CN103006242A - Grounder track-type limbs coordination exercise capacity test system - Google Patents

Abstract

The invention provides a grounder track-type limbs coordination exercise capacity test system. The system includes a grounder orbital motion disc and a strut, wherein an irregular track is arranged on the grounder orbital motion disc; the track comprises a start end and a termination end; a grounder is arranged in the track; the track is communicated with a plurality of turnoffs; a counting sensor is arranged in each turnoff; the counting sensors are connected with an electronic recorder; a left foot control lever and a right foot control lever are respectively connected with the left end and the right end of the grounder orbital motion disc; a left hand control lever and a right hand control lever are respectively connected with the front end and the rear end of the grounder orbital motion disc; the left and right foot control levers as well as the left and right hand control levers extend to the rear end of the grounder orbital motion disc; and the grounder orbital motion disc is supported at the top of the strut, and is in spherical surface match with the top end of the strut. By adopting the system, limbs co-operation control capacity of a person to be tested can be objectively and precisely measured so as to provide objective and precise basis for special personnel selection of the army and the local.

Description

Spin rail mounted hand-foot coordination motor capacity test macro

Technical field

The present invention relates to a kind of coordination ability test macro, especially a kind of spin rail mounted hand-foot coordination motor capacity test macro.

Background technology

By modes such as online access, patent search, the investigation of psychology instrument manufacturer and game operations, we recognize that present both hands or double-legged co-operating ability measurement apparatus and instrument have had two hands coordination capability measuring instrument, Dual-Arm Coordination capability measuring instrument and double-legged coordination ability exercising device.The two hands coordination capability measuring instrument is divided into again regular psychometry instrument and non-normal various game item is measured, but trick operates simultaneously and the interactional instrument that trick co-operating ability is accurately measured is not also found, therefore, the talent with special skills that is difficult to carry out the higher trick co-operating control ability of needs is selected.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of spin rail mounted hand-foot coordination motor capacity test macro that can accurately measure people's hand and foot coordination skill, to overcome the defects of prior art.

In order to solve the problems of the technologies described above, the present invention adopts following technical scheme: a kind of spin rail mounted hand-foot coordination motor capacity test macro, comprise spin orbital motion dish and pillar, described spin orbital motion dish is provided with irregular track, track comprises at the beginning end and a clearing end, be provided with a spin in the described track, the side of track also is communicated with a plurality of turnouts, be equipped with the counting induction apparatus in each turnout, described counting induction apparatus is connected with an electronic recorder, the left side of described spin orbital motion tray bottom, right two ends are connected with respectively the left foot stick, the right crus of diaphragm stick; The forward and backward two ends of described spin orbital motion tray bottom are connected with respectively left hand stick and right hand stick, described left foot stick, right crus of diaphragm stick, left hand stick and right hand stick all extend to the rear end of spin orbital motion dish, described spin orbital motion dish is supported on the top of described pillar, and spin orbital motion dish is that sphere cooperates with the top of described pillar.

Preferably, also be provided with a plurality of climb and fall obstacles on the track of described spin orbital motion dish.

Further, described starting end and clearing end are respectively equipped with the timing induction apparatus, and described timing induction apparatus also is connected with electronic recorder.

Further, described electronic recorder comprises interconnected signal adapter, timer sum counter.

Further, one end of described left foot stick, right crus of diaphragm stick, left hand stick and right hand stick is separately fixed at left end middle position, right-hand member middle position, front end middle position and the rear end middle position of spin orbital motion tray bottom, the other end of described left foot stick and left hand stick extends to spin orbital motion back-end disk lower left, and the other end of right crus of diaphragm stick and right hand stick extends to spin orbital motion back-end disk lower right.

Further, also be provided with on the described pillar for the stopping means that limits spin orbital motion dish deflection angle.

Further, described stopping means is to be arranged on the support arm of four direction all around, and an end of described support arm is fixed on the pillar, and the other end of support arm extends to the bottom surface of spin orbital motion dish.

Further, described spin orbital motion dish also is furnished with a chair lift.

Further, described chair lift comprises seat, ut socket, screw rod and base, and the ut socket upper end is connected with the seat, and ut socket and screw flight cooperate, and the screw rod lower end is fixedly connected with base, and described seat is provided with backrest, and backrest is provided with seat belt.

Further, described counting induction apparatus comprises again primary inductor (A, B, D, E, F, H, I, J, K, L, M, N, O, Q, S, T) and secondary inductor (C, G, P, R, U).

As mentioned above, spin rail mounted hand-foot coordination motor capacity test macro of the present invention, have following beneficial effect: this device can carry out objective and accurate measurement by the trick co-operating control ability to the experimenter, for the choice of army and local talent with special skills provides objectively, accurate foundation, such as selecting pilot, unmanned plane operator, naval vessels firearms hands, special technical soldier, space flight personnel etc.

Description of drawings

Fig. 1 is the spin orbit plane schematic diagram of spin rail mounted hand-foot coordination motor capacity test macro of the present invention.

Fig. 2 is the structure chart of spin rail mounted hand-foot coordination motor capacity test macro of the present invention.

Fig. 3 is chair lift schematic diagram in the spin rail mounted hand-foot coordination motor capacity test macro of the present invention.

Fig. 4 is the working state schematic representation of spin rail mounted hand-foot coordination motor capacity test macro of the present invention.

Among the figure: 1 spin orbital motion dish, 2 pillars

11 spin, 12 tracks

13 starting ends, 14 clearing ends

15 turnouts, 3 counting induction apparatuss

71 left foot sticks, 72 right crus of diaphragm sticks

73 left hand sticks, 74 right hand sticks

21 stopping means, 16 climb and fall obstacles

32 timing induction apparatuss, 33 timing induction apparatuss

6 chair lifts, 61 seats

62 ut sockets, 63 screw rods

64 bases, 65 backrests

66 seat belt, 31 electronic recorders

The 52-55 support arm

The specific embodiment

The structure that Figure of description illustrates, ratio, size etc., equal contents in order to cooperate description to disclose only, understand and reading for person skilled in the art scholar, be not to limit the enforceable qualifications of the present invention, therefore the technical essential meaning of tool not, the adjustment of the modification of any structure, the change of proportionate relationship or size not affecting under the effect that the present invention can produce and the purpose that can reach, all should still drop on disclosed technology contents and get in the scope that can contain.Simultaneously, quote in this description as " on ", the term such as D score, 'fornt', 'back', " centre ", also only for ease of understanding of narrating, but not in order to limit the enforceable scope of the present invention, the change of its relativeness or adjustment, under without essence change technology contents, when also being considered as the enforceable category of the present invention.

A kind of spin rail mounted hand-foot coordination motor capacity test macro as depicted in figs. 1 and 2, comprise spin orbital motion dish 1 and pillar 2, described spin orbital motion dish 1 is provided with irregular track 12, it is full of twists and turns that track 12 is labyrinth-like, track 12 comprises holds 13 and one clearing end 14 at the beginning, be provided with a spin 11 in the described track 12, the side of track 12 also is communicated with a plurality of turnouts 15, be equipped with counting induction apparatus 3 in each turnout 15, described counting induction apparatus 3 is connected with an electronic recorder 31, described spin orbital motion dish 1 is a rectangle table top, its left side, right two ends are connected with respectively left foot stick 71, right crus of diaphragm stick 72; The forward and backward two ends of described spin orbital motion dish 1 are connected with respectively left hand stick 73 and right hand stick 74, described left foot stick 71, right crus of diaphragm stick 72, left hand stick 73 and right hand stick 74 all extend to the rear end of spin orbital motion dish 1, described spin orbital motion dish 1 is supported on the top of described pillar 2, and spin orbital motion dish 1 is that sphere cooperates with the top of described pillar 2.Preferably, also be provided with a plurality of climb and fall obstacles 16 on the track 12 of described spin orbital motion dish 1, climb and fall obstacle 16 gradients are less, have horizontal placement that vertical placement is also arranged, and improve the control difficulty of spin 11 with this.

Starting end 13 and clearing end 14 at spin orbital motion dish 1 are respectively equipped with timing induction apparatus 32,33, and described timing induction apparatus 32,33 also is connected with electronic recorder 31.Above-mentioned counting induction apparatus 3 comprises again primary inductor A, the B, D, E, F, H, I, J, K, L, M, N, O, Q, S, the T that are positioned at 15 porch, turnout and the secondary inductor C that is positioned at 15 depths, turnout, G, P, R, U.Numeration after primary inductor is touched is for once, and the numeration after secondary inductor is touched is three times, and as can see from Figure 1, the degree of depth in the turnout of secondary inductor is darker than primary inductor, so the number of times of being remembered is also just more.Electronic recorder 31 comprises interconnected signal adapter, timer sum counter.The cardinal principle of this device is exactly to convert each timing induction apparatus and the signal of counting induction apparatus to pulse signal by signal adapter, the time of calculating beginning and finishing by timer again, calculate the touched number of times of respectively counting induction apparatus 3 by enumerator, represent the number of times of experimenter's operate miss with counting induction apparatus 3 touched number of times, finally draw test result.

This end that installs described left foot stick 71, right crus of diaphragm stick 72, left hand stick 73 and right hand stick 74 is separately fixed at left end middle position, right-hand member middle position, front end middle position and the rear end middle position of spin orbital motion dish 1 bottom, the other end of described left foot stick 71 and left hand stick 73 extends to lower left, spin orbital motion dish 1 rear end, and the other end of right crus of diaphragm stick 72 and right hand stick 74 extends to lower right, spin orbital motion dish 1 rear end.Operation for the ease of the experimenter, left hand stick 73 and right hand stick 74 are arranged on left foot stick 71 and right crus of diaphragm stick 72 tops, when the experimenter operates, spin orbital motion dish 1 can tilt to different directions take pillar 2 as fulcrum, thus the direction of motion of control spin 11 in track 12; Also be provided with the stopping means 21 for restriction spin orbital motion dish 1 deflection angle on the pillar 2, described stopping means 21 is for being arranged on the support arm 52,53,54,55 of four direction all around, described support arm 52, an end of 53,54,55 are fixed on the pillar 2, support arm 52,53,54,55 the other end extend to the bottom surface of spin orbital motion dish 1 and leave the space with the bottom surface of spin orbital motion dish 1, spin orbital motion dish 1 both can have been tilted within the specific limits, be unlikely to again fully out of control tumbling.

In order to make the experimenter control better this device with extremity, as shown in Figure 3, spin orbital motion dish 1 also is furnished with a chair lift 6.Chair lift 6 comprises seat 61, ut socket 62, screw rod 63 and base 64, ut socket 62 upper ends are connected with seat 61, ut socket 62 and screw rod 63 threaded engagement, and screw rod 63 lower ends are fixedly connected with base 64, described seat 61 is provided with backrest 65, and backrest 65 is provided with seat belt 66.The experimenter can adjust according to individual's practical situation the height at seat 61, makes to lay oneself open to the optimum position and test, and also is provided with seat belt 66 on the backrest 65, can avoid like this experimenter's health when testing unstable.

Be illustrated in figure 4 as the working state schematic representation of this device, the experimenter is sitting on the chair lift 6, adjust height, buckle well seat belt 66, both hands are held the left hand and right hand stick, bi-pedal is on left and right foot lever, spin 11 is put into track 12 starting ends 13 test, spin 11 is from the timing induction apparatus 32 beginning timing of touching starting end 13, until test finishes during the timing induction apparatus 33 of spin 11 touching clearing ends 14, at this moment, test result will be processed and output by electronic recorder 31.

In sum, spin rail mounted hand-foot coordination motor capacity test macro of the present invention can accurately be tested individual's trick co-operating ability.So the present invention is having important value and is using meaning aspect the special post talent of choice.

Above-mentioned embodiment is illustrative principle of the present invention and effect thereof only, but not is used for restriction the present invention.The present invention also many aspects can also improve such as the material of spin, the layout type of each obstacle etc. under the prerequisite of overall thought.Therefore, all can be under spirit of the present invention and category for person skilled in the art scholar, can modify or change above-described embodiment.Therefore, have in the technical field under such as and know that usually the knowledgeable modifies or changes not breaking away from all equivalences of finishing under disclosed spirit and the technological thought, must be contained by claim of the present invention.

Claims (10)

1. spin rail mounted hand-foot coordination motor capacity test macro, it is characterized in that: comprise spin orbital motion dish (1) and pillar (2), described spin orbital motion dish (1) is provided with irregular track (12), track (12) comprises at the beginning end (13) and a clearing end (14), be provided with a spin (11) in the described track (12), the side of track (12) also is communicated with a plurality of turnouts (15), be equipped with counting induction apparatus (3) in each turnout (15), described counting induction apparatus (3) is connected with an electronic recorder (31), the left side of described spin orbital motion dish (1), right two ends are connected with respectively left foot stick (71), right crus of diaphragm stick (72); The forward and backward two ends of described spin orbital motion dish (1) are connected with respectively left hand stick (73) and right hand stick (74), described left foot stick (71), right crus of diaphragm stick (72), left hand stick (73) and right hand stick (74) all extend to the rear end of spin orbital motion dish (1), described spin orbital motion dish (1) is supported on the top of described pillar (2), and spin orbital motion dish (1) is that sphere cooperates with the top of described pillar (2).

2. spin rail mounted hand-foot coordination motor capacity test macro according to claim 1 is characterized in that: also be provided with a plurality of climb and fall obstacles (16) on the track (12) of described spin orbital motion dish (1).

3. spin rail mounted hand-foot coordination motor capacity test macro according to claim 1, it is characterized in that: described starting end (13) and clearing end (14) are respectively equipped with timing induction apparatus (32,33), and described timing induction apparatus (32,33) also is connected with electronic recorder (31).

4. spin rail mounted hand-foot coordination motor capacity test macro according to claim 3, it is characterized in that: described electronic recorder (31) comprises interconnected signal adapter, timer sum counter.

5. spin rail mounted hand-foot coordination motor capacity test macro according to claim 1, it is characterized in that: described left foot stick (71), right crus of diaphragm stick (72), one end of left hand stick (73) and right hand stick (74) is separately fixed at the left end middle position of spin orbital motion dish (1) bottom, the right-hand member middle position, front end middle position and rear end middle position, the other end of described left foot stick (71) and left hand stick (73) extends to spin orbital motion dish (1) lower left, rear end, and the other end of right crus of diaphragm stick (72) and right hand stick (74) extends to spin orbital motion dish (1) lower right, rear end.

6. spin rail mounted hand-foot coordination motor capacity test macro according to claim 1 is characterized in that: also be provided with the stopping means (21) for restriction spin orbital motion dish (1) deflection angle on the described pillar (2).

7. spin rail mounted hand-foot coordination motor capacity test macro according to claim 6, it is characterized in that: described stopping means (21) is for being arranged on the support arm of four direction (52,53,54,55) all around, one end of described support arm (52,53,54,55) is fixed on the pillar (2), and the other end of support arm (52,53,54,55) extends to the bottom surface of spin orbital motion dish (1).

8. spin rail mounted hand-foot coordination motor capacity test macro according to claim 1, it is characterized in that: described spin orbital motion dish (1) also is furnished with a chair lift (6).

9. spin rail mounted hand-foot coordination motor capacity test macro according to claim 8, it is characterized in that: described chair lift (6) comprises seat (61), ut socket (62), screw rod (63) and base (64), ut socket (62) upper end is connected with seat (61), ut socket (62) and screw rod (63) threaded engagement, screw rod (63) lower end is fixedly connected with base (64), described seat (61) is provided with backrest (65), and backrest (65) is provided with seat belt (66).

10. spin rail mounted hand-foot coordination motor capacity test macro according to claim 1, it is characterized in that: described counting induction apparatus (3) comprises again primary inductor (A, B, D, E, F, H, I, J, K, L, M, N, O, Q, S, T) and secondary inductor (C, G, P, R, U).

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