RU2195353C2 - Running track - Google Patents

Abstract

FIELD: sports equipment. SUBSTANCE: running track has rolls pressed into flexible couplings and belts. Upper and lower layers of each coupling and upper layer of each belt are manufactured from resilient friction material. Middle layer is made from porous resilient material and lower layer of each belt is made from resilient antifriction material. Working belts are laid onto roll couplings. Bars of break contact are positioned in windows of upper lateral horizontal surfaces of upper base. Break contact casings rest upon lower horizontal surface of upper base and fixed thereon. Each outer neck of supporting rolls is located in force transformation unit and each inner neck of supporting rolls is located in orienting unit. EFFECT: enhanced reliability in operation and increased service life. 4 dwg

Description

 The invention relates to simulators, and more particularly to "running" tracks used in the selection of promising runners for sports, in periodic studies of their musculoskeletal system in the scientific management of training, as well as for determining functional disorders of the musculoskeletal system in physical education.

 Known treadmill containing the drive belt, support rollers, each outer neck of which is placed in the unit of conversion of efforts, and each inner neck is in the orientation node of the roller (see RF patent 2135245, class A 63 B 22/02, 1998).

 A disadvantage of the known treadmill is the vibration resulting from the interaction of the legs with the training site, adversely affecting the duration of operation of the sensitive elements of the sensors.

 The present invention eliminates vibration, increases the duration of operation of the sensors, increases the working width of the training site without increasing the overall width of the treadmill and reduces the metal consumption of the support rollers.

 The technical result of the invention is to increase the duration of operation of the sensors.

 The specified technical result is achieved by the fact that the known treadmill containing the drive belt, support rollers, each outer neck of which is placed in the force conversion unit, and each inner neck is in the orientation unit of the roller, according to the invention contains an upper base with lateral and lower horizontal planes, lower base with horizontal main plane, external and internal vertical planes, vertical elongated holes in the vertical planes of the upper and lower base , bolts, elastic couplings, working and safety drive tapes and rods of the breaking contacts, and the bolts are placed in the vertical elongated holes of the vertical planes of the upper and lower bases and fixed, the rollers are pressed into the elastic couplings, the upper and lower layer of each coupling and the upper layer of each tape is made made of friction elastic material, the middle layer is made of porous elastic material, and the lower layer of each tape is made of antifriction elastic material, working tapes lie on the roller couplings, rods NC contacts are placed in the windows of the upper lateral horizontal planes of the upper base, and the NC bodies are supported on the lower horizontal plane of the upper base and are fixed to this base.

 This technical solution eliminates the vibration of the device, increases the duration of operation of the sensors, increases the width of the training site without increasing the overall width of the treadmill and reduces the metal consumption of the support rollers.

The invention is illustrated by drawings, where:
figure 1 shows a fragment of the training site of the treadmill, side view;
figure 2 is the same, a view from the engine;
figure 3 is the same, in cross section;
figure 4 is an electrical circuit safety shutdown of the electric motor.

The invention contains:
- the upper base with horizontal upper lateral and lower planes 1, 2 and vertical outer and inner planes 3, 4;
- lower base with the main horizontal plane 5, external and internal vertical planes 6, 7;
- vertical elongated holes 8 in the vertical planes 3, 4 of the upper base and the vertical planes 6, 7 of the lower base;
- bolts 9 fixed in vertical oblong holes 8 of the upper and lower bases;
- lifts 10 installed at the ends of the main horizontal plane 5 of the lower base, in contact with the lower plane 2 of the upper base;
- transformation nodes, each of which contains an external neck 11 of the support roller 12, placed in the guide 13 of the spherical support 14, in contact with the means of recording efforts through the liners 15, placed in the guides 16 of the housing 17 and transmitting the force to the sensors 18 through the transmission rod 19, and the transformation unit has an elastic gasket 20, in contact with the spherical support 14 from above and a fixed elastic split washer 21 placed in the inner annular recess 22 of the housing 17;
- orientation nodes of the support rollers 12, each of which contains an inner neck 11 of the support roller 12, placed in the guide 13 of the spherical support 14, placed in the inner sphere 23 of the housing 17, and the end face of the neck 11 of the support roller 12 is spring-loaded to the side sensor 18;
- three-layer other couplings 24 with support rollers 12 pressed into them, each of which has an upper and lower layer 25 made of friction elastic material and a middle layer 26 of porous elastic material;
- working and safety drive belts 27, 28 with an upper layer 25 made of friction elastic material, a middle layer 26 of porous elastic material and a lower layer 29 of antifriction elastic material;
- working drive tapes 27 lying on three-layer elastic couplings 24 of the rollers 12 and antifriction 30 placed on the horizontal lower plane 2 of the upper base between the couplings 24 of the rollers 12;
- safety drive tapes 28 lying on the antifriction 30 of the upper lateral planes 1 of the upper base;
- the rods 31 of the opening contacts 32 and the upper planes of the housings 17 of the conversion units, placed in the windows 33 of the upper lateral planes 1 of the upper base, are installed at the level of contact from below with the drive safety tape 28 and lie on the lower horizontal plane 2 of the upper base and are fixed to this base;
- a starter with a closing contact "Start" 34, the input connected to the positive pole of the power source, and the output to the coil 35 of the starter, the closing contact 36 of the relay of the starter, the input connected to the positive pole of the power source, and the output to the motor 37 and the coil 35 of the starter through the NC contact "Stop" 38 of the starter and the interconnected NC contacts 32 of the upper lateral planes 1 of the upper base, and the starter coil 35 with the output to the negative pole of the power source.

Device operation
Before the initial use of the treadmill, horizontal leveling of the upper base is carried out by using lifts 10, which provides the same conditions for studying the interaction of each leg under gravity conditions.

 By means of an elastic three-layer drive working tape 27 in contact with the elastic three-layer coupling 24 of the roller 12, the legs interact gently with the sensors 18 through the roller 12, the outer neck 11, the spherical support 14, the insert 15 and the transmission rod 19, as a result of which the vibration of this system is eliminated , providing an increase in the duration of operation of the sensors 18. At the same time, the soft interaction of the legs and antifrictions 30, installed between the elastic couplings 24 of the support rollers 12. and 14 of the orientation node of the roller 12 has the ability to navigate along the force vector, turning in the inner sphere 23 of the housing 17, and the inner neck 11 has the ability to move towards the side sensor 18.

 The rigid structure of the upper and lower bases fastened together by bolts 9 also contributes to the exclusion of vibration.

 To increase the working width of the training site, stop the rods 31 of the NC contacts 32 under the side safety belts 28, which are insured by accidentally changing the running direction and the foot interacting with one of the NC contacts 32 of the power supply circuit of the starter coil 35, which entails the disconnection of the relay 36 terminal starter disconnecting power to the motor 37.

 The invention allows to eliminate the vibration of the device, to increase the duration of the sensors and the working width of the training site without increasing the overall width of the device and reduce its metal consumption.

Claims (1)

 A treadmill containing a drive belt, support rollers, each outer neck of which is placed in a force conversion unit, and each inner neck is in a roller orientation unit, characterized in that it contains an upper base with lateral and lower horizontal planes, a lower base with a horizontal main plane , external and internal vertical planes, vertical elongated holes in the vertical planes of the upper and lower bases, bolts, elastic couplings, working and safety drive belts rods of the opening contacts, and the bolts are placed in the vertical oblong holes of the vertical planes of the upper and lower bases and fixed, the rollers are pressed into elastic couplings, the upper and lower layers of each coupling and the upper layer of each tape are made of friction elastic material, the middle layer is made of porous elastic material and the lower layer of each tape is made of antifriction elastic material, working tapes lie on the coupling of the rollers, the rods of the opening contacts are placed in the windows of the upper lateral horizons cial planes of the upper base, and housings break contacts rest on the bottom of the upper horizontal plane of the base and secured to this base.

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