CN210960001U - Fruit fly motion training device - Google Patents

Abstract

The utility model relates to a fruit fly motion trainer belongs to fruit fly motion trainer technical field. Including the control box and be controlled by the rotary mechanism of control box, rotary mechanism includes first perpendicular baffle, the perpendicular baffle of second and bottom plate, install a plurality of rotation axes between two perpendicular baffles, the rotation axis is rotated by the control box drive, a plurality of rotation axes parallel, install a plurality of test tube clamps along the length direction of rotation axis, every test tube clamp all includes the symmetrical preceding clamp that just is in the coplanar of shape, the back clamp, first perpendicular baffle, the through-hole has all been seted up to the perpendicular baffle of second corresponding position department, all install the bearing in every through-hole, the rotation axis both ends are all installed in the bearing. The utility model discloses can prevent the fruit fly damage, improve the fruit fly athletic training volume, and be fit for each age group fruit fly athletic training.

Description

Fruit fly motion training device

Technical Field

The utility model relates to a fruit fly motion trainer belongs to fruit fly motion trainer technical field.

Background

At present, the existing fruit fly movement device is a Power Tower, and the device mainly has the following defects: 1) The Power Tower moving device promotes the fruit flies to do climbing movement by using a vertical vibration mode, when the fruit flies climb to the top of a vertical test tube, the fruit flies fall to the bottom of the test tube through vibration and climb, and in the moving process, the phenomenon that the wings are incomplete after a plurality of fruit flies are trained in a moving process is found, and the phenomenon is damage caused by vibration; 2) the Power Tower moving device utilizes the rotation of the transverse shaft of the test tube to promote the fruit flies to move, the movement is similar to the movement of a running platform, and in the experiment, people find that part of the fruit flies, especially the old fruit flies are easy to steal, lie prone on the test tube and do not move, but rotate together with the test tube, so that the effect of the movement training is weakened; 3) the Power Tower moving device cannot be suitable for climbing training of the aged fruit flies, and cannot adjust the climbing angle of the fruit flies, so that the load in climbing movement of the fruit flies cannot be adjusted, and the motion load of the fruit flies cannot be suitable for corresponding age groups.

Therefore, there is a need for a fruit fly athletic training device that overcomes the above-mentioned problems.

Disclosure of Invention

An object of the utility model is to solve the weak point that above-mentioned prior art exists, provide one kind and can prevent the fruit fly damage, improve the fruit fly athletic training volume, and be fit for the fortune fruit fly athletic training device of each age group fruit fly athletic training.

A fruit fly movement training device is characterized by comprising a control box 1 and a rotating mechanism controlled by the control box 1, wherein the rotating mechanism comprises a first vertical baffle 2, a second vertical baffle 3 and a bottom plate 14, a plurality of rotating shafts 12 are arranged between the two vertical baffles, the rotating shafts 12 are driven by the control box 1 to rotate, the rotating shafts 12 are parallel, a plurality of test tube clamps 13 are arranged along the length direction of the rotating shafts 12, each test tube clamp 13 comprises a front clamp body 13-1 and a rear clamp body 13-2 which are symmetrical in shape and are positioned on the same plane, through holes 26 are respectively arranged at the corresponding positions of the first vertical baffle 2 and the second vertical baffle 3, a bearing 15 is arranged in each through hole 26, and two ends of each rotating shaft 12 are arranged in the bearings 15;

preferably, a power module 4 is installed in the control box 1, the power module 4 is connected with a safety switch 6, the output end of the safety switch 6 is connected with a forward/reverse rotation retention time module 10, a rotating speed regulating module 11, an automatic/manual switching module 7, a forward/reverse rotation switching module 8 and a 180 °/90 ° switching module 9 which are connected in series, and the output end of the 180 °/90 ° switching module 9 is connected with a motor 5.

Preferably, the forward/reverse rotation staying time module 10 is a time relay, the rotating speed regulating module 11 is a speed relay, the automatic/manual switching module 7, the forward/reverse rotation switching module 8 and the 180 °/90 ° switching module 9 respectively comprise a first passage 7-1 and a second passage 7-2 which are connected in parallel, and a travel switch and a relay are respectively arranged on the two passages;

preferably, an automatic/manual control button 22 for controlling the automatic/manual switching module 7 to work, a forward/reverse control button 23 for controlling the forward/reverse switching module 8 to work, an angle control button 24 for controlling the 180 °/90 ° switching module 9 to work, and a rotation speed control button 25 for controlling the rotation speed regulating module 11 to work are installed outside the control box 1;

preferably, the number of the rotating shafts 12 is four;

preferably, an output shaft of the motor 5 is connected with a synchronizing wheel mechanism for controlling the four rotating shafts 12 to synchronously rotate, the synchronizing wheel mechanism comprises a main driving wheel 16 connected with the output shaft of the motor 5, and a first driving wheel 17, a second driving wheel 18, a third driving wheel 19 and a fourth driving wheel 20 which are respectively connected with the four rotating shafts 12, and a driving crawler 21 is sleeved outside the main driving wheel 16, the first driving wheel 17, the second driving wheel 18, the third driving wheel 19 and the fourth driving wheel 20;

preferably, the control box 1 is provided with a vent.

The utility model discloses a fruit fly motion training device structural design is ingenious, utilize the fruit fly antigravity climbing characteristic, make the fruit fly scramble the motion training in this telecontrol equipment, this device can be according to fruit fly week age, adjust the test tube angle, thereby be applicable to the fruit fly motion training of different week ages, when the fruit fly is in 1 week age to 3 week age stages, its climbing ability is strong, the test tube of dress fruit fly is fixed in on the test tube clamp 13 of fruit fly motion training device, make test tube clamp 13 and ground perpendicular, the climbing motion of perpendicular to ground is done to the fruit fly this moment, climb to test tube upper portion when the fruit fly, the test tube is automatic to overturn 180, the fruit fly gets back to the test tube bottom again, continue to scramble the motion training, = sin90 ° × fruit weight when climbing, the device adopts upset mode and non-vibration mode, consequently, can better protection fruit fly, prevent that the fruit fly is impaired, when the fruit fly is in4 weeks-6 week age stages, ageing can lead to scramble the ability and weaken, this moment, adjust the test tube clamp to become 45 ° angle position, from the test tube and reach the test tube and intervene the fruit fly again, the top of the relevant training principle of fruit fly again, the fruit fly motion training again, the fruit fly bottom of this prevents to walk behind the fruit fly, the fruit fly to walk behind the relevance formula, the fruit fly training principle that the fruit fly training gets back that the experiment is continuous training gets back that the fruit fly 6335, thereby the experiment is good, the fruit fly training gets back to the training that the fruit fly training that the experiment is good, the fruit.

Drawings

FIG. 1: the structure schematic diagram of the fruit fly exercise training device of the utility model;

FIG. 2: a block diagram of modules within the control box;

FIG. 3: the structure schematic diagram of the first vertical baffle or the second vertical baffle;

FIG. 4: a rotation process diagram of fixing the test tube at an angle of 45 degrees with the ground and then rotating the test tube by 90 degrees;

FIG. 5: the test tube is rotated 180 degrees after being fixed to the vertical.

In the figure: 1. A control box; 2. A first vertical baffle; 3. A second vertical baffle; 4. A power supply module; 5. a motor; 6. a safety switch; 7. an automatic/manual switching module; 7-1, a first pathway; 7-2, a second path; 8. a forward/reverse switching module; 9. a 180 DEG/90 DEG switching module; 10. a forward/reverse dwell time module; 11. a rotation speed regulation module; 12. a rotating shaft; 13. a test tube clamp; 13-1, a front clamp body; 13-2, a rear clamp body; 14. a through hole; 15. a bearing; 16. a main transmission wheel; 17. a first drive pulley; 18. a second transmission wheel; 19. a third transmission wheel; 20. a fourth transmission wheel; 21. a drive track; 22. an automatic/manual control button; 23. a forward/reverse rotation control button; 24. an angle control button; 25. a rotation speed control button; 26. and a through hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model provides a fruit fly movement training device, including control box 1 and the rotary mechanism that is controlled by control box 1, rotary mechanism includes first vertical baffle 2, second vertical baffle 3 and bottom plate 14, install four rotation axis 12 between two vertical baffles, rotation axis 12 is rotated by control box 1 drive, a plurality of rotation axis 12 are parallel, install a plurality of test tube clamps 13 along the length direction of rotation axis 12, each test tube clamp 13 includes symmetrical and be in the same planar preceding clamp 13-1, back clamp 13-2, first vertical baffle 2, second vertical baffle 3 correspond the position and have all seted up through-hole 26, all install bearing 15 in each through-hole 26, rotation axis 12 both ends are installed in bearing 15;

a power supply module 4 is installed in the control box 1, the power supply module 4 is connected with a safety switch 6, the output end of the safety switch 6 is connected with a forward/reverse rotation retention time module 10, a rotating speed regulating module 11, an automatic/manual switching module 7, a forward/reverse rotation switching module 8 and a 180 DEG/90 DEG switching module 9 which are connected in series, and the output end of the 180 DEG/90 DEG switching module 9 is connected with a motor 5;

the forward/reverse rotation staying time module 10 is a time relay, the rotating speed regulating module 11 is a speed relay, the automatic/manual switching module 7, the forward/reverse rotation switching module 8 and the 180 DEG/90 DEG switching module 9 respectively comprise a first passage 7-1 and a second passage 7-2 which are connected in parallel, and a travel switch and a relay are respectively arranged on the two passages.

An automatic/manual control button 22 for controlling the automatic/manual switching module 7 to work, a forward/reverse control button 23 for controlling the forward/reverse switching module 8 to work, an angle control button 24 for controlling the 180/90 switching module 9 to work, and a rotating speed control button 25 for controlling the rotating speed regulating module 11 to work are arranged outside the control box 1;

an output shaft of the motor 5 is connected with a synchronous wheel mechanism used for controlling the four rotating shafts 12 to synchronously rotate, the synchronous wheel mechanism comprises a main driving wheel 16 connected with the output shaft of the motor 5, and a first driving wheel 17, a second driving wheel 18, a third driving wheel 19 and a fourth driving wheel 20 which are respectively connected with the four rotating shafts 12, and a driving crawler 21 is sleeved outside the main driving wheel 16, the first driving wheel 17, the second driving wheel 18, the third driving wheel 19 and the fourth driving wheel 20;

the device control box 1 in the control box 1 is provided with a ventilation opening.

The working principle is as follows: when the fruit flies are in the stage of 1-3 weeks old, the climbing capability is strong, test tubes containing the fruit flies are fixed on a test tube clamp 13 of a fruit fly movement training device, the overturning time of the test tube clamp 13 is controlled by arranging a forward/reverse rotation staying time module 10, a rotating speed regulating module 11 is controlled by operating a rotating speed control button 25 so as to control the rotating speed of the test tube clamp 13, an automatic/manual control button 22 is operated to control one of a first passage 7-1 or a second passage 7-2 which are connected in parallel in an automatic/manual switching module 7 to be conducted so as to be regulated to be in an automatic state or a manual state, a forward/reverse rotation switching module 8 is controlled by operating a forward/reverse rotation control button 23 so as to control the motor 5 to rotate forwards or overturn, and a 180 DEG/90 DEG switching module 9 is controlled to work by operating an angle control button 24, thereby controlling the rotation angle of the test tube holder 13,

when the fruit flies are in the stage from 1 week old to 3 weeks old, the motor 5 is controlled to work through the modules, the test tube clamp 13 is perpendicular to the ground, the fruit flies perform climbing movement perpendicular to the ground, when the fruit flies climb to the upper portion of the test tube, the test tube automatically turns over 180 degrees, the fruit flies return to the bottom of the test tube and continue climbing movement training, the weight of the fruit flies = sin90 degrees × during climbing, the device adopts a turning mode rather than a vibration mode, so that the fruit flies can be well protected and prevented from being damaged, when the fruit flies are in the stage from 4 weeks old to 6 weeks old, the climbing capacity of the fruit flies is weakened, at the moment, the test tube clamp 13 is adjusted to enable the test tube to form a 45-degree angle position with the ground, the fruit flies climb from the bottom of the test tube to the top, the test tube turns over 90 degrees, the fruit flies return to the bottom of the test tube and continue climbing training, the weight of the fruit flies = sin45 degrees × degrees is good, and the fruit flies are prevented from climbing movement training device continuously.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A fruit fly movement training device is characterized by comprising a control box (1) and a rotating mechanism controlled by the control box (1), wherein the rotating mechanism comprises a first vertical baffle (2), a second vertical baffle (3) and a bottom plate (14), a plurality of rotating shafts (12) are arranged between the two vertical baffles, the rotating shafts (12) are driven by the control box (1) to rotate, the rotating shafts (12) are parallel, a plurality of test tube clamps (13) are arranged along the length direction of the rotating shafts (12), each test tube clamp (13) comprises a front clamp body (13-1) which is symmetrical in shape and is positioned on the same plane, back clamp body (13-2), through-hole (26) have all been seted up in the corresponding position department of first perpendicular baffle (2), second perpendicular baffle (3), all install bearing (15) in every through-hole (26), and rotation axis (12) both ends are all installed in bearing (15).

2. The fruit fly movement training device according to claim 1, characterized in that a power module (4) is installed in the control box (1), the power module (4) is connected with a safety switch (6), the output end of the safety switch (6) is connected with a forward/reverse rotation retention time module (10), a rotating speed regulation module (11), an automatic/manual switching module (7), a forward/reverse rotation switching module (8) and a 180 °/90 ° switching module (9) which are connected in series, and the output end of the 180 °/90 ° switching module (9) is connected with a motor (5).

3. The fruit fly movement training device as claimed in claim 2, wherein the forward/reverse rotation staying time module (10) is a time relay, the rotation speed regulating module (11) is a speed relay, the automatic/manual switching module (7), the forward/reverse rotation switching module (8) and the 180 °/90 ° switching module (9) respectively comprise a first passage (7-1) and a second passage (7-2) which are connected in parallel, and a travel switch and a relay are respectively arranged on the two passages.

4. A fruit fly exercise training device according to claim 3, wherein the control box (1) is externally provided with an automatic/manual control button (22) for controlling the operation of the automatic/manual switching module (7), a forward/reverse control button (23) for controlling the operation of the forward/reverse switching module (8), an angle control button (24) for controlling the operation of the 180 °/90 ° switching module (9), and a rotation speed control button (25) for controlling the operation of the rotation speed control module (11).

5. A fruit fly exercise training device according to claim 1, wherein the number of the rotary shafts (12) is four.

6. A fruit fly exercise training device as claimed in claim 2, wherein the output shaft of the motor (5) is connected with a synchronizing wheel mechanism for controlling the four rotating shafts (12) to rotate synchronously, the synchronizing wheel mechanism comprises a main driving wheel (16) connected with the output shaft of the motor (5), and a first driving wheel (17), a second driving wheel (18), a third driving wheel (19) and a fourth driving wheel (20) which are respectively connected with the four rotating shafts (12), and the driving tracks (21) are sleeved outside the main driving wheel (16), the first driving wheel (17), the second driving wheel (18), the third driving wheel (19) and the fourth driving wheel (20).

7. A fruit fly athletic training device as claimed in claim 1, wherein the control box (1) is provided with ventilation openings.

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