[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

CN204293816U - A kind of hammer apparatus vibration force at the core exercising machine - Google Patents

A kind of hammer apparatus vibration force at the core exercising machine Download PDF

Info

Publication number
CN204293816U
CN204293816U CN201420857322.3U CN201420857322U CN204293816U CN 204293816 U CN204293816 U CN 204293816U CN 201420857322 U CN201420857322 U CN 201420857322U CN 204293816 U CN204293816 U CN 204293816U
Authority
CN
China
Prior art keywords
distance measuring
balance
measuring sensor
motor
support
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420857322.3U
Other languages
Chinese (zh)
Inventor
王旭
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Harbin Normal University
Original Assignee
Harbin Normal University
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Harbin Normal University filed Critical Harbin Normal University
Priority to CN201420857322.3U priority Critical patent/CN204293816U/en
Application granted granted Critical
Publication of CN204293816U publication Critical patent/CN204293816U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Apparatuses For Generation Of Mechanical Vibrations (AREA)

Abstract

A kind of hammer apparatus vibration force at the core exercising machine, the utility model relates to a kind of hammer exercising machine, the utility model is solve the trainer that can vibrate direct reinforcing stimulus throwing arm in conjunction with specific strength training also not occur, modern high-level hammer specific strength training has had the exercise apparatus of some combination of vibrations, but existing vibration training effect is problem not significantly, described exercising machine comprises the hand-held heavy component of training, rock support, main vibration assembly, vibration component, fixed head, mount vibration assembly and the balance training mechanism with information feedback function, mount vibration assembly comprises support and rocks motor, support rocks motor cam and counterpart, rock support and comprise block dynamometry assembly, annular slab, multiple baffle ring, multiple jack-up block, the supporting leg that multiple length is different, multiple first spring, multiple supporting leg Connection Block and multiple connecting cross beam, the utility model is applicable in hammer strengthening exercise.

Description

A kind of hammer apparatus vibration force at the core exercising machine
Technical field
The utility model relates to a kind of hammer exercising machine, is specifically related to a kind of hammer apparatus vibration force at the core exercising machine.
Background technology
Modern high-level hammer specific strength training, except the means such as snatch, hard draw, throwing weight of some routines, also be particular about and adopt through the custom-designed strengthening exercise device close to special action and vibration training device, but existing vibration specific strength training device is that player stands practises on shaking platform, vibratory stimulation is comparatively remarkable to sportsman's lower limb, hip, waist muscle group, and the throwing arm muscle group vibratory stimulation relatively needing reinforcing stimulus to train is obviously not enough.This is because vibration is via lower limb, hip, waist, trunk upwards conducts, the vibration arriving throwing arm is partially absorbed, oscillation intensity decays, belong to indirect stimulation, training effect is not good, strength when hammer final force is sold can not be measured, improving specific strength is the key factor that sportsman obtains marvelous results, can accurately to use power in harmony effectively completing technology action, need a stable body posture, the strength of body steadiness is provided to be exactly force at the core, they are complementary, two importances these two being affected competitiveness merge and give intensive training, by the synergistic effect that generation one-plus-one is greater than two, improve training quality, the trainer linked with force at the core in conjunction with the direct stimulation throwing arm muscle group of specific strength training does not also occur at present.
Utility model content
The utility model is solve the trainer that can vibrate direct reinforcing stimulus throwing arm in conjunction with specific strength training also not occur, modern high-level hammer specific strength training has had the exercise apparatus of some combination of vibrations, but existing vibration training effect is problem not significantly, and then a kind of hammer apparatus is provided to vibrate force at the core exercising machine.
The utility model is solve the problems of the technologies described above the technical scheme taked to be: described exercising machine comprises the hand-held heavy component of training, rock support, main vibration assembly, vibration component, fixed head, support rocks assembly and the balance training mechanism with information feedback function, support rocks assembly and comprises support and rock motor, support rocks motor cam and counterpart, rock support and comprise block dynamometry assembly, annular slab, multiple baffle ring, multiple jack-up block, the supporting leg that multiple length is different, multiple first spring, multiple supporting leg Connection Block and multiple connecting cross beam, each supporting leg also comprises upper rack posts, pole cover and bearing pin, main vibration assembly comprises lifting frame, main vibration motor, main vibration motor cam and two leads, hand-held heavy component is trained to be arranged on the upper surface of annular slab, the lower surface of annular slab and horizontal plane angulation are R, R is acute angle, vibration component is fixedly mounted on the hand-held heavy component of training, multiple supporting leg Connection Block is uniform to be fixedly mounted on the lower surface of annular slab, the bottom of the top of each upper rack posts and a supporting leg Connection Block is hinged, adjacent two poles cover is fixedly connected with by a connecting cross beam, the lateral wall of pole cover is vertically processed with multiple bearing pin vertically through hole, upper rack posts bottom is arranged on pole cover in through bearing pin through hole by bearing pin, the bottom of each pole cover is installed with baffle ring, the bottom of each pole cover is equipped with first spring, the bottom that top and the pole of the first spring are overlapped is fixedly connected with, the bottom of the first spring is fixedly mounted on fixed head, balance training mechanism with information feedback function is arranged on the fixed head upper surface below annular slab, support rocks assembly and is arranged on the upper surface of fixed head, the output shaft that support rocks motor is installed with a support and rocks motor cam, the output shaft that support rocks motor is vertically arranged, and support level between the motor supporting leg adjacent with of rocking is provided with a counterpart, one end of counterpart is fixedly mounted on the outer surface of a supporting leg, counterpart rocks motor cam near support and arranges, two leads are all vertically inserted on lifting frame, and the bottom of each lead is fixedly connected with the upper surface of fixed head, a jack-up block is vertically provided with between the lower surface of each baffle ring and lifting frame, the bottom of jack-up block is fixedly mounted on lifting frame, main vibration motor is fixedly mounted on fixed head, the rotating shaft of main vibration motor is provided with main vibration motor cam, main vibration motor cam is arranged on the below of lifting frame, block dynamometry assembly is fixedly mounted on annular slab, block dynamometry assembly is provided with block pressure sensor,
Balance training mechanism with information feedback function comprises pedal, balance base, three distance measuring sensors and balance display circuit, pedal is tabular, balance base is domed base, the plane of described domed base is fixedly connected with the bottom surface of pedal, and the center superposition of the plane center line of described domed base and pedal; Described pedal bottom surface is fixed with three distance measuring sensors, be respectively with reference to distance measuring sensor, front distance measuring sensor and left distance measuring sensor, described three distance measuring sensors are separately fixed at pedal bottom edge place, wherein the line of front distance measuring sensor and left distance measuring sensor is through the center of pedal, with reference to the line of distance measuring sensor and pedal centre perpendicular to the line of front distance measuring sensor and left distance measuring sensor; The signal output part of front distance measuring sensor connects the reference distance signal input part of balance display circuit, the signal output part of front distance measuring sensor connects the front end distance signal input of balance display circuit, and the signal output part of left distance measuring sensor connects the left end distance signal input of balance display circuit; Balance display circuit comprises comparator A, comparator B, anterior-posterior balance voltage driven displays and left-right balance voltage driven displays; Two signal input parts of comparator A connect with reference to the signal output part of distance measuring sensor and the signal output part of front distance measuring sensor respectively, and the signal output part of this comparator A connects the driving signal input of anterior-posterior balance voltage driven displays; Two signal input parts of comparator B connect with reference to the signal output part of distance measuring sensor and the signal output part of left distance measuring sensor respectively, and the signal output part of this comparator B connects the driving signal input of left-right balance voltage driven displays.
The beneficial effects of the utility model are: 1, the exercise of the utility model specific strength is in conjunction with special action exercise, makes training quality higher; 2, vibration of the present utility model directly stimulates throwing arm muscle group, improves explosive force; 3, the utility model can be raised more polymyarian meat fiber and, to carry out exercise for power, make more contraction of muscle generation peak power; 4, strength when the hand-held heavy component 1 of training is finally sold is measured by the pressure sensor of block dynamometry assembly 2-1; 5, specific strength combination force at the core trains the development that effectively raising balance ability is fast powerful to provide solid foundation together; 6 throwing arm muscle groups and force at the core link and produce synergistic effect, improve training quality.
Accompanying drawing explanation
Fig. 1 is main TV structure schematic diagram of the present utility model, Fig. 2 is the A direction view of Fig. 1, Fig. 3 is that vibration component 17 is arranged on the front view of training hand-held heavy component 1, Fig. 4 is the front view of eccentric wheel 19, Fig. 5 is the top view of B-B in Fig. 1, Fig. 6 is the principle schematic of balance training mechanism 29 electric part with information feedback function, Fig. 7 is the principle schematic of the another kind of electric part of balance training mechanism 29 with information feedback function, Fig. 8 plants the structural representation with the mechanical structure portion of the balance training of information feedback function, Fig. 9 is the upward view of Fig. 8, Figure 10 is multiple adjustable for height position-limit mechanism 29-3, pedal 29-1 and balance base 29-2 is arranged on the front view on slide plate 20-4.
Detailed description of the invention
Detailed description of the invention one: composition graphs 1-Figure 10 illustrates present embodiment, a kind of hammer apparatus vibration force at the core exercising machine of present embodiment, described exercising machine comprises the hand-held heavy component 1 of training, rock support 2, main vibration assembly 3, vibration component 17, fixed head 15, support rocks assembly 70 and the balance training mechanism 29 with information feedback function, support rocks assembly 70 and comprises support and rock motor 73, support rocks motor cam 71 and counterpart 72, rock support 2 and comprise block dynamometry assembly 2-1, annular slab 6, multiple baffle ring 8, multiple jack-up block 9, the supporting leg 28 that multiple length is different, multiple first spring 20, multiple supporting leg Connection Block 5 and multiple connecting cross beam 27, each supporting leg 28 also comprises upper rack posts 16, pole cover 7 and bearing pin 25, main vibration assembly 3 comprises lifting frame 4, main vibration motor 10, main vibration motor cam 11 and two leads 12, hand-held heavy component 1 is trained to be arranged on the upper surface of annular slab 6, the lower surface of annular slab 6 and horizontal plane angulation are R, R is acute angle, vibration component 17 is fixedly mounted on the hand-held heavy component 1 of training, on the uniform lower surface being fixedly mounted on annular slab 6 of multiple supporting leg Connection Block 5, the top of each upper rack posts 16 and the bottom of a supporting leg Connection Block 5 hinged, adjacent two poles cover 7 is fixedly connected with by a connecting cross beam 27, the lateral wall of pole cover 7 is vertically processed with multiple bearing pin vertically through hole 26, upper rack posts 16 bottom is arranged on pole cover 7 in through bearing pin through hole 26 by bearing pin 25, the bottom of each pole cover 7 is installed with baffle ring 8, the bottom of each pole cover 7 is equipped with first spring 20, the bottom that top and the pole of the first spring 20 overlap 7 is fixedly connected with, the bottom of the first spring 20 is fixedly mounted on fixed head 15, balance training mechanism 29 with information feedback function is arranged on fixed head 15 upper surface below annular slab 6, support rocks assembly 70 and is arranged on the upper surface of fixed head 15, the output shaft that support rocks motor 73 is installed with a support and rocks motor cam 71, the output shaft that support rocks motor 73 is vertically arranged, and support level between motor 73 supporting leg 28 adjacent with of rocking is provided with a counterpart 72, one end of counterpart 72 is fixedly mounted on the outer surface of a supporting leg 28, counterpart 72 rocks motor cam 71 near support and arranges, two leads 12 are all vertically inserted on lifting frame 4, and the bottom of each lead 12 is fixedly connected with the upper surface of fixed head 15, a jack-up block 9 is vertically provided with between the lower surface of each baffle ring 8 and lifting frame 4, the bottom of jack-up block 9 is fixedly mounted on lifting frame 4, main vibration motor 10 is fixedly mounted on fixed head 15, the rotating shaft of main vibration motor 10 is provided with main vibration motor cam 11, main vibration motor cam 11 is arranged on the below of lifting frame 4, block dynamometry assembly 2-1 is fixedly mounted on annular slab 6, block dynamometry assembly 2-1 is provided with block pressure sensor,
Balance training mechanism 29 with information feedback function comprises pedal 29-1, balance base 29-2, three distance measuring sensors and balance display circuit, pedal 29-1 is tabular, balance base 29-2 is domed base, the plane of described domed base is fixedly connected with the bottom surface of pedal 29-1, and the center superposition of the plane center line of described domed base and pedal 29-1; Described pedal 29-1 bottom surface is fixed with three distance measuring sensors, be respectively with reference to distance measuring sensor 80, front distance measuring sensor 82 and left distance measuring sensor 81, described three distance measuring sensors are separately fixed at pedal 29-1 bottom edge place, wherein the line of front distance measuring sensor 82 and left distance measuring sensor 81 is through the center of pedal 29-1, with reference to the line at distance measuring sensor 80 and pedal 29-1 center perpendicular to the line of front distance measuring sensor 82 and left distance measuring sensor 81; The signal output part of front distance measuring sensor 82 connects the reference distance signal input part of balance display circuit, the signal output part of front distance measuring sensor 82 connects the front end distance signal input of balance display circuit, and the signal output part of left distance measuring sensor 81 connects the left end distance signal input of balance display circuit; Balance display circuit comprises comparator A42, comparator B48, anterior-posterior balance voltage driven displays 43 and left-right balance voltage driven displays 44; Two signal input parts of comparator A42 connect with reference to the signal output part of distance measuring sensor 80 and the signal output part of front distance measuring sensor 82 respectively, and the signal output part of this comparator A42 connects the driving signal input of anterior-posterior balance voltage driven displays 43; Two signal input parts of comparator B48 connect with reference to the signal output part of distance measuring sensor 80 and the signal output part of left distance measuring sensor 81 respectively, and the signal output part of this comparator B48 connects the driving signal input of left-right balance voltage driven displays 44.
In present embodiment, the model of described three distance measuring sensors is identical, is voltage output type sensor.
The balance training of information feedback function is had when practical application described in present embodiment, balance base 29-2 is placed in smooth region, the single pin of trainer or both feet stand on pedal 29-1, after training starts, when pedal 29-1 run-off the straight, the distance on three distance measuring sensor difference measuring distance ground, and the signal of output corresponding expression distance is to control circuit, embed control module team three distance signals carried in control circuit to process, obtain the poised state of pedal, and by this poised state by display display translation.
When showing in digital form, can adopt the data representation longitudinal separation difference with sign and left and right range difference, sign represents incline direction, the absolute value representation gradient of numeral, and the larger then corresponding digital absolute value that tilts is larger.
When showing in a graphical form, the overall perspective view picture of balance training can be shown, then show the heeling condition of described balance training according to gradient.Can also easy image be passed through, such as, only show the poised state of pedal.
Detailed description of the invention two: composition graphs 1, Fig. 6-Figure 10 illustrates present embodiment, a kind of hammer apparatus vibration of present embodiment force at the core exercising machine, described balance display circuit also comprises zeroing circuit A41, zeroing circuit B47, amplifier A49 and amplifier B40, the zeroed signal output of described zeroing circuit A41 connects the zeroed signal input of comparator A42, amplifier A is connected between comparator A42 and anterior-posterior balance voltage driven displays 43, the zeroed signal output of described zeroing circuit B47 connects the zeroed signal input of comparator B48, in present embodiment, all zeroing circuit is added for each comparator, return to zero for team's comparator.Before actual use, be first placed on smooth ground by the balance training described in present embodiment, then keep pedal 29-1 to be in plateau, now, the show value being adjusted corresponding display by zeroing circuit is zero.After carrying out aforementioned operation, start training again, and then can ensure that the gradient measuring the pedal obtained is more accurate, present embodiment adds amplifier between comparator A42 and anterior-posterior balance voltage driven displays 43, realize the amplification process to the voltage signal that comparator A42 exports, and then making it meet the requirement of anterior-posterior balance voltage driven displays 43 input voltage range, other is identical with embodiment one.
Detailed description of the invention three: composition graphs 1, Fig. 5, Fig. 8-Figure 10 illustrates present embodiment, a kind of hammer apparatus vibration of present embodiment force at the core exercising machine, balance training mechanism 29 with information feedback function also comprises base 29-4 and multiple adjustable for height position-limit mechanism 29-3, on the uniform upper surface being fixedly mounted on base 29-4 of multiple adjustable for height position-limit mechanism 29-3, base 29-4 upper surface is provided with the circular groove 29-5 corresponding with balance base 29-2, the bottom surface of described circular groove 29-5 is sphere, balance base 29-2 is placed in this circular groove 29-5, and the spherical radius of groove 29-5 bottom surface is greater than the radius of balance base 29-2 sphere, other is identical with embodiment one.
Detailed description of the invention four: composition graphs 1-Fig. 3 illustrates present embodiment, a kind of hammer apparatus vibration of present embodiment force at the core exercising machine, the hand-held heavy component of described training 1 comprises connecting rod 24, handle 22, fixed block 14 and multiple weight 13, connecting rod 24 is ' L ' shape body of rod, one end of connecting rod 24 is fixed with multiple weight 13 by fixed block 14, handle 22 is fixedly mounted on the other end of connecting rod 24, and other is identical with embodiment one.
Detailed description of the invention five: composition graphs 1-Fig. 3 illustrates present embodiment, a kind of hammer apparatus vibration of present embodiment force at the core exercising machine, described vibration component 17 involving vibrations assembly motor 18, eccentric wheel 19, slide rheostat 21 and portable power source 23, vibration component motor 18, eccentric wheel 19, slide rheostat 21 and portable power source 23 are installed on connecting rod 24, and vibration component motor 18, slide rheostat 21 and portable power source 23 outside are provided with shell, eccentric wheel 19 is fixedly mounted in the rotating shaft of vibration component motor 18, portable power source 23 is connected with vibration component motor 18 by slide rheostat 21, other is identical with embodiment one.
Detailed description of the invention six: composition graphs 1-Fig. 4 illustrates present embodiment, a kind of hammer apparatus vibration of present embodiment force at the core exercising machine, described eccentric wheel 19 also comprises eccentric wheel spring 19-3, groove lid 19-5 and multiple eccentric wheel weight 19-4, one end of eccentric wheel 19 is processed with groove 19-1, the other end of eccentric wheel 19 is processed with motor axis hole 19-2, eccentric wheel spring 19-3 is arranged on the bottom land of groove 19-1, multiple eccentric wheel weight 19-4 is arranged in groove 19-1, groove lid 19-5 is fixedly mounted on groove 19-1, other is identical with embodiment five.
Detailed description of the invention seven: composition graphs 1 and Fig. 5 illustrate present embodiment, a kind of hammer apparatus vibration of present embodiment force at the core exercising machine, described lifting frame 4 is processed with two connecting plate 4-1, each connecting plate 4-1 is fitted with a lead 12, other is identical with embodiment one.
Operation principle
When carrying out hammer core stable strength building and quantification monitoring exercise, trainer stands in above the balance training mechanism 29 with information feedback function, and combine and rock support 2 through optimal design close to hammer specific strength feature final force, grasp the handle 22 of hammer trainer, carry out the exercise of final force, by the axis of rotation of vibration motor 10 main on main vibration assembly 3, the rotating shaft of main vibration motor 10 drives main vibration motor cam 11 to rotate, by main vibration motor cam 11, lifting frame 4 is risen, make to rock support 2 and carry out elevating movement under the effect of the first spring 20, open vibration component motor 18 switch of vibration component 17 simultaneously, the vibration frequency of vibration component 17 is 26Hz-120Hz, the amplitude of vibration component 17 is 1mm-3mm.The rotating band movable eccentric wheel 19 of vibration component motor 18 rotates in handle 22, band fixed handle 22 rocks, balance training mechanism 29 with information feedback function starts working, measure the amplitude that balanced controls swing, the quantification treatment of the information of carrying out, to balance state real-time quantization monitoring during Athletes, and change into support that the signal of telecommunication and support rock assembly 70 accordingly and rock motor 73 and be connected, produce interactive, along with the raising of trainer's balanced capacity, balanced controls tend to be steady when trainer practises, the support that now balanced controls generation signal of telecommunication startup support rocks assembly 70 rocks motor 73, make to rock support 2 and produce swing, to increase new exercise difficulty.

Claims (7)

1. a hammer apparatus vibration force at the core exercising machine, it is characterized in that: described exercising machine comprises the hand-held heavy component of training (1), rock support (2), main vibration assembly (3), vibration component (17), fixed head (15), support rocks assembly (70) and the balance training mechanism (29) with information feedback function, support rocks assembly (70) and comprises support and rock motor (73), support rocks motor cam (71) and counterpart (72), rock support (2) and comprise block dynamometry assembly (2-1), annular slab (6), multiple baffle ring (8), multiple jack-up block (9), the supporting leg (28) that multiple length is different, multiple first spring (20), multiple supporting leg Connection Blocks (5) and multiple connecting cross beam (27), each supporting leg (28) also comprises upper rack posts (16), pole cover (7) and bearing pin (25), main vibration assembly (3) comprises lifting frame (4), main vibration motor (10), main vibration motor cam (11) and two leads (12), hand-held heavy component (1) is trained to be arranged on the upper surface of annular slab (6), the lower surface of annular slab (6) and horizontal plane angulation are R, R is acute angle, vibration component (17) is fixedly mounted in the hand-held heavy component of training (1), on multiple uniform lower surface being fixedly mounted on annular slab (6) of supporting leg Connection Block (5), the top of each upper rack posts (16) and the bottom of a supporting leg Connection Block (5) hinged, adjacent two poles cover (7) are fixedly connected with by a connecting cross beam (27), the lateral wall of pole cover (7) is vertically processed with multiple bearing pin vertically through hole (26), upper rack posts (16) bottom is arranged on pole cover (7) in through bearing pin through hole (26) by bearing pin (25), the bottom of each pole cover (7) is installed with baffle ring (8), the bottom of each pole cover (7) is equipped with first spring (20), (7) are overlapped on the top of the first spring (20) bottom with pole is fixedly connected with, the bottom of the first spring (20) is fixedly mounted on fixed head (15), balance training mechanism (29) with information feedback function is arranged on fixed head (15) upper surface of annular slab (6) below, support rocks assembly (70) and is arranged on the upper surface of fixed head (15), the output shaft that support rocks motor (73) is installed with a support and rocks motor cam (71), the output shaft that support rocks motor (73) is vertically arranged, and support level between motor (73) supporting leg (28) adjacent with of rocking is provided with a counterpart (72), one end of counterpart (72) is fixedly mounted on the outer surface of a supporting leg (28), counterpart (72) rocks motor cam (71) near support and arranges, two leads (12) are all vertically inserted on lifting frame (4), and the bottom of each lead (12) is fixedly connected with the upper surface of fixed head (15), a jack-up block (9) is vertically provided with between the lower surface of each baffle ring (8) and lifting frame (4), the bottom of jack-up block (9) is fixedly mounted on lifting frame (4), main vibration motor (10) is fixedly mounted on fixed head (15), the rotating shaft of main vibration motor (10) is provided with main vibration motor cam (11), main vibration motor cam (11) is arranged on the below of lifting frame (4), block dynamometry assembly (2-1) is fixedly mounted on annular slab (6), block dynamometry assembly (2-1) is provided with block pressure sensor,
Balance training mechanism (29) with information feedback function comprises pedal (29-1), balance base (29-2), three distance measuring sensors and balance display circuit, pedal (29-1) is tabular, balance base (29-2) is domed base, the plane of described domed base is fixedly connected with the bottom surface of pedal (29-1), and the center superposition of the plane center line of described domed base and pedal (29-1), described pedal (29-1) bottom surface is fixed with three distance measuring sensors, be respectively with reference to distance measuring sensor (80), front distance measuring sensor (82) and left distance measuring sensor (81), described three distance measuring sensors are separately fixed at pedal (29-1) bottom edge place, wherein the line of front distance measuring sensor (82) and left distance measuring sensor (81) passes the center of pedal (29-1), with reference to distance measuring sensor (80) and the line at pedal (29-1) the center line perpendicular to front distance measuring sensor (82) and left distance measuring sensor (81), the signal output part of front distance measuring sensor (82) connects the reference distance signal input part of balance display circuit, the signal output part of front distance measuring sensor (82) connects the front end distance signal input of balance display circuit, and the signal output part of left distance measuring sensor (81) connects the left end distance signal input of balance display circuit, balance display circuit comprises comparator A (42), comparator B (48), anterior-posterior balance voltage driven displays (43) and left-right balance voltage driven displays (44), two signal input parts of comparator A (42) connect the signal output part of reference distance measuring sensor (80) and the signal output part of front distance measuring sensor (82) respectively, and the signal output part of this comparator A (42) connects the driving signal input of anterior-posterior balance voltage driven displays (43), two signal input parts of comparator B (48) connect signal output part with reference to distance measuring sensor (80) and left distance measuring sensor respectively) signal output part of (81), the signal output part of this comparator B (48) connects the driving signal input of left-right balance voltage driven displays (44).
2. a kind of hammer apparatus vibrates force at the core exercising machine according to claim 1, it is characterized in that: described balance display circuit also comprises zeroing circuit A (41), zeroing circuit B (47), amplifier A (49) and amplifier B (40), the zeroed signal output of described zeroing circuit A (41) connects the zeroed signal input of comparator A (42), amplifier A is connected between comparator A (42) and anterior-posterior balance voltage driven displays (43), the zeroed signal output of described zeroing circuit B (47) connects the zeroed signal input of comparator B (48).
3. a kind of hammer apparatus vibrates force at the core exercising machine according to claim 2, it is characterized in that: the balance training mechanism (29) with information feedback function also comprises base (29-4) and multiple adjustable for height position-limit mechanism (29-3), on the uniform upper surface being fixedly mounted on base (29-4) of multiple adjustable for height position-limit mechanisms (29-3), base (29-4) upper surface is provided with the circular groove (29-5) corresponding with balance base (29-2), the bottom surface of described circular groove (29-5) is sphere, balance base (29-2) is placed in this circular groove (29-5), and the spherical radius of groove (29-5) bottom surface is greater than the radius of balance base (29-2) sphere.
4. a kind of hammer apparatus vibrates force at the core exercising machine according to claim 1, it is characterized in that: the hand-held heavy component of described training (1) comprises connecting rod (24), handle (22), fixed block (14) and multiple weight (13), connecting rod (24) is ' L ' shape body of rod, one end of connecting rod (24) is fixed with multiple weight (13) by fixed block (14), and handle (22) is fixedly mounted on the other end of connecting rod (24).
5. a kind of hammer apparatus vibrates force at the core exercising machine according to claim 1, it is characterized in that: described vibration component (17) involving vibrations assembly motor (18), eccentric wheel (19), slide rheostat (21) and portable power source (23), vibration component motor (18), eccentric wheel (19), slide rheostat (21) and dry cell (23) are installed on connecting rod (24), and vibration component motor (18), slide rheostat (21) and portable power source (23) outside are provided with shell, eccentric wheel (19) is fixedly mounted in the rotating shaft of vibration component motor (18), portable power source (23) is connected with vibration component motor (18) by slide rheostat (21).
6. a kind of hammer apparatus vibrates force at the core exercising machine according to claim 5, it is characterized in that: described eccentric wheel (19) also comprises eccentric wheel spring (19-3), groove lid (19-5) and multiple eccentric wheel weight (19-4), one end of eccentric wheel (19) is processed with groove (19-1), the other end of eccentric wheel (19) is processed with motor axis hole (19-2), eccentric wheel spring (19-3) is arranged on the bottom land of groove (19-1), multiple eccentric wheel weight (19-4) is arranged in groove (19-1), groove lid (19-5) is fixedly mounted on groove (19-1).
7. a kind of hammer apparatus vibrates force at the core exercising machine according to claim 1, it is characterized in that: described lifting frame (4) is processed with two connecting plates (4-1), each connecting plate (4-1) is fitted with a lead (12).
CN201420857322.3U 2014-12-30 2014-12-30 A kind of hammer apparatus vibration force at the core exercising machine Expired - Fee Related CN204293816U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420857322.3U CN204293816U (en) 2014-12-30 2014-12-30 A kind of hammer apparatus vibration force at the core exercising machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420857322.3U CN204293816U (en) 2014-12-30 2014-12-30 A kind of hammer apparatus vibration force at the core exercising machine

Publications (1)

Publication Number Publication Date
CN204293816U true CN204293816U (en) 2015-04-29

Family

ID=53099401

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420857322.3U Expired - Fee Related CN204293816U (en) 2014-12-30 2014-12-30 A kind of hammer apparatus vibration force at the core exercising machine

Country Status (1)

Country Link
CN (1) CN204293816U (en)

Similar Documents

Publication Publication Date Title
CN204307314U (en) Laser type superfine long-chain ball apparatus vibration force at the core training and information feed back exercising machine
CN204337683U (en) Superfine long-chain ball apparatus vibration force at the core exercising machine
CN204319706U (en) Laser type superfine long-chain ball apparatus vibration force at the core exercising machine
CN204307324U (en) A kind of hammer apparatus vibration force at the core training and information feed back exercising machine
CN204307323U (en) Superfine long-chain ball apparatus vibration force at the core training and information feed back exercising machine
CN204293816U (en) A kind of hammer apparatus vibration force at the core exercising machine
CN104474678B (en) Laser type hammer throw equipment vibration exercise and information feedback exerciser
CN204293815U (en) Laser type hammer apparatus vibration force at the core exercising machine
CN104548542A (en) Laser type javelin instrument vibration core strength training and information feedback device
CN204307308U (en) Discus apparatus vibration force at the core trainer
CN104492049A (en) Laser type super-equal-length hammer throw equipment vibration core stabilizing strength training and information feedback trainer
CN204395386U (en) Laser type superfine long-chain ball apparatus vibration exercising machine
CN204319707U (en) A kind of hammer apparatus vibration core stability force amount training and information feed back exercising machine
CN104606864B (en) Laser type weight throw instrument vibration core strength training and information feedback training device
CN204307309U (en) Superfine long-chain ball apparatus vibration core stability force amount training and information feed back exercising machine
CN204293817U (en) A kind of superfine long-chain ball apparatus vibration core stability force amount exercising machine
CN204352509U (en) A kind of hammer apparatus vibration core stability force amount exercising machine
CN204307313U (en) Laser type superfine long-chain ball apparatus vibration core stability force amount exercising machine
CN204293819U (en) A kind of laser type hammer apparatus vibration core stability force amount exercising machine
CN104548543B (en) A kind of superfine long hammer apparatus vibration training and feedback of the information exercising machine
CN204395385U (en) A kind of laser type hammer apparatus vibration exercising machine
CN204352510U (en) Discus apparatus vibration force at the core exercise and supervising device
CN204395387U (en) A kind of superfine long-chain ball apparatus vibration exercising machine
CN204411647U (en) A kind of hammer apparatus vibration exercising machine
CN104548545B (en) Hammer throw apparatus vibration training and information feedback trainer

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150429

Termination date: 20151230

EXPY Termination of patent right or utility model