CN109925180A - Wearable bone loss convalescence device - Google Patents

Abstract

The present invention relates to the technical fields of rehabilitation equipment, disclose wearable bone loss convalescence device, comprising: shell is fixed to human body by wear structure, and offers opening on the end face being close to human body；High-frequency vibration generating device is placed in the shell；Hammer is tapped, the output end of the high-frequency vibration generating device is installed on, and is located at the opening and is connected to human body.Wearable bone loss convalescence device can be for the specific bone output vibration of human body, and go directly target bone site, carries out rehabilitation to target bone, and since the path of its Vibration propagation is short, vibration decaying is small, and avoids the risk that internal organ are caused with damage.

Description

Wearable bone loss convalescence device

Technical field

The present invention relates to the technical field of rehabilitation equipment more particularly to wearable bone loss convalescence device equipment.

Background technique

Osteoporosis (osteoporosis) is a kind of since systemic bone amount is reduced, bone tissue micro-structure changes, from And a kind of common systemic bone metabolic disease for causing bone brittleness to increase, easily fracturing, as a kind of worldwide epidemics Property disease, have the characteristics that disease incidence is high, the death rate is high.

In middle-aged and the old group, developing osteoporosis rate is located at first of 5 big diseases.It is estimated that there are about 200,000,000 people in the whole world Suffer from patients with osteoporosis, wherein China is up to 90,000,000.60 years old or more prevalences are 56%, and women disease incidence is 60- 70%, wherein incidence of fracture needs 15,000,000,000 yuan of RMB by most conservative estimation close to one third, annual medical expense.

Modern medicine believes that, the main reason for osteoporosis first is that bone stress loading is insufficient, it is therefore, exogenous to apply Osteoporosis can effectively be inhibited by adding the vibratory stimulation of some strength, frequency.

In application number: CN201310712802.0 applies for a kind of title: bone injury/sclerotin based on the low strong vibration of high frequency In the patent of invention of loose therapeutic bed, a kind of therapeutic bed by vibration therapy osteoporosis is disclosed, comprising: headrest, angle The components such as adjuster, control platform, motor, pressure sensor, foot pedal, fixed bandage.Patient lies down on the device bed, suffers from The foot's bottom plate and foot pedal of person keeps being in close contact, and foot pedal is contacted with one for generating the linear motor of vibration, passes through The drive of motor, foot pedal generate high-frequency, low intensive vibratory stimulation, pierce to apply exogenous vibration to whole body bone Swash.But the equipment volume is larger, can only generate systemic vibration, and after being transmitted to body by sole, dither effect substantially decays, Not only effect is not ideal enough, but also whole body vibration easily causes the Downside Risks such as visceral injury.In addition, this systemic vibration It is dynamic, directly target bone can not be carried out needing further to improve for Sex Rehabilitation according to treatment needs.

Summary of the invention

The purpose of the present invention is to provide wearable bone loss convalescence devices, it is intended to solve osteoporosis in the prior art Therapeutic equipment has the problems such as vibration decaying is big, can not implement rehabilitation for particular anatomy and have damage internal organ risk.

The invention is realized in this way providing wearable bone loss convalescence device, comprising: shell, it is solid by wear structure Determine to human body, and offers opening on the end face being close to human body；High-frequency vibration generating device is placed in the shell；It taps Hammer is installed on the output end of the high-frequency vibration generating device, and is located at the opening and is connected to human body.

Further, the shell includes rear cover, is covered after described equipped with cavity, and the opening is to be opened in the cavity Bottom and the through-hole for being connected to the shell cavity.

Further, the opening is a part of the cavity bottom.

Further, control host, power supply mould group, communication module group are installed, the high-frequency vibration occurs in the shell Device is electrically connected to the control host；The function button for being connected to the control host and display are installed outside the shell Screen, and it is connected to the power outlet of the power supply mould group.

Further, the display screen and the function button are installed on the upper surface of the shell.

Further, position-limited rack, the control host, the function button and the display screen are installed in the shell It is installed on the position-limited rack, and the shell upper end offers and passes through for the function button and the display screen and exposed Aperture.

It further, further include the cushion for being installed on the rear cover outer end face, the cushion section and the rear cover End surface shape is identical.

Further, percussion hammer is silica gel structure, and percussions face is spherical, and detachable is installed on the height The output end of frequency vibration generating device.

Further, the wear structure includes two bandages, and the one end of bandage is fixed on the housing side, the other end Equipped with the fixed structure for being fixed to each other.

Further, the fixed structure is velcro.

Compared with prior art, the wearable bone loss convalescence device in the present invention can be defeated for the specific bone of human body It vibrates out, go directly target bone site, carries out rehabilitation to target bone, and since the path of its Vibration propagation is short, vibration decaying is small, And avoid the risk that internal organ are caused with damage.

Detailed description of the invention

Fig. 1 is wearable bone loss convalescence device entirety perspective view of the explosion provided in an embodiment of the present invention；

Fig. 2 is rear cover structure schematic diagram provided in an embodiment of the present invention；

Fig. 3 is wearable bone loss convalescence device schematic internal view provided in an embodiment of the present invention；

Fig. 4 is internal structure perspective view of the explosion provided in an embodiment of the present invention.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

The realization of the present embodiment is described in detail below in conjunction with specific attached drawing, for the ease of narration, definition wearing Formula bone loss convalescence device and human contact are rear end face, and the face that user can directly observe after wearing is upper surface.

As shown in Figures 1 to 4, wearable bone loss convalescence device 1 is provided in the present embodiment, comprising: shell 11, high frequency Vibration generating arrangement 12 and percussion hammer 14.Wherein, shell 11 is fixed to the privileged site of human body by wear structure 16, with people The end face that body is close to offers opening 132.High-frequency vibration generating device 12 is located inside shell 11, and output end installation taps hammer 14, it taps hammer 14 and is located at the opening 132 of shell 11, can be abutted with human body.

Wearable bone loss convalescence device 1 is before use, that shell 11 is fixed on human body by wear structure 16 is specific On position, high-frequency vibration generating device 12 open after, output high-frequency vibration to tap hammer 14, tap hammer 14 pairs of human body positions into Row taps, and output is vibrated to human body.That is, wearable bone loss convalescence device 1 can be for the specific bone output vibration of human body Dynamic, go directly target bone site, carries out rehabilitation to target bone, and since the path of its Vibration propagation is short, vibration decaying is small, and Avoid the risk that internal organ are caused with damage.

In 2018, using the wearable bone loss convalescence device 1 in the present embodiment, it is with 40 45~75 years old crowds Research object observes clinical the imitating of vibration confrontation bone loss by applying the vibration in 30~50Hz frequency range to human body Fruit.Subject is divided into vibration group A1~A3 and control group B.All subjects selected in crowd below at 75 years old 45 years old or more It takes.It is anticipated that the disposal method of setting, a course for the treatment of is 3 months, carries out 5 vibration therapies weekly, treats 10min every time. Need to measure and record the blood pressure and heart rate of subject before and after treatment every time.It, will be to subject at the beginning and end of each course for the treatment of Person carries out the inspection of gainer and does detailed record.

In the preceding 1d and last 1d of experiment, bilateral femur, backbone L1~L4 are carried out to the subject of vibration group and control group Bone density, bone amount and whole body body composition analysis inspection.Check that equipment is DEXA bone mineral density detector (borne densitometers).

Bone density bone density change rate (%) see the table below after test group position test prebone density test:

To experiment front and back difference with group's check analysis whether there is significant difference, from table data we can send out Existing, the bone density of lumbar vertebrae and femur all has significant change before and after vibration experiment.Vibrate rehabilitation after, A1 group lumbar spine bmd averagely on 1.44% is risen, the bone density of left femur averagely rises 1.88%, and the bone density of right side femur averagely rises 1.76%； A2 group lumbar spine bmd averagely rises 1.17%, and the bone density of left femur averagely rises 1.55%, the bone of right side femur Density averagely rises 1.59%；A3 group lumbar spine bmd averagely rises 0.65%, and the bone density of left femur averagely rises 1.14%, the bone density of right side femur averagely rises 1.01%.Experimental data shows three different other vibration examinations of group It tests, confrontation bone loss has significant curative effect.

And control group subject does not receive vibration experiment, the life style for keeping oneself original is constant (not to be applied Additional remedy measures), bone density is all on a declining curve, and lumbar spine bmd averagely has dropped 0.91%, and the bone of left femur is close Degree averagely has dropped 0.85%, and the bone density of right side femur averagely has dropped 0.58%.

Experimental data shows that the effective percentage of vibration confrontation bone loss is greater than 80%, and with the increase at age, curative effect is brighter It is aobvious, and find no people in whole experiment process and significant discomfort reaction occur.

Bone loss studies have shown that bone shape and internal structure change depend on its by mechanical environment influenced, even Continuous, variation mechanical loading can be effectively facilitated the growth and development of bone.Vibration pressure on bone can be thin to skeletonization Born of the same parents issue signal, to promote bone to release the mineral crystal of enhancing sclerotin.The load of 5min30Hz is equivalent to every angel's bone 45000 additional dynamic strain is born, this numerical value is equivalent to 10 times of strain caused by one day normal activity, high-frequency load Provide the means that bone Strain Accumulation quicklys increase and improve bone as a result, enhancing metabolism.This height of daily 10min Frequency signal, it is sufficient to which signal needed for maintaining sclerotin is provided.

Thus, it will be seen that the wearable bone loss convalescence device 1 in the present embodiment, it can be targetedly to specific mesh It marks bone and carries out rehabilitation, and rehabilitation efficacy is obvious, can effectively treat osteoporosis.

As shown in Figures 1 to 4, the shell 11 in the present embodiment includes rear cover 13, has cavity in shell 11, and rear cover 13 is pacified Loaded on 11 rear end of shell and seal its cavity.Cavity 131 is equipped on rear cover 13, opening 132 is to be provided with 131 bottom of cavity And it is connected to the through-hole of 11 cavity of shell.It taps hammer 14 to be mounted on high-frequency vibration generating device 12, end passes through opening 132, it is placed in cavity 131.In other words, hammer 14 is tapped using the design of invaginating, is dressed in wearable bone loss convalescence device 1 To human body, the percussion hammer 14 of invaginating can reduce the constriction to human body surface, increase usage comfort.

As depicted in figs. 1 and 2, opening 132 is a part of 131 bottom of cavity.It is rectangular that the shape of cavity 131 is similar to one The union of body and a cylinder, wherein the diameter of cylinder is greater than the short side of cuboid, and the two is total to central axes.Cylinder is in cavity The projection of 131 bottoms i.e. opening 132.Correspondingly, tapping hammer 14 also is the structure of near cylindrical, and diameter is less than above-mentioned circle The diameter of column, can be flexible in the column part of cavity 131.Due to human body surface and non-fully plane and there is certain bullet Property, if cavity 131 have cylindrical part, will lead to the skin being tapped enters in opening 132, during use Since skin is tapped, 131 edge of cavity influences comfort level to skin compression repeatedly.And the scheme used in this implementation, circle Cylindricality is only a part of cavity 131, enters cavity 131 after the skin attachement of larger area, locally receives percussion, taps process In due to not receiving percussion directly with the skin of 131 EDGE CONTACT of cavity, 131 edge of cavity can't oppress skin repeatedly, Increase usage comfort.

As shown in Figure 3 and Figure 4, control host 113, power supply mould group, communication module group 116, high frequency are installed in shell 11 Vibration generating arrangement 12 is electrically connected to control host 113, wherein control host 113 is printed circuit board, is integrated with master control on plate CPU, storage medium, key circuit, display screen connect circuit, and the course of work of high-frequency vibration generating device 12 receives control host 113 control.The function button 112 and display screen 111 for being connected to control host 113, and connection are installed outside shell 11 To the power outlet 117 of power supply mould group.Control host 113 can be operated by function button 112, relevant work is set Make parameter and mode, and is shown on display screen 111.Power outlet 117 is preferably DC power supply socket, is used for input power pair Power supply mould group charges, and the lower end surface of shell 11 is arranged in, and specific structure does not repeat them here.Communications module 116 is for controlling master Machine 113 and PERCOM peripheral communication, such as upgrade-system, adjusting parameter etc. can pass through bluetooth, Wifi device and other external equipments (such as mobile terminal, computer) connection, and then (mobile terminal or can be such as mounted in mobile terminal by external equipment APP it) is controlled.It can also be appreciated that bluetooth, the specific structure of Wifi device and the principle of work and power are those skilled in the art Well known to member.

Preferably, display screen 111 and function button 112 are installed on the upper surface of shell 11, convenient for user in the mistake used Cheng Zhong operates wearable bone loss convalescence device 1, and knows that working condition, such as current health are supported by display screen 111 Mode, duration etc..It is additionally provided with switch button on the front end face of shell 11, controls the power supply of wearable bone loss convalescence device 1 Switch.

As shown in figure 4, top is equipped with position-limited rack 114 in shell 11, middle part is equipped with high-frequency vibration generating device 12, lower part is equipped with communications module 116.Wherein, installation control host 113 and display between 11 upper end of position-limited rack 114 and shell Shield 111, function button 112, and 11 upper end of shell offers the aperture passed through for function button 112 and display screen 111 115.Function button 112 in the present embodiment includes " M " key, "+" key and "-" key.High-frequency vibration generating device 12 is in this implementation It is specially high-frequency direct-current motor 12 in example, is buckled by screw and detent and be fixed on shell 11.The axis of high-frequency direct-current electromagnetic machine 12 Connection taps hammer 14, and the electrode connecting line of high-frequency direct-current electromagnetic machine 12 is connected to control host 113, by control host 113 It controls its electrode on-off, current strength, realizes that vibration frequency, amplitude dynamics are precisely controlled.It is easily understood that high-frequency direct-current Vibration frequency, amplitude, dynamics and the time dimension of electromagnetic machine 12 are all continuously adjustable control, it can are made a reservation in advance a variety of Operating mode, the attributes such as corresponding each specific vibration frequency, amplitude, dynamics and time dimension, can also be right in use Some attribute is adjusted.

It taps hammer 14 and is opened part for silica gel, using silica gel material, percussions face is spherical, can be improved and contacts with people Comfort.Preferably, it taps in the detachable installation to the output end of high-frequency vibration generating device 12 of hammer 14, is actually using In, multiple percussion hammers 14 with different length, hardness, size can be adapted to, to provide different beating effects.Such as using The fat of person is thicker, and the longer percussion hammer 14 of adapted length increases and taps recess；Certainly, if user's fat is relatively thin, adaptation The percussion hammer 14 that length is shorter, surface area is bigger, guarantees the comfort tapped.

Preferably, as shown in Figure 1, wearable bone loss convalescence device 1 further includes the buffering for being installed on 13 rear end face of rear cover Pad 15, cushion 15 are silica gel flexible structure, and section is identical with 13 end surface shape of rear cover.When in use, cushion 15 Between rear cover 13 and skin, it can be further reduced compressing of the wearable bone loss convalescence device 1 to skin, improved comfortable Sense.

Shown in as shown in Figure 1, Figure 3 and Figure 4, the wear structure 16 in the present embodiment includes two bandages 161, and 161 one end of bandage is solid Due to 11 or so end face of shell, the other end is equipped with the fixed structure for being fixed to each other.Specifically, it is installed inside shell 11 high Multiple positioning columns 118 are respectively arranged in the two sides of frequency direct solenoid motor 12, and one end of bandage 161 penetrates in shell 11, multiple positioning The end that column 118 passes through bandage 161 is fixed.Since the fixation of bandage 161 and shell 11 is located closer to rear cover 13, so that The wearable wearing of bone loss convalescence device 1 is more firm, and can be close to human body.

Preferably, bandage 161 is soft fabric, and fixed structure is velcro, can be according to the difference of human body, spirit The fixed position of adjustment living.In other examples, fixed structure may be buckle, by buckling the end of bandage 161 Portion is fixed to each other, in addition, buckle can be with external elongated strap, to adapt to the requirement of different building shape.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within principle.

Claims (10)

1. wearable bone loss convalescence device characterized by comprising

Shell is fixed to human body by wear structure, and offers opening on the end face being close to human body；

High-frequency vibration generating device is placed in the shell；

Hammer is tapped, the output end of the high-frequency vibration generating device is installed on, and is located at the opening and is connected to human body.

2. wearable bone loss convalescence device as described in claim 1, which is characterized in that the shell includes rear cover, described After cover equipped with cavity, the opening is is opened in the cavity bottom and is connected to the through-hole of the shell cavity.

3. wearable bone loss convalescence device as claimed in claim 2, which is characterized in that the opening is the cavity bottom A part.

4. wearable bone loss convalescence device as described in any one of claims 1 to 3, which is characterized in that peace in the shell Equipped with control host, power supply mould group, communication module group, the high-frequency vibration generating device is electrically connected to the control host；It is described The function button and display screen for being connected to the control host are installed outside shell, and are connected to the power supply of the power supply mould group Socket.

5. wearable bone loss convalescence device as claimed in claim 4, which is characterized in that the display screen and the function are pressed Key is installed on the upper surface of the shell.

6. wearable bone loss convalescence device as claimed in claim 5, which is characterized in that be equipped with limit in the shell Frame, the control host, the function button and the display screen are installed on the position-limited rack, and the shell upper end opens up Have and is passed through for the function button and the display screen and exposed aperture.

7. wearable bone loss convalescence device as described in any one of claims 1 to 3, which is characterized in that further include being installed on The cushion of the rear cover end face, the cushion section are identical with the rear cover end surface shape.

8. wearable bone loss convalescence device as described in any one of claims 1 to 3, which is characterized in that the percussion, which is hammered into shape, is Silica gel structure, percussion face are spherical, and the detachable output end for being installed on the high-frequency vibration generating device.

9. wearable bone loss convalescence device as described in any one of claims 1 to 3, which is characterized in that the wear structure Including two bandages, the one end of bandage is fixed on the housing side, and the other end is equipped with the fixed structure for being fixed to each other.

10. wearable bone loss convalescence device as claimed in claim 9, which is characterized in that the fixed structure is velcro.