NO763940L - PHYSICAL EXERCISE EQUIPMENT. - Google Patents

Description

The present invention relates to a physical training device. There are previously known training devices where both stretching and pressure exercises can be performed using a single training device for training all muscles in the body.

The previously known apparatuses comprise compressible devices, usually a spring, which is housed in a pair of telescopic tubes with handles at their outer ends. When the handles are moved together, the spring is compressed, which thereby acts against this movement. An endless flexible rope or two lengths of rope connect the two handles so that the handles move together and compress the spring when the lengths of rope on opposite sides of the pipes are pulled apart. The rope is easily flexible<p>g resistance to movement of the handles against each other is exerted almost exclusively by the spring in the tubes.

The present invention concerns an exercise device with a pair of hand grips, two base parts which are slidable in relation to each other. to each other and are provided with handles for controlling their movement towards and away from each other, and a pair of elastically deformable rods connecting the handles, so that movement of the handles towards each other causes the rods to bend outwards, while pulling the rods apart moves hands together.

The steering parts are preferably designed as a pair of telescopic tubes.

The ends of the rods are also preferably pivotably attached to the handles.

It is advantageous that the rods are made of glass fiber and have

..a bending strength of approximately 8000 kg/cm - 20%.

It should be pointed out that the rods act as the springy part

element in the training device, and there is no need for one

spring or other compressible device in the telescopic tubes, which thereby only serve for steering. Both direct pulling of the rods away from each other or displacement of the handles causes the rods to bend outwards during simultaneous swinging of their ends. The force to be overcome is approximately constant from the beginning to the end of an exercise, and the muscles meet the right resistance right from the start of the movement onwards. the entire contraction area of the muscles.

The invention is characterized by the features set out in the claims and will be described in the following in the form of an example with reference to the drawing where:

Fig. 1 shows a training device seen from the side,

fig. 2 shows a handle on the training device on an enlarged scale and, with a part removed, and

fig. 3 shows the handle in fig. 2 seen from one edge,

but with all parts together.

A pair of hand grips 12 made of molded plastic have four recesses 13 for the fingers, so that one gets a good grip with the hand. The handles are molded as two halves 12A and 12B which are held together by screws 14, and they are integral with tubular parts 15 which are press-fitted into the ends of each respective telescopic tube, 16 and. 17, where the handles are attached by indentations. 18.

The telescopic tubes 17 and 17 are of chrome-plated metal, and along the inner tube 16 there is a recess with a scale 21, while a marking part 22 is slidable along the scale when the marking part comes into contact with the end 20 of the tubes 16vvédaat these slide telescopically in each other.

A pair of elastically deformable rods 23 are equidistant, from and on opposite sides of the tubes 16 and 17, and they have their ends pivotably attached to the handles. The rods are preferably made of glass fiber material with a bending stiffness of 8000 kg/cm 2 and have a thickness of e.g. 0.8 cm. In practice, these very elastic poles are made of the same material as the glass fiber poles that are now used for high jumps. The material's resistance-to-resistance bending always remains constant. However, the rods could be made of metal and be screw-wound.

As shown in fig. 2, one half of each handle is molded with two inwardly projecting studs 24 with center lines 25.

On each of the pins there is a brass sleeve 26. A pair cast

Claims (5)

turning parts 27 of plastic harborings 28 that fit the aforementioned sleeves 26 so that the turning parts can turn about the center lines 25. Each of the turning parts has a passage 30 for one end of a rod 23. Each end of each rod has a circumferential groove 31 where there is a metal disc 32, and the disc fits into the groove 33 in the swing part to hold the glass fiber rod firmly in it. As shown in fig. 3, the sides of the handles are made with spa slots that allow free movement of the ends of the rods in relation to the handles. Exercises can be performed by pushing or pulling the bars apart against their resistance to bending or by pushing the handles together also against the resistance of the bars to bending. As soon as pushing or pulling forces cease, the device is relieved and it springs back to its original position due to the elasticity of the rods. When it is assembled, the training device can be made with a certain tension or a certain arc in the rod. Patent claims. 1. Training apparatus, comprising a pair of hand grips, rigid control parts which are slidable in relation to each other and are connected to the hand grips for controlling their movement towards and away from each other, devices which counteract movement of the hand grips towards each other and devices which connect the hand grips so that outward pulling of the connecting parts away from the control parts moves the handles together, characterized in that the connecting parts comprise a pair of elastically deformable rods (23) which are designed to exert approximately all resistance to movement of the handles towards each other. 2. Training apparatus as stated in claim 1, characterized in that the control parts comprise a pair of telescopic tubes (16, 17). 3. Training apparatus as stated in claim 1, characterized in that the ends of the rods are pivotably attached to the handles. (12). 4. Training apparatus as specified in any one of claims 1-3, characterized in that each hand grip is made with two protruding pins (24) which stand at a distance from each other and on which the respective swivel parts (27) which are attached to the ends of the rods, are pivotally stored. 5. Training apparatus as specified in claims 1-4, characterized in that the poles are glass fiber reinforced.