown). Control pads 42, 43, 44, 45, 47 engage with and operate an electrical circuit board 70.
- Circuit board 70 is programmed with multiple programs to control the voltage, amplitude, frequency and times for which the vibrating motors will engage. Examples of such programs are below.
- the back of the circuit board 70 comprises wire connections for the electrical circuit to route through the wire port 41 to the positive and negative inputs of the vibrating motors.
- Pegs 81, 82 are used to mount the front control panel casing 40 to the back control panel casing 50.
- Fig. 7 also depicts a rechargeable battery 85, encased and enclosed within the control panel 15 by the back control panel casing 50.
- Rechargeable battery 85 may be any of those used in the industry, including but not limited to lithium sulfur, sodium ion, thin film lithium, zinc bromide, zinc cerium, vanadium redox, sodium-sulfur, molten salt, silver-zinc, Quantum Battery or any other suitable rechargeable battery.
- the control panel may be programmed with different variations in voltage and time to provide a user with varied options depending on their health needs. Programs may start the rotating motors for any length of time, but the best results have been seen with at least 10 minutes of use. Motors may be programmed to pulsate or provide intermittent stimulation of the diaphragm, of varying duration, throughout the day for a user that wears it throughout the day or night. Examples of programs selectable on the control panel are as follows: Program 1
- Other applications of the present invention may include patients suffering from lung cancer, lung surgery, cystic fibrosis, ADHS, cardiac intervention or infarct or pneumonia or ALS patients.
- Obese people may also benefit from the present invention since they may have a limited lung volume due to greater adipose tissue around the lungs, which reduces the bronchioles, limits lung capacity and increases the breathing rate, leading to fess oxygen intake.
- people with insomnia who have been treated with the device of the present invention have reported significantly longer and better quality sleep and report feeling refreshed the following day.
- ten patients with COPD were treated with the device of the present invention for fifteen minutes. After a single use of the belt, the lung volume of all ten patients significantly increased as indicated in the following chart.
- Another patient who used the belt of the present invention had consistent coughing and wheezing prior to using the belt.
- the patient reported a cessation of coughing and wheezing for three days after a single use of the belt for 15 minutes.
- the device of the present invention may also be used for monitoring specific vital functions.
- a display of vital functions can be integrated via an appropriate interface.
- An embodiment of the device has at least one interface that supports the exchange of information.
- the information can be present in the form of physical units (e.g., as electrical voltage, current strength) or logical variables (data), whereas the exchange can be analog or digital.
- the interface includes data interfaces (interfaces for data transmission in general), general interfaces, machine interfaces (interfaces between physical systems), hardware interfaces (interfaces between physical systems of computer technology), network interfaces (interfaces between network components), software interfaces (interfaces between programs) and / or user interfaces (interfaces between man and machine).
- Preferred interfaces include radio or infrared interface or wired interfaces (for example USB). Using the interface, a secure and fast connection can be established and information exchanged.
- the device may be connected to other devices for monitoring vital functions, allowing a check of the safe and efficient operation of the device. It may also be preferred that the information (e.g. data) is saved on a storage medium or is transmitted from a computer based system - a transmitter— to the recipient via a network-based transmission or a long distance data transmission.
- the transmission medium is preferably the telephone network, radio or light, whereby a rapid and secure transfer of information is possible.
- the device itself has a memory that can store the data, such as duration of use and rotation speed selected. The device may transfer the data to an external storage medium. The data can be advantageously used for the analysis of the application, thereby allowing optimization of the application.
- Fig 8a illustrates a perspective back view of a vibration pad 12 (14, 16) without main casing 6 and back casing 26.
- Fig 8b illustrates a sectional side view of the vibration pad 12 of Fig. 8b.
- the vibration pad incorporates damping features, such as a sponge, and isolates the vibration motor from main casing 6.
- the vibration pad 12 is designed to house the motor 20 and comprises a rectangular outer surrounding with rounded edges that is designed like a trough.
- flat side extensions are provided for mounting the vibration pad 12/24 to the strap 1 and the casing 6 as well as back casing 26 (compare Fig. 2).
- the extensions comprise each two slits 91 and a hole (partly shown in Fig. 8a) that are designed complementary to the extensions of the back casing 26 as well as the mounting means of the main casing 6 for secure engagement when the vibration module 5, 7, 9 is assembled.
- two tabs 87 are provided on both sides that extend approximately in parallel to one of the slits 91.
- the tabs 87 are provided for secure engagement of the motor housing 22 with the vibration pad 12/24.
- the motor housing 22 comprises on both its lower end sides slits complementary to the tabs 87 for a snap fit connection when passing the tabs 87.
- suitable adhesives e.g. silicone glue may be added on the mounting area to improve this connections.
- the motor housing 22 is further designed in a "u' ike shape, complementary to motor 20 for receiving and holding the motor 20.
- the motor 20 When the motor 20 is mounted via the motor housing 22 to the vibration pad 12/24 it is kept at a distance to the inner. surface of the vibration pad 12/24 such that the flywheel 28 can move within the casing 6 and back casing 26 freely without any contact to the casing 6 and back casing 26 (compare Fig. 8b). Further, the motor 20 comprises two connectors 95 extending from the end of the motor 20 opposite to the flywheel 28 for electrical connection with the control panel 15 via wires (not shown).
- the vibration pad 12 provides beneficial features, such as transmitting the vibration effects in a more focused and efficient manner than plastic casing due to the elastic support or mount of the motor 20 within the elastic motor housing 22.
- the elastic support of the motor 20 and flywheel 28 with respect to the casing 6 and back casing 26 allows for directing most of the generated vibrations to the user thereby increasing the efficiency of the stimulation device.
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Abstract
Description
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US201662336952P | 2016-05-16 | 2016-05-16 | |
PCT/EP2016/002196 WO2017198283A1 (en) | 2016-05-16 | 2016-12-30 | Stimulating device |
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DE102004009452B4 (en) * | 2003-09-03 | 2007-01-04 | Fides Finanz-Invest Gmbh & Co. Kg | Device for muscle stimulation |
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DE102004009452B4 (en) * | 2003-09-03 | 2007-01-04 | Fides Finanz-Invest Gmbh & Co. Kg | Device for muscle stimulation |
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