CN101683264B - Weight and subcutaneous fat thickness measuring device - Google Patents
Weight and subcutaneous fat thickness measuring device Download PDFInfo
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- CN101683264B CN101683264B CN2009101793508A CN200910179350A CN101683264B CN 101683264 B CN101683264 B CN 101683264B CN 2009101793508 A CN2009101793508 A CN 2009101793508A CN 200910179350 A CN200910179350 A CN 200910179350A CN 101683264 B CN101683264 B CN 101683264B
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- subcutaneous fat
- fat thickness
- thickness measuring
- flexible wire
- weighing machine
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Abstract
The present invention provides a weight and subcutaneous fat thickness measuring device, comprising a weighing machine (1); a subcutaneous fat thickness measuring unit (2) having a measuring body for measuring the subcutaneous fat thickness; a flexible wire (7) for connecting the subcutaneous fat thickness measuring unit (2) and the weighing machine (1); a winding shaft for endowing force retracting to the winding direction to the flexible wire (7) and winding the flexible wire (7) in a pulling-out way; and a locking mechanism resisting the endowed force to lock the flexible wire (7) at the pulling-out position. Thereby, under the condition that the flexible wire is endowed with the force to the winding direction, the measuring body is not pulled to the direction bias to the measuring part.
Description
Technical field
The present invention relates to a kind of body weight and subcutaneous fat thickness measuring device.
Background technology
In the past, known have a kind of unitary health control guideline recommendation of impedance measuring unit all-in-one-piece subcutaneous fat thickness measuring device that is provided with and measures living body impedance (impedance) (open communique spy opens 2003-159227 number with reference to Japan Patent).
In addition, as weighing machine, a kind of device that is provided with the electrode of the living body impedance that is used to measure the foot that is stated from this weighing machine is arranged.
In addition, also have in the unitary operating main body of subcutaneous fat thickness measuring of a kind of measurement main body at measurement subcutaneous fat thickness dominated by hand with the measuring point that is pressed to the measured, be provided with the device of the electrode of the living body impedance that is used to measure the hands of controlling.
In this conventional art of the latter,, weighing machine and subcutaneous fat thickness measuring unit are electrically connected with flexible wire (flexible cord) for metrical information and the unitary metrical information of subcutaneous fat thickness measuring to weighing machine are carried out unified management etc.This flexible wire can be pulled out from spool (cord reel), but this flexible wire is possessed power to coiling direction withdrawal.
So, Yi Bian can with the hands control the unitary operating main body of subcutaneous fat thickness measuring, Yi Bian the power of opposing withdrawal and flexible wire is pulled out is carried out the living body impedance measurement of hands under this state, or the subcutaneous fat thickness measuring of abdominal part, huckle.
In this measuring device,, therefore, avoid flexible wire to take place to relax thereby preferably strain the power that flexible wire is endowed with opposing because when the livings body impedance of measuring hands, impedance will change if flexible wire is lax.In this case, when carrying out the subcutaneous fat thickness measuring of abdominal part, huckle, because available two-handed hand-held operating main body, therefore, can be with the measurement main body of measuring subcutaneous fat thickness correctly stable and not run-off the straight be pressed to the measuring point of the measured.
Yet, for example when measuring the subcutaneous fat thickness of upper arm, owing to must hold operating main body with a handgrip, i.e. one-handed performance, and will measure on the upper arm that main body is pressed to the opposite side arm, so measurement posture instability.And, because flexible wire is subjected to the spool effect, be endowed towards the power of coiling direction withdrawal, measure main body and under the effect of the power of the withdrawal of flexible wire, be the tendency that is drawn towards the direction that departs from upper arm (measuring point).Therefore, when measuring the subcutaneous fat thickness of upper arm etc., measure under the unsteady state breaking away from upper arm sometimes, have measurement error or the wrong problem of producing.
Summary of the invention
The object of the present invention is to provide a kind of body weight that can address the above problem and subcutaneous fat thickness measuring device.
Another object of the present invention is to provide a kind of body weight and subcutaneous fat thickness measuring device, be endowed under the state of the power that coiling direction is withdrawn, measure main body and also can not be drawn towards the direction that departs from the measuring point at flexible wire.
Body weight provided by the present invention and subcutaneous fat thickness measuring device comprise: weighing machine; The subcutaneous fat thickness measuring unit has measurement main body and the handle part that can measure subcutaneous fat thickness; The flexible wire that described subcutaneous fat thickness measuring unit is electrically connected with described weighing machine; Described flexible wire is given towards the power of coiling direction withdrawal and the spool of the described flexible wire of can reeling with pulling out; The power that opposing is endowed is locked in described flexible wire the locking mechanism of pull-out location; Be located at the unitary subcutaneous fat thickness measuring of described subcutaneous fat thickness measuring and begin switch, when described locking mechanism receives that described subcutaneous fat thickness measuring begins switch connection and during the control signal that produces, this locking mechanism is carried out lock operation.
According to the present invention, the power of measuring the withdrawal that main body can not be endowed because of flexible wire is drawn towards the direction that departs from the measuring point, therefore, can not produce error during measurement.
Description of drawings
Fig. 1 is the axonometric chart that takes off the state of hand unit (hand unit) from the weighing machine of embodiment of the present invention.
Fig. 2 is the axonometric chart of state that the hand unit is installed in the weighing machine of Fig. 1.
Fig. 3 (A) is the exploded perspective view of spool.
Fig. 3 (B) is the side sectional view after spool is simplified.
Fig. 4 (A) is the unitary face side axonometric chart of hand.
Fig. 4 (B) is the unitary rear side axonometric chart of hand.
Fig. 5 (A), (B) are respectively the vertical view of locking mechanism.
Fig. 6 (A) is the unitary front view of hand.
Fig. 6 (B) is the figure that is used to illustrate the measuring principle of subcutaneous fat thickness.
Fig. 7 (A) is the figure that measures the weighing machine when giving birth to the body impedance.
Fig. 7 (B) is the figure of the weighing machine when measuring the subcutaneous fat thickness of upper arm.
The specific embodiment
Below, with reference to accompanying drawing embodiments of the present invention are elaborated.
Fig. 1 and Fig. 2 represent an embodiment of body weight of the present invention and subcutaneous fat thickness measuring device.Fig. 1 takes off the body weight of state of hand unit (subcutaneous fat thickness measuring unit) 2 and the axonometric chart of subcutaneous fat thickness measuring device (being designated hereinafter simply as measuring device) from weighing machine 1, and Fig. 2 is the axonometric chart of measuring device that hand unit 2 is installed in the state of weighing machine 1.
This weighing machine 1 is respectively equipped with in the part of placing left and right sides foot and powers up electrode 3 and measurement electrode 4.Measuring device can power up the living body impedance of measuring foot between electrode 3 and the measurement electrode 4.Body fat (interior fat) rate based on the living body impedance of this foot can be shown in the display part 2A of hand unit 2.
Fig. 4 (A) is the axonometric chart of this unit 2 when face side is observed hand unit 2, and Fig. 4 (B) is the axonometric chart of this unit 2 when rear side is observed hand unit 2.Hand unit 2 is horizontal wide square shape, and an end of width is provided with handle part (handle) that left hand uses (grip) 10, and the other end is provided with the handle part (handle) 11 that the right hand is used.And hand unit 2 has integratedly with two handle parts, 10,11 interconnective links 12.
Each handle part (operating main body) 10,11 is roughly cylindric that people's whole hand can hold.In each handle part 10,11, on the position (position shown in the section lines among Fig. 4 (B)) that the finger tip tripe of forefinger, middle finger, the third finger and little finger of toe contacts, be provided with and power up electrode 5.In addition, in each handle part 10,11, on the position that contacts with the part by thumb one side of palm (position shown in the section lines among Fig. 4 (A)), be provided with measurement electrode 6.
The front of link 12 is provided with display part 2A such as the LCDs that can show body fat rate etc. and is arranged with data such as being used to import height, body weight, sex and carries out the operating portion 2B of the various switches 15 of various settings, operation indication.The detailed content of operating portion 2B has been shown among Fig. 6 (A) in addition.
The back side of link 12 is provided with the measurement section (measurement main body) 17 that subcutaneous fat thickness measuring is used.This measurement section 17 is provided with illuminating part 18 with the LED that sends the near infrared light about wavelength 850nm and a plurality of (in the present embodiment being 2) light accepting part 19A, the 19B that is provided with these illuminating part 18 interval predetermined distances.
Each distance of illuminating part 18 and light accepting part 19A, 19B is set to about 15 to 45mm, so that can carry out the measurement of human body subcutaneous fat thickness 0 to 60mm degree roughly.In addition, be provided with a plurality of light accepting part 19A, 19B in the present embodiment, the measured value by computing each light accepting part 19A, 19B poor, the pigment that can revise skin is poor.Thus, can carry out more high-precision measurement.
Fig. 6 (B) is the figure that is used to illustrate the measuring principle of subcutaneous fat thickness.From the infrared light that illuminating part 18 penetrates, inject among the epidermis M1.Because human body is a scattering object to near-infrared or visible light, infrared light scattering is also injected among the subcutaneous layer of fat M2.The infrared light of injecting among the subcutaneous layer of fat M2 continues scattering (scattering), diffusion (diffusion), and a part arrives Musclar layer M3.Musclar layer M3 blood, moisture is more and be made of muscle fiber, and under its influence, Musclar layer M3 absorbs infrared light morely.The infrared light of no show Musclar layer M3 diffusion in subcutaneous layer of fat M2 then takes place to propagate damply hardly.
Therefore, when subcutaneous layer of fat M2 was thicker, most of infrared light was not subjected to the influence of Musclar layer M3 and propagates undampedly, and when subcutaneous layer of fat M2 is thin, decayed owing to more infrared light arrives Musclar layer M3, and the light that arrives light accepting part 19A, 19B reduces.As a result, can measure the thickness of subcutaneous fat by detecting the light income of the received infrared light of light accepting part 19A, 19B.Method with infrared ray or ultrasonic measurement subcutaneous fat thickness is well-known, therefore, omits further instruction.
The flexible wire 7 that hand unit 2 and weighing machine 1 is electrically connected as shown in Figure 3, can be reeled and can be wound on the spool of being located in the weighing machine 1 (cord reel) 26 with pulling out.
Spool 26 possesses spool shell (reel case) 27,28.In this reel cartridge 27,28, be formed with the space that to take in flexible wire 7.The first box parts 27 of formation reel cartridge 27,28 and the second box parts 28 are up and down, and posture is assembled in the weighing machine 1.In reel cartridge 27,28, take in the spool 29 of coiling flexible wire 7 rotationally, at the upper side position of this spool 29, take in as the disc spring (osmunda spring) 30 that presses member.Spool 29 under the effect of disc spring 30, is endowed with respect to reel cartridge 27,28 and has power towards the coiling direction a of flexible wire 7 (with reference to Fig. 5 (A)).Flexible wire 7 can be by straining its direction towards the power that is endowed of opposing coiling direction a and pull out to pull-out direction b (with reference to Fig. 5 (A)) from reel cartridge 27,28.
The bottom of spool 29 is formed with and spool 29 concentric lock gear (lock gear) 31.Shown in Fig. 5 (A), be provided with the securing rod (lock lever) 32 that can engage in the reel cartridge 27,28 with a tooth portion of lock gear 31.Securing rod 32 can and be recessed latched position and removes between the releasing position that engages with tooth portion and change posture in the latched position that engages with tooth portion.
Under securing rod 32 was fastened on lock-out state on the lock gear 31, spool 29 was locked, both can't also can't rotate to pull-out direction b to coiling direction a.
Securing rod 32 is positioned under the effect of electric magnet 33 usually and removes position (double dot dash line).Thereby spool 29 is in disarm state usually, both can also can rotate to pull-out direction b to coiling direction a, if do not stretch flexible wire 7 (hand unit 2), flexible wire 7 just is in the state that is drawn in the spool shell 27,28.
Have subcutaneous fat thickness measuring and the measuring device of giving birth to body impedance measurement function concurrently in use, measure under the situation of living body impedance, shown in Fig. 7 (A), hand unit 2 is taken off from weighing machine 1, the measured station is to weighing machine 1.In hand unit 2, import height, sex, age of the measured etc. in advance.In addition, body weight is measured automatically by weighing machine 1, need not input.
Then, the measured is with the hands controlled the handle part 10,11 of hand unit 2, pulls out the flexible wire 7 that is endowed towards the power of coiling direction a withdrawal the spool 26 in weighing machine 1, and keeps hand unit 2 under with the state of arms stretching.
When the body impedance was given birth in measurement, impedances will change because in a single day flexible wire 7 relaxes, so the power that allows flexible wire 7 resist withdrawal is tension, in order to avoid flexible wire 7 takes place to relax.
So, the body fat rate based on the living body impedance of hands and foot that body weight, each electrode 3 to 6 of being measured by weighing machine 1 measured as mentioned above, is presented at the display part 2A of hand unit 2.
When measuring the thickness of subcutaneous fat, when especially measuring the subcutaneous fat thickness of abdominal part or huckle, because handle part 10,11 that can two-handed hand-held hand unit 2, even pull out under the state of flexible wire 7 in the power of resisting withdrawal, also can correctly the measurement section 17 of measuring subcutaneous fat thickness be pressed to the measuring point of the measured.
In contrast to this, shown in Fig. 7 (B), when measuring the subcutaneous fat thickness of upper arm M4, owing to must for example only control hand unit 2 with right hand one-handed performance, and hand unit 2 is pressed on the upper arm M4 of left arm, so be in unsettled measurement posture.And because flexible wire 7 is endowed power towards coiling direction a at spool 26, there is the tendency that is drawn towards the direction that departs from upper arm M4 in hand unit 2, therefore has the probability of measuring under the quick condition that breaks away from upper arm M4.In addition, when only measuring subcutaneous fat thickness, there is no need shown in Fig. 7 (B), to stand on the weighing machine 1.
At this, for example, when the subcutaneous fat thickness of the upper arm M4 that measures the measured, under the state of the flexible wire 7 of from spool 26, pulling out necessary length, the subcutaneous fat thickness measuring of connecting " upper arm " usefulness of hand unit 2 begins switch 15a (with reference to Fig. 6 (A)), locking flexible wire 7.That is, securing rod 32 shakes to latched position under the effect of electric magnet 33, engages with lock gear 31.Thus, spool 29 is locked, both can't also can't rotate to pull-out direction b to coiling direction a.
That is, can resist the power of withdrawal and flexible wire 7 is locked on the position of pulling out.Thereby, be one-handed performance and control hand unit 2 only, and when hand unit 2 was pressed to the upper arm M4 of left arm, hand unit 2 can not be drawn towards the direction that departs from upper arm M4 with the right hand.Thus, because hand unit 2 can not measured under the quick condition that breaks away from upper arm M4, therefore, can make measurement error be difficult to produce.Especially, receive with light accepting part 19A, 19B under the situation of measuring device of type of infrared light of illuminating part 18, the influence of the leakage of the sneaking into of exterior light, irradiates light that illuminating part 18 sends Min. can be reduced to, high-precision subcutaneous fat thickness measuring can be realized simply.
So, the subcutaneous fat thickness by hand unit 2 is measured as mentioned above, is presented at the display part 2A of hand unit 2.
Though in the above-described embodiment, shown in Fig. 5 (A), adopted the lock gear 31 with respect to gear-like, the structure that securing rod 32 is shaken between latched position and releasing position is not limited in this.
For example, shown in Fig. 5 (B),, can be located on latched position, on the other hand, can it be shaken to removing the position by electric magnet 33 by pressing securing rod 32 as the spring 35 that presses member with respect to the lock gear 31 of ratchet (ratchet) shape.Like this, according to the function of ratchet, flexible wire 7 can freely be pulled out to pull-out direction b usually, on the other hand, if stop to pull out, then can automatically lock to coiling direction a.That is,, also can pull out flexible wire 7 even be positioned at securing rod 32 under the lock-out state on the position (latched position) of coiling of locking flexible wire 7.So, on pull-out direction, do not lock flexible wire 7, even when measuring, can carry out pulling out of flexible wire 7 yet.
In the above-described embodiment, the subcutaneous fat thickness measuring that hand unit 2 is provided with " upper arm " usefulness begins switch 15a, and the measured one is connected this and measured beginning switch 15a, and flexible wire 7 just can automatically be locked on the pull-out location.But be not limited to this structure.For example, the subcutaneous fat thickness measuring of " upper arm " usefulness begins switch 15a, also can be arranged on the weighing machine 1.In addition, subcutaneous fat thickness measuring begins switch, is not limited to " upper arm " usefulness, also can be other (for example, abdominal part, thighs etc.) and measures the beginning switch.
In addition, on hand unit 2 or the weighing machine 1, also the switch that securing rod 32 is locked, removes operation can be set in addition.By console switch is operated, can allow securing rod 32 between latched position and releasing position, switch.At this moment, can only when the measured has been operated console switch, flexible wire 7 be locked on the pull-out location.
Above-mentioned embodiment, owing to be provided with the electrode 5,6 of the living body impedance that is used to measure the hands of holding handle part in hand unit 2, and be provided with the electrode 3,4 that is used to measure the living body impedance that is stated from the foot on this weighing machine 1 at weighing machine 1, therefore also can by the Weak current that flows through between brothers the living body impedance between brothers be measured with the hand unit 2 of measuring subcutaneous fat thickness.As a result, can be used for the body fat rate measures and subcutaneous fat thickness measuring.
(summary of embodiment)
Above-mentioned embodiment is summarized as follows.
(1) in the above-mentioned embodiment, for example, when the subcutaneous fat thickness of the upper arm of measuring the measured etc., available locking mechanism, the position of pulling out flexible wire in the power of opposing withdrawal locks flexible wire.Thereby, be that one-handed performance is controlled operating main body at a hands, and will measure upper arm (measuring point) that main body is pressed to the opposite side arm and go up the time, measure main body and can not be drawn towards the direction that departs from the measuring point because of the power of the withdrawal of flexible wire.Thus, can not measure breaking away under the quick condition of upper arm etc. owing to measure main body, therefore, its measurement can not produce error.
(2) in described subcutaneous fat thickness measuring unit or the described weighing machine, can be provided with the console switch that described locking mechanism is locked, removes operation.Adopt described structure, can when the measured has been operated console switch, flexible wire be locked on the pull-out location.Thereby, the switching that can lock and remove according to the intention of the measured.
(3) in described subcutaneous fat thickness measuring unit or the described weighing machine,, can when this subcutaneous fat thickness measuring begins switch connection, described locking mechanism be conducted the locking operations when being provided with under the situation that subcutaneous fat thickness measuring begins switch.Adopt described structure, can when the measured is connected subcutaneous fat thickness measuring and begun switch, automatically on the pull-out location, lock flexible wire.Thereby, need not conduct the locking operations by the measured.
(4) described locking mechanism locks the coiling of described flexible wire and pulls out described flexible wire under lock-out state.Adopt described structure,, therefore, can carry out pulling out of flexible wire usually on the pull-out direction of flexible wire because locking mechanism will not lock.
(5) in the described subcutaneous fat thickness measuring unit, the electrode of the living body impedance of the hands of holding handle part can be provided for measuring, in the described weighing machine, the electrode of the living body impedance of the foot that is stated from this weighing machine can be provided for measuring.Adopt described structure, available subcutaneous fat thickness measuring unit by at the Weak current that flows through between trick the living body impedance between trick being measured, can be used for the body fat rate and measure and subcutaneous fat thickness measuring.
(6) the unitary described measurement main body of described subcutaneous fat thickness measuring can comprise the raised line that is provided with illuminating part and light accepting part, the measuring point of described raised line pushing the measured.Adopt described structure, the influence of the leakage of the sneaking into of exterior light, irradiates light that illuminating part sends can be reduced to Min., can realize high-precision subcutaneous fat thickness measuring simply.
Claims (4)
1. body weight and subcutaneous fat thickness measuring device is characterized in that comprising:
Weighing machine;
Have the measurement main body that to measure subcutaneous fat thickness and the subcutaneous fat thickness measuring unit of handle part;
The flexible wire that described subcutaneous fat thickness measuring unit is electrically connected with described weighing machine;
Described flexible wire is given towards the power of coiling direction withdrawal and the spool of the described flexible wire of can reeling with pulling out;
The power that opposing is endowed is locked in described flexible wire the locking mechanism of pull-out location;
Be located at the unitary subcutaneous fat thickness measuring of described subcutaneous fat thickness measuring and begin switch,
When described locking mechanism receives that described subcutaneous fat thickness measuring begins switch connection and during the control signal that produces, this locking mechanism is carried out lock operation.
2. body weight according to claim 1 and subcutaneous fat thickness measuring device is characterized in that: described locking mechanism at lock-out state, locks the coiling of described flexible wire and described flexible wire can be pulled out.
3. body weight according to claim 1 and subcutaneous fat thickness measuring device is characterized in that:
Described subcutaneous fat thickness measuring unit is provided with the electrode of the living body impedance that is used to measure the hands of holding handle part;
Described weighing machine is provided with the electrode of the living body impedance that is used to measure the foot that is stated from this weighing machine.
4. body weight according to claim 1 and subcutaneous fat thickness measuring device is characterized in that: the unitary described measurement main body of described subcutaneous fat thickness measuring comprises the raised line that is provided with illuminating part and light accepting part, the measuring point of this raised line pushing the measured.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2008245706A JP4636152B2 (en) | 2008-09-25 | 2008-09-25 | Scale with a subcutaneous fat thickness measurement unit |
JP2008-245706 | 2008-09-25 | ||
JP2008245706 | 2008-09-25 |
Publications (2)
Publication Number | Publication Date |
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CN101683264A CN101683264A (en) | 2010-03-31 |
CN101683264B true CN101683264B (en) | 2011-09-14 |
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CN2009101793508A Expired - Fee Related CN101683264B (en) | 2008-09-25 | 2009-09-25 | Weight and subcutaneous fat thickness measuring device |
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JP (1) | JP4636152B2 (en) |
CN (1) | CN101683264B (en) |
HK (1) | HK1139295A1 (en) |
Families Citing this family (6)
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KR200464930Y1 (en) * | 2010-05-18 | 2013-01-24 | 주식회사 카스 | The electronic balance where the crisis style indicator is affixed |
JP5081281B2 (en) * | 2010-07-16 | 2012-11-28 | パナソニック株式会社 | Biological information measuring device |
CN103162783A (en) * | 2013-03-21 | 2013-06-19 | 无锡市崇安区科技创业服务中心 | Weighing scale |
CN105486393A (en) * | 2016-01-20 | 2016-04-13 | 惠州市开蒙实业有限公司 | Body fat weigher |
CN106297516A (en) * | 2016-09-28 | 2017-01-04 | 深圳先进技术研究院 | A kind of lipids detection modeling method and device |
CN109060097A (en) * | 2018-08-17 | 2018-12-21 | 合肥昌燎科技有限公司 | A kind of electronic platform scale |
Citations (3)
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CN1762298A (en) * | 2004-10-21 | 2006-04-26 | 左舜文 | Multifunctional device for measuring physiological parameter |
CN101088458A (en) * | 2006-06-15 | 2007-12-19 | 松下电工株式会社 | Body composing meter |
CN201080393Y (en) * | 2007-07-12 | 2008-07-02 | 黄耀贤 | A automatic winding box |
Family Cites Families (1)
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JP2003070762A (en) * | 2001-09-07 | 2003-03-11 | Omron Corp | Health management index advising device |
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2009
- 2009-09-25 CN CN2009101793508A patent/CN101683264B/en not_active Expired - Fee Related
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1762298A (en) * | 2004-10-21 | 2006-04-26 | 左舜文 | Multifunctional device for measuring physiological parameter |
CN101088458A (en) * | 2006-06-15 | 2007-12-19 | 松下电工株式会社 | Body composing meter |
CN201080393Y (en) * | 2007-07-12 | 2008-07-02 | 黄耀贤 | A automatic winding box |
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CN101683264A (en) | 2010-03-31 |
HK1139295A1 (en) | 2010-09-17 |
JP2010075341A (en) | 2010-04-08 |
JP4636152B2 (en) | 2011-02-23 |
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