CN201912743U - Vibration equal-length multi-angle chest-leg combined strength-training and monitoring device - Google Patents

Abstract

The utility model relates to a vibration equal-length multi-angle chest-leg combined strength-training and monitoring device, which relates to a chest-leg combined strength-training and monitoring device and aims at the problem that specialized strength training, such as wrestling, throwing and the like is lack of vibration equal-length multi-angle chest-leg combined strength exercising and monitoring means. Both ends of a supporting upright post are fixedly connected with a vibration device and an upper supporting crossbeam, a first speed-regulating motor is fixedly connected with the upper supporting crossbeam, power is transferred to a corresponding gear-installing shaft by the first speed-regulating motor through a gear-driven pair, the gear-installing shaft is rotatably connected with a boss of a lower supporting crossbeam, a resistance gauge is pushed against the gear-installing shaft, a lower shaft sleeve is rotatably connected with the gear-installing shaft, an obliquely-bent connecting rod is fixedly connected with the lower shaft sleeve and a connecting sleeve, the obliquely-bent connecting rod is connected with a circular-arc plate, a handle is rotatably connected with the connecting sleeve, a hydraulic cylinder and an oil pump are fixedly installed on a backing plate, the backing plate is arranged on an upper panel of the vibration device, the hydraulic cylinder is fixedly connected with a back strap through a tension sensor, and a pressure sensor is fixedly installed on the handle. The vibration equal-length multi-angle chest-leg combined strength-training and monitoring device provided by the utility model is used for chest-leg combined equal-length strength training.

Description

Vibrate isometric multi-angle chest leg combination strength building and supervising device

Technical field

The utility model relates to a kind of chest leg combination strength building and supervising device.

Background technology

At present, specific strength trainings such as wrestling, throwing adopt is etc. to open (claiming dynamic property again) exercise means, as: crouch push away, chest expanding, deep-knee-bend barbell etc., and pay attention to not enough for isometric (claiming firm static) exercise, the means shortcoming, the isometric strength exercise that more lacks the special a plurality of muscle groups combination interlocks of combination reaches to be monitored the player motion technical process.Studies show that isotonic exercise is very effective for development force in conjunction with isometric exercise.A kind of new theory that vibrates isometric training strength is arranged, and it is very effective to development force with the vibration of the sine curve ripple of 5Hz～26Hz of short duration isometric training to be carried out in certain action.Isometric training in order to improve the muscle peak power of whole joint motions amplitude, should carry out isometric training only to certain angle of joint and the peak power in a little zone (± 15 °) is effective on every side on each different angle of joint.Use the ability of the speed that the power of explosion type isometric contraction development muscle produces, even to open (dynamic property) exercise more effective to developing explosive force than waiting.

Yet, can utilize newest research results well, meet specific strength training developing direction (the strengthening exercise means of a plurality of muscle group combination interlocks of promptly more approaching special action) such as the wrestling of modern high level, throwing, the isometric multi-angle chest of the vibration leg combination strength building and the supervising device home and abroad that utilize sportsman's movable information that the player motion technical process is monitored also do not occur.

The utility model content

The purpose of this utility model is according to principles such as sport biomechanics, electronics, mechanics, provide the isometric multi-angle chest of a kind of vibration leg combination strength building and supervising device, to solve the problem that specific strength trainings such as wrestling, throwing lack isometric multi-angle chest leg combination exercise means of vibration and monitoring means.

The utility model is to solve the problems of the technologies described above the technical scheme of taking to be: training described in the utility model and supervising device comprise upper support crossbeam, lower support crossbeam and support post; Described training and supervising device also comprise braces, hydraulic cylinder, oil pump, pulling force sensor, pulling force display, vibrating device, backing plate, two first bunchers, two gear driving pairs, two rooted teeth wheel installation shaft, two Upper shaft sleeves, two resistance gauges, two circular arc plates, two Lower shaft sleeves, two spring catch, two oblique curved rods, two adapter sleeves, two handles, two pressure sensors and two pressure display units; Upper support crossbeam and lower support crossbeam are along the length direction setting of vibrating device, and upper support crossbeam and lower support crossbeam are positioned at the top of vibrating device, the center of the upper surface of the lower end of support post and the top panel of vibrating device is affixed, the middle part of lower support crossbeam is provided with centre bore, the upper support crossbeam is provided with two through holes, these two through holes are symmetrical arranged with respect to support post, a Upper shaft sleeve is housed in each through hole, it is affixed that the center of lower surface of the centre bore of lower support crossbeam and upper support crossbeam is passed in the upper end of support post, the upper surface of lower support crossbeam is provided with two boss, two boss and two Upper shaft sleeves are over against setting, two first bunchers are symmetrical arranged with respect to support post and are all affixed with the upper surface of upper support crossbeam, the output shaft of each first buncher is given corresponding gear installation shaft by a gear drive adjutant transmission of power, the lower end of this gear installation shaft is passed corresponding Upper shaft sleeve successively, circular arc plate and Lower shaft sleeve and corresponding boss are rotationally connected, two resistance gauges are installed on the sidewall of lower support crossbeam, and the push rod of each resistance gauge passes corresponding Upper shaft sleeve and leans on corresponding gear installation shaft, Lower shaft sleeve and gear installation shaft are rotationally connected, each circular arc plate is provided with a plurality of locating holes along its arc length direction, and a plurality of locating holes are arranged on the same circumference, the upper end of each oblique curved rod is provided with installing hole, the upper end of each oblique curved rod is affixed with the outer wall of corresponding Lower shaft sleeve, the lower end of this oblique curved rod and the outer wall of corresponding adapter sleeve are affixed, a spring catch is housed in the installing hole of each oblique curved rod, and the upper end of this spring catch is arranged in the locating hole of corresponding circular arc plate, adapter sleeve vertically is provided with, the connecting rod of handle rotates and is arranged in the corresponding adapter sleeve, be fixed with a pressure sensor on the handle stem of each handle, hydraulic cylinder and oil pump are packed on the backing plate, backing plate is arranged on the upper surface of top panel of vibrating device and with it and removably connects, the piston rod that oil pump drives hydraulic cylinder stretches, the outer end of the piston rod of hydraulic cylinder is affixed by pulling force sensor and braces, pulling force display and two pressure display units all are packed on the support post, the signal output part of pulling force sensor is connected with the signal input part of pulling force display, and the signal output part of each pressure sensor is connected with the signal input part of corresponding pressure display unit.

The beneficial effects of the utility model are: utilize the isometric multi-angle chest of vibration of the present utility model leg combination strength building and supervising device to can be implemented in one and can produce low frequency and (do isometric chest leg combination specific strength training on the mechanical platform of the sine curve ripple vibration of 5Hz～26Hz), because the effect of vibration, make muscle in the certain-length scope, do little elongation and shortening, arbitrarily shrinking the maximum tension that can produce can both increase with the maximum tension force of keeping, and is effective to improving specific strengths such as wrestling, throwing.

The ability of the speed that the power of use explosion type isometric contraction development muscle produces, in addition more more effective than specific strengths such as isotonic exercise development wrestling, throwings.On each different angles of chest leg, carry out the isometric training of sync, can improve the muscle peak power of whole chest leg joint motion amplitude.

The exercise of chest leg combination specific strength can be satisfied the needs of special key technology action such as wrestling, throwing, and can improve the training effect of specific strengths such as wrestling, throwing greatly.

Adopt the isometric strength exercise means through a plurality of muscle group combination interlocks of custom-designed more approaching special action, training effect is more remarkable.

Use pulling force sensor and pressure sensor, in the time of can monitoring the big or small and motion of exerting oneself by pulling force display and pressure display unit, practitioner's stroking technique process is monitored in real time effectively.

Description of drawings

Fig. 1 is main TV structure figure of the present utility model, and Fig. 2 is the vertical view that the top panel of backing plate and vibrating device is assembled together, and Fig. 3 is the vertical view of circular arc plate, and Fig. 4 is the vertical view (top panel and spring do not draw) of vibrating device.

The specific embodiment

The specific embodiment one: in conjunction with Fig. 1～Fig. 4 present embodiment is described, described training of present embodiment and supervising device comprise upper support crossbeam 1, lower support crossbeam 2 and support post 3; Described training and supervising device also comprise braces 4, hydraulic cylinder 5, oil pump 6, pulling force sensor 7, pulling force display 8, vibrating device 15, backing plate 9, two first bunchers 10, two gear driving pairs 11, two rooted teeth wheel installation shaft 12, two Upper shaft sleeves 13, two resistance gauges 14, two circular arc plates 16, two Lower shaft sleeves 17, two spring catch 18, two oblique curved rods 19, two adapter sleeves 20, two handles 21, two pressure sensors 22 and two pressure display units 23; Upper support crossbeam 1 and lower support crossbeam 2 are along the length direction setting of vibrating device 15, and upper support crossbeam 1 and lower support crossbeam 2 are positioned at the top of vibrating device 15, the center of the upper surface of the top panel 15-1 of the lower end of support post 3 and vibrating device 15 is affixed, the middle part of lower support crossbeam 2 is provided with centre bore, upper support crossbeam 1 is provided with two through holes, these two through holes are symmetrical arranged with respect to support post 3, a Upper shaft sleeve 13 is housed in each through hole, it is affixed that the center of lower surface of the centre bore of lower support crossbeam 2 and upper support crossbeam 1 is passed in the upper end of support post 3, the upper surface of lower support crossbeam 2 is provided with two boss 2-1, two boss 2-1 and two Upper shaft sleeves 13 are over against setting, two first bunchers 10 are symmetrical arranged with respect to support post 3 and are all affixed with the upper surface of upper support crossbeam 1, the output shaft of each first buncher 10 is given corresponding gear installation shaft 12 by a gear driving pair 11 (being intermeshing two gears) with transmission of power, the lower end of this gear installation shaft 12 is passed corresponding Upper shaft sleeve 13 successively, circular arc plate 16 and Lower shaft sleeve 17 are rotationally connected with corresponding boss 2-1, two resistance gauges 14 are installed on the sidewall of lower support crossbeam 2, and the push rod of each resistance gauge 14 passes corresponding Upper shaft sleeve 13 and leans on corresponding gear installation shaft 12, Lower shaft sleeve 17 is rotationally connected with gear installation shaft 12, each circular arc plate 16 is provided with a plurality of locating hole 16-1 along its arc length direction, and a plurality of locating hole 16-1 are arranged on the same circumference, the upper end of each oblique curved rod 19 is provided with installing hole, the upper end of each oblique curved rod 19 is affixed with the outer wall of corresponding Lower shaft sleeve 17, the outer wall of the lower end of this oblique curved rod 19 and corresponding adapter sleeve 20 is affixed, a spring catch 18 is housed in the installing hole of each oblique curved rod 19, and the upper end of this spring catch 18 is arranged in the locating hole of corresponding circular arc plate 16, adapter sleeve 20 vertically is provided with, the connecting rod 21-1 of handle 21 rotates and is arranged in the corresponding adapter sleeve 20, be fixed with a pressure sensor 22 on the handle stem 21-2 of each handle 21, hydraulic cylinder 5 and oil pump 6 are packed on the backing plate 9, backing plate 9 is arranged on the upper surface of top panel 15-1 of vibrating device 15 and with it and removably connects (in the present embodiment, the top panel 15-1 of vibrating device 15 is provided with a plurality of screwed holes, backing plate 9 is provided with a plurality of connecting holes, so be provided with, be convenient to adjust the position of backing plate 9 on the top panel 15-1 of vibrating device 15.Backing plate 9 in the present embodiment removably connects by bolt with the top panel 15-1 of vibrating device 15), the piston rod 5-1 that oil pump 6 drives hydraulic cylinder 5 stretches, the outer end of the piston rod 5-1 of hydraulic cylinder 5 is affixed by pulling force sensor 7 and braces 4, pulling force display 8 and two pressure display units 23 all are packed on the support post 3, the signal output part of pulling force sensor 7 is connected with the signal input part of pulling force display 8, and the signal output part of each pressure sensor 22 is connected with the signal input part of corresponding pressure display unit 23.

The specific embodiment two: illustrate in conjunction with Fig. 1 and Fig. 4: the described vibrating device 15 of present embodiment comprises top panel 15-1, base 15-2, the second buncher 15-3, the first tape handler 15-4, the second tape handler 15-5, transition axis 15-6, eccentric shaft 15-7, two first axle bed 15-8, two the second axle bed 15-9, two excentric sleeve 15-10 and two handle 15-11; Top panel 15-1 be positioned at base 15-2 directly over, the second buncher 15-3 is packed on the upper surface of base 15-2, the output shaft of the second buncher 15-3 is given transition axis 15-6 by the first tape handler 15-4 with transmission of power, the two ends of transition axis 15-6 respectively are set with first an axle bed 15-8 who is rotationally connected with it, transition axis 15-6 gives eccentric shaft 15-7 by the second tape handler 15-5 with transmission of power, be set with two excentric sleeve 15-10 that are rotationally connected with it on the eccentric shaft 15-7, two handle 15-11 and two corresponding one by one settings of excentric sleeve 15-10, the end of each handle 15-11 and the outer wall of excentric sleeve 15-10 are affixed, the other end of each handle 15-11 and the lower surface of top panel 15-1 are affixed, two handle 15-11 are symmetrical arranged with respect to the center line of the vertical direction of vibrating device 15, and two first axle bed 15-8 and two second axle bed 15-9 are affixed with the upper surface of base 15-2 respectively.So be provided with, simple in structure, safe and reliable.Other is identical with the specific embodiment one.

The specific embodiment three: in conjunction with Fig. 1 explanation, the described vibrating device 15 of present embodiment also comprises two spring 15-12; Each fixedly is equipped with a spring 15-12 left end of top panel 15-1 lower surface and right-hand member, and the lower end of two spring 15-12 is provided with on the ground.So be provided with, can improve the reliability of vibrating device 15 work.Other is identical with the specific embodiment two.

The specific embodiment four: in conjunction with Fig. 1 explanation, the described handle 21 of present embodiment is made up of connecting rod 21-1, handle stem 21-2 and two cross bar 21-3; The end of two cross bar 21-3 and the two ends of connecting rod 21-1 are affixed, and the other end of two cross bar 21-3 and handle stem 21-2 are affixed, and handle stem 21-2 and connecting rod 21-1 be arranged in parallel.So be provided with, handle can rotate with respect to adapter sleeve, is convenient to the angle that the practitioner adjusts exercise.Other is identical with the specific embodiment one.

Hydraulic cylinder of the present utility model, oil pump, pulling force sensor, pulling force display, buncher, resistance gauge, spring catch, pressure sensor and the equal outsourcing of pressure display unit.

Training process: the strength limits that resistance gauge is adjusted to the practitioner, the practitioner stands on the top panel of vibrating device, bear braces, dip of knees, both hands are held two pressure sensors, the maximum extension position of chest expanding backward to the practitioner opens one's arms, at this moment, the vibration of Vibration on Start-up device, chest carries out that explosion type is isometric firmly, and shank carries out isometric the pedaling of explosion type to be stretched, and (time is 3s～4s) in the isometric firmly back of of short duration explosion type, starting two first bunchers works simultaneously, the direction of rotation of two first bunchers, gear driving pair driven gear installation shaft are rotated, and drive oblique curved rod and handle thus and rotate simultaneously that (one in two handles clockwise rotates about 30 °, in two handles another rotates counterclockwise about 30 °), oil pump drives hydraulic cylinder works, and the piston rod that promotes hydraulic cylinder stretches out suitable distance (height according to the practitioner is determined), at this moment, knee joint stretches about 30 °, carries out breaking out for the second time isometric firmly chest expanding and pedaling of leg and stretch on this position.So carry out, until the leg extension of finishing chest expanding and leg.

Claims (4)

1. the isometric multi-angle chest leg of vibration makes up strength building and supervising device, and described training and supervising device comprise upper support crossbeam (1), lower support crossbeam (2) and support post (3); It is characterized in that: described training and supervising device also comprise braces (4), hydraulic cylinder (5), oil pump (6), pulling force sensor (7), pulling force display (8), vibrating device (15), backing plate (9), two first bunchers (10), two gear driving pairs (11), two rooted teeth wheel installation shaft (12), two Upper shaft sleeves (13), two resistance gauges (14), two circular arc plates (16), two Lower shaft sleeves (17), two spring catch (18), two oblique curved rods (19), two adapter sleeves (20), two handles (21), two pressure sensors (22) and two pressure display units (23); Upper support crossbeam (1) and lower support crossbeam (2) are along the length direction setting of vibrating device (15), and upper support crossbeam (1) and lower support crossbeam (2) are positioned at the top of vibrating device (15), the center of the upper surface of the top panel (15-1) of the lower end of support post (3) and vibrating device (15) is affixed, the middle part of lower support crossbeam (2) is provided with centre bore, upper support crossbeam (1) is provided with two through holes, these two through holes are symmetrical arranged with respect to support post (3), a Upper shaft sleeve (13) is housed in each through hole, it is affixed that the center of lower surface of the centre bore of lower support crossbeam (2) and upper support crossbeam (1) is passed in the upper end of support post (3), the upper surface of lower support crossbeam (2) is provided with two boss (2-1), two boss (2-1) and two Upper shaft sleeves (13) are over against setting, two first bunchers (10) are symmetrical arranged with respect to support post (3) and are all affixed with the upper surface of upper support crossbeam (1), the output shaft of each first buncher (10) is given corresponding gear installation shaft (12) by a gear driving pair (11) with transmission of power, the lower end of this gear installation shaft (12) is passed corresponding Upper shaft sleeve (13) successively, circular arc plate (16) and Lower shaft sleeve (17) are rotationally connected with corresponding boss (2-1), two resistance gauges (14) are installed on the sidewall of lower support crossbeam (2), and the push rod of each resistance gauge (14) passes corresponding Upper shaft sleeve (13) and leans on corresponding gear installation shaft (12), Lower shaft sleeve (17) is rotationally connected with gear installation shaft (12), each circular arc plate (16) is provided with a plurality of locating holes (16-1) along its arc length direction, and a plurality of locating holes (16-1) are arranged on the same circumference, the upper end of each oblique curved rod (19) is provided with installing hole, the upper end of each oblique curved rod (19) is affixed with the outer wall of corresponding Lower shaft sleeve (17), the outer wall of the lower end of this oblique curved rod (19) and corresponding adapter sleeve (20) is affixed, a spring catch (18) is housed in the installing hole of each oblique curved rod (19), and the upper end of this spring catch (18) is arranged in the locating hole of corresponding circular arc plate (16), adapter sleeve (20) vertically is provided with, the connecting rod (21-1) of handle (21) rotates and is arranged in the corresponding adapter sleeve (20), be fixed with a pressure sensor (22) on the handle stem (21-2) of each handle (21), hydraulic cylinder (5) and oil pump (6) are packed on the backing plate (9), backing plate (9) is arranged on the upper surface of top panel (15-1) of vibrating device (15) and with it and removably connects, the piston rod (5-1) that oil pump (6) drives hydraulic cylinder (5) stretches, the outer end of the piston rod (5-1) of hydraulic cylinder (5) is affixed by pulling force sensor (7) and braces (4), pulling force display (8) and two pressure display units (23) all are packed on the support post (3), the signal output part of pulling force sensor (7) is connected with the signal input part of pulling force display (8), and the signal output part of each pressure sensor (22) is connected with the signal input part of corresponding pressure display unit (23).

2. the isometric multi-angle chest of vibration according to claim 1 leg combination strength building and supervising device is characterized in that: described vibrating device (15) comprises top panel (15-1), base (15-2), second buncher (15-3), first tape handler (15-4), second tape handler (15-5), transition axis (15-6), eccentric shaft (15-7), two first axle beds (15-8), two second axle beds (15-9), two excentric sleeves (15-10) and two handles (15-11); Top panel (15-1) be positioned at base (15-2) directly over, second buncher (15-3) is packed on the upper surface of base (15-2), the output shaft of second buncher (15-3) is given transition axis (15-6) by first tape handler (15-4) with transmission of power, the two ends of transition axis (15-6) respectively are set with first axle bed (15-8) that is rotationally connected with it, transition axis (15-6) is given eccentric shaft (15-7) by second tape handler (15-5) with transmission of power, be set with two excentric sleeves that are rotationally connected with it (15-10) on the eccentric shaft (15-7), two handles (15-11) and the corresponding one by one setting of two excentric sleeves (15-10), one end of each handle (15-11) and the outer wall of excentric sleeve (15-10) are affixed, the other end of each handle (15-11) and the lower surface of top panel (15-1) are affixed, two handles (15-11) are symmetrical arranged with respect to the center line of the vertical direction of vibrating device (15), and two first axle beds (15-8) and two second axle beds (15-9) are affixed with the upper surface of base (15-2) respectively.

3. the isometric multi-angle chest of vibration according to claim 2 leg combination strength building and supervising device, it is characterized in that: described vibrating device (15) also comprises two springs (15-12); Each fixedly is equipped with a spring (15-12) left end of top panel (15-1) lower surface and right-hand member, and the lower end of two springs (15-12) is provided with on the ground.

4. the isometric multi-angle chest of vibration according to claim 1 leg combination strength building and supervising device, it is characterized in that: described handle (21) is made up of connecting rod (21-1), handle stem (21-2) and two cross bars (21-3); The two ends of one end of two cross bars (21-3) and connecting rod (21-1) are affixed, and the other end of two cross bars (21-3) and handle stem (21-2) are affixed, and handle stem (21-2) be arranged in parallel with connecting rod (21-1).

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