CN108478226A - A kind of bicipital muscle of arm maximum muscle force detection device - Google Patents

Abstract

The present invention provides a kind of bicipital muscle of arm maximum muscle force detection devices, are related to detection device technical field, have filled up the blank of bicipital muscle of arm muscular strength detection device.The device includes holder, is provided on holder and sets hand-held board, fixed pulley and steel wire rope, and the first end of steel wire rope is disposed in proximity to set at hand-held board, and the second end of steel wire rope is connected with pulling force sensor around fixed pulley；There is angle α between plane where setting the upside of hand-held board and holder.Large arm is placed in the upside of holder when use, forearm is placed on hand-held board, by the first end for pulling steel wire rope, power is transferred to via fixed pulley change on the pulling force sensor for the second end for being connected to steel wire rope backward, the muscular strength for detecting the bicipital muscle of arm has filled up the blank of bicipital muscle of arm muscular strength detection device in the prior art.

Description

A kind of bicipital muscle of arm maximum muscle force detection device

Technical field

The present invention relates to detection device technical fields, more particularly, to a kind of bicipital muscle of arm maximum muscle force detection device.

Background technology

The bicipital muscle of arm is located on front side of upper arm, and whole flesh is in fusiformis.The bicipital muscle of arm has long and short two, therefore named.

Long head arises from shoulder blade supraglenoid tuberosity, and brachycephaly arises from that processus coracoideus is long, and short two are converged in the middle part of humerus for flesh Abdomen, comes downwards to humerus lower end, and integrated tendon terminates in tuberositas radii and forearm tendon film.When close fixed, the bicipital muscle of arm makes forearm exist Elbow joint is bent and rotation is outer, and upper arm is made to be bent at shoulder joint；When remote fixed, the bicipital muscle of arm makes upper arm forward arm draw close.Effect：It bends Shoulder bends elbow and makes forearm supinated.When the bicipital muscle of arm is shunk, make elbow joint buckling；When bicipital muscle of arm diastole, elbow joint is made to stretch Exhibition or forearm are sagging.The tension of the bicipital muscle of arm is maximum at 120 degree.

With the development of national physique health screening, it would be desirable to which more detection devices monitor the physique of the nation people. Applicants have discovered that at least there is following technical problem in the prior art：

Since existing upper limbs force detection device is based on gripe dynamometer, common muscle cannot be detected --- the bicipital muscle of arm The muscular strength detection of muscular strength, the bicipital muscle of arm is in blank.

Invention content

The purpose of the present invention is to provide a kind of bicipital muscle of arm maximum muscle force detection devices, do not have the upper arm to solve the prior art Biceps muscular strength detects the technical issues of special equipment.Optimal technical scheme institute energy in many technical solutions provided by the invention The many technique effects elaboration as detailed below generated.

To achieve the above object, the present invention provides following technical schemes：

A kind of bicipital muscle of arm maximum muscle force detection device provided by the invention, including holder are provided on the holder and set Hand-held board, fixed pulley and steel wire rope, the first end of the steel wire rope be disposed in proximity to it is described set at hand-held board, the steel wire rope Second end is connected with pulling force sensor around the fixed pulley；

There is angle α between plane where the upside for setting hand-held board and the holder.

Optionally, the range of the angle α is at 115 °~125 °.

Optionally, the first end of the steel wire rope is removably connected with handle.

Optionally, further include pulley blocks, the pulley blocks are set on the holder, and positioned at the fixed pulley with it is described Between handle, the first end is disposed in proximity to described set at hand-held board after being adjusted into line direction via the pulley blocks.

Optionally, the pulling force sensor is electrically connected with digital displaying meter, and the digital displaying meter can show and record described The measurement data of pulling force sensor.

Optionally, further include regulating device, the fixed pulley is fixed on by the regulating device on the holder, described Regulating device can adjust the fixed pulley and the air line distance set between hand-held board.

Optionally, the regulating device includes outer guide, interior guide rail and resilient pin, one end of the interior guide rail with it is described Fixed pulley is connected, and the other end of the interior guide rail is slidably set in the sliding slot of the outer guide, is opened up on the outer guide There are at least two outer location holes, interior location hole is offered on the interior guide rail, the resilient pin passes through any outer positioning Hole is set in the interior location hole.

Optionally, it is equipped with rubber ball on the steel wire rope of the handle.

Optionally, the front view of the holder is right angled triangle, and the bevel edge of the right angled triangle is the holder Upside.

Optionally, the height of the holder is 1m.

Large arm is placed in the upside of holder by a kind of bicipital muscle of arm maximum muscle force detection device provided by the invention, when use, Forearm is placed on hand-held board, by pulling the first end of steel wire rope, power is transferred to the second end for being connected to steel wire rope On pulling force sensor, detect that common muscle --- the muscular strength of the bicipital muscle of arm has filled up the muscular strength of the bicipital muscle of arm in the prior art The blank of detection device.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 is a kind of structural schematic diagram of bicipital muscle of arm maximum muscle force detection device of the present invention；

Fig. 2 is a kind of main structure diagram of bicipital muscle of arm maximum muscle force detection device；

Fig. 3 is regulating device and the attachment structure schematic diagram of fixed pulley.

1, holder in figure；2, hand-held board is set；3, fixed pulley；4, steel wire rope；5, pulling force sensor；6, handle；7, pulley blocks； 8, digital displaying meter；9, regulating device；91, outer guide；911, outer location hole；92, interior guide rail；921, interior location hole；93, elasticity is inserted Pin；10, rubber ball.

Specific implementation mode

To make the object, technical solutions and advantages of the present invention clearer, technical scheme of the present invention will be carried out below Detailed description.Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art are obtained all without making creative work Other embodiment belongs to the range that the present invention is protected.

As shown in Figure 1 to Figure 3, the present invention provides a kind of bicipital muscle of arm maximum muscle force detection device, including holder 1, branch It is provided on frame 1 and sets hand-held board 2, fixed pulley 3 and steel wire rope 4, the first end of steel wire rope 4 is disposed in proximity to set at hand-held board 2, steel The second end of cord 4 is connected with pulling force sensor 5 around fixed pulley 3；

There is angle α between plane where setting the upside of hand-held board 2 and holder 1.

Large arm is placed in the upside of holder 1 when use, forearm is placed on hand-held board 2, by pull steel wire rope 4 the One end, power are transferred to via the change of fixed pulley 3 on the pulling force sensor 5 for the second end for being connected to steel wire rope 4 backward, detect the upper arm two The muscular strength of head flesh, has filled up the blank of bicipital muscle of arm muscular strength detection device in the prior art.

Optionally embodiment, the range of angle α is at 115 °~125 °.

The tension of the bicipital muscle of arm is maximum at 120 degree, plane and placement forearm where placing 1 upside of holder of large arm The range setting of the angle α between hand-held board 2 is set at 115 °~125 °, arm fine tuning firmly can measure maximum muscle force.

Optionally embodiment, angle α are set as 120 °.Angle α is set as 120 °, being capable of directly measurement arm The muscular strength of curvature bicipital muscle of arm at 120 °, it is convenient and efficient.

The first end of optionally embodiment, steel wire rope 4 is removably connected with handle 6.

The first end of steel wire rope 4 is detachably connected with handle 6, and gripping is facilitated to exert oneself, and detachable setting, is convenient for Adjustment and maintenance.

Optionally embodiment further includes pulley blocks 7, and pulley blocks 7 are set on holder 1, and positioned at fixed pulley 3 with Between handle 6, first end is disposed in proximity to set at hand-held board 2 after adjusting into line direction via pulley blocks 7.

The first end of steel wire rope 4 is more convenient to adjust arm curvature and firmly side after carrying out directional trim section via pulley blocks 7 To measure maximum muscle force of the arm curvature at 120 degree.

Optionally embodiment, pulling force sensor 5 are electrically connected with digital displaying meter 8, and digital displaying meter 8 can show and remember Record the measurement data of pulling force sensor 5.

In order to facilitate recording and check, pulling force sensor 5 is electrically connected with digital displaying meter 8, people can easily read and Observe muscular strength size.

Optionally embodiment further includes regulating device 9, and fixed pulley 3 is fixed on by regulating device 9 on holder 1, Regulating device 9 can adjust fixed pulley 3 and set the air line distance between hand-held board 2.

Fixed pulley 3 is adjusted with regulating device 9 and sets the air line distance between hand-held board 2, to adapt to different brachium gaugers Needs.

Optionally embodiment, regulating device 9 include outer guide 91, interior guide rail 92 and resilient pin 93, interior guide rail 92 one end is connected with fixed pulley 3, and the other end of interior guide rail 92 is slidably set in the sliding slot of outer guide 91, on outer guide 91 At least two outer location holes 911 are offered, interior location hole 921 are offered on interior guide rail 92, it is any outer fixed that resilient pin 93 passes through Position hole 911 is set in interior location hole 921.

Adjust fixed pulley 3 with the interior guide rail 92 being slidably arranged and outer guide 91 and set straight line between hand-held board 2 away from From, it is fixed with the limit of resilient pin 93 after regulating, it is convenient and efficient.

Optionally embodiment is equipped with rubber ball 10 on the steel wire rope 4 of handle 6.

Be equipped with rubber ball 10 on the steel wire rope 4 of handle 6, rubber ball 10 be located at handle 6 and pulley blocks 7 it Between, cushioning effect can be played, prevents the first end of steel wire rope 4 or handle 6 from twisting in pulley blocks 7.

The front view of optionally embodiment, holder 1 is right angled triangle, and the bevel edge of right angled triangle is holder 1 upside.Fig. 2 gives the main structure diagram of bicipital muscle of arm maximum muscle force detection device.

The front view of holder 1 is right angled triangle, meets Human biology feature, is exerted a force convenient for gauger, to measure The maximum muscle force of the bicipital muscle of arm.

The height of optionally embodiment, holder 1 is 1m.

The height of holder 1 is 1m, and Regular Human's physilogical characteristics, measurement process is more comfortable, is also more convenient force detection.

1 near end of A-frame is provided with adjustable interior guide rail 92 and outer guide 91, and interior guide rail 92 is equipped with fixed pulley 3, the top of fixed pulley 3 is fixed with pulling force sensor 5 and digital displaying meter 8, and pulley blocks are equipped at the middle part of the bevel edge of A-frame 1 7, direction of pull can be adjusted by pulley blocks 7, the maximum muscle force generated to detect arm curvature at 120 degree.

Be placed in the top of the bevel edge of A-frame 1 set hand-held board 2 there are one meet athletic physiology requirement maximum flesh The bending of power detection angles so that humerus olecranon portion can comfortably be placed in this angle, and ensure that angle meets generation maximum muscle force Line of muscular pulling force (set 2 bending angle of hand-held board be 120 degree).

Pulley blocks 7 are fixed on holder 1, and the steel wire rope 4 of specific length enters from the top of the inner pulley A of pulley blocks 7, The lower part of inner pulley B through pulley blocks 7 is laid out.

The steel wire rope 4 of specific length is equipped with rubber ball 10 at handle 6.

Interior guide rail 92 can slide in outer guide 91, and two-stage adjustable elastic is equipped between interior guide rail 92 and outer guide 91 Bolt 93, jack position obtain by Human physiology feature calculation, straight between hand-held board 2 to adjust stand oil wheel and set Linear distance, to adapt to the crowd of different forearms.

As shown in Figure 1,1 near end of A-frame, which is provided with, is adjusted interior guide rail 92 and outer guide 91, the one of interior guide rail 92 End is fixed with fixed pulley 3, and the second end of fixed pulley 3 is connected with pulling force sensor 5, and 5 electric signal of pulling force sensor is connected with digital display The bevel edge middle part of instrument 8, A-frame 1 is equipped with pulley blocks 7,7 energy fine adjustment direction of pull of pulley blocks, more easily to detect The maximum muscle force that arm curvature is generated at 120 degree.The second end of steel wire rope 4 is connected on pulling force sensor 5, through fixed pulley 3 Change trend, after continuing on through the progress directional trim of pulley blocks 7, the first end of steel wire rope 4 passes through rubber ball 10 to be cut with scissors with handle 6 It connects.

When operation, upper arm is placed on hand-held board 2, and pallet bending part is close in olecranon portion, is held handle 6 and is pulled fixed length The steel wire rope 4 of degree, carries out the isometric contraction of the bicipital muscle of arm.Pulling force sensor 5 records each delta data, when tension reaches most Greatly, the display of digital displaying meter 8 record peak value, is denoted as the maximum muscle force of the bicipital muscle of arm.

When user's height is excessively high, when forearm is long, adjusting resilient pin 93 is inserted into a location hole on the lower fixed Interior guide rail 92 and outer guide 91, pulley blocks 7 and distance becomes far, to adapt to long-armed tester between setting hand-held board 2.

Multiple, and each pair of adjacent interior location hole can be arranged in the quantity of outer location hole 911 and the quantity of interior location hole 921 921 and the spacing of each pair of adjacent outer location hole 911 be all based on human physilogical characteristic by being calculated.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (10)

1. a kind of bicipital muscle of arm maximum muscle force detection device, which is characterized in that including holder, be provided on the holder and set hand rest Plate, fixed pulley and steel wire rope, the first end of the steel wire rope be disposed in proximity to it is described set at hand-held board, the second of the steel wire rope End is connected with pulling force sensor around the fixed pulley；

There is angle α between plane where the upside for setting hand-held board and the holder.

2. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 1, which is characterized in that the angle α Range is at 115 °~125 °.

3. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 2, which is characterized in that the steel wire rope First end is removably connected with handle.

4. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 3, which is characterized in that further include pulley Group, the pulley blocks are set on the holder, and between the fixed pulley and the handle, and the first end is via institute It states and is disposed in proximity to described set at hand-held board after pulley blocks are adjusted into line direction.

5. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 4, which is characterized in that the pull sensing Device is electrically connected with digital displaying meter, and the digital displaying meter can show and record the measurement data of the pulling force sensor.

6. according to a kind of bicipital muscle of arm maximum muscle force detection device of claim 1-5 any one of them, which is characterized in that also wrap Regulating device is included, the fixed pulley is fixed on by the regulating device on the holder, and the regulating device can adjust institute State fixed pulley and the air line distance set between hand-held board.

7. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 6, which is characterized in that the regulating device Including outer guide, interior guide rail and resilient pin, one end of the interior guide rail is connected with the fixed pulley, the interior guide rail it is another End is slidably set in the sliding slot of the outer guide, offers at least two outer location holes on the outer guide, described interior to lead Interior location hole is offered on rail, the resilient pin is set to across any outer location hole in the interior location hole.

8. according to a kind of bicipital muscle of arm maximum muscle force detection device of claim 3-5 any one of them, which is characterized in that close It is equipped with rubber ball on the steel wire rope of the handle.

9. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 1, which is characterized in that the master of the holder View is right angled triangle, and the upside that the bevel edge of the right angled triangle is the holder.

10. a kind of bicipital muscle of arm maximum muscle force detection device according to claim 1, which is characterized in that the holder Height is 1m.