RU2063170C1 - Hand dynamometer - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: hand dynamometer has a load-transmitting element, made in the form of a ring rigidly secured on the casing, and a tie-rod in diametrically opposite points. A pin is positioned in the casing and tie-rod holes for axial movement; the pointer mechanism is provided with a clamp. EFFECT: improved design. 8 dwg

Description

 The closest analogue of the invention is a manual dynamometer (ed. St. USSR 1715363, A61B5 / 22, 1992), containing a force-sensing element made in the form of levers equipped with handles, a power-transmitting element made in the form of a cylinder and a hydraulic pressure gauge.

 However, such a dynamometer does not provide the ability to determine the tensile strength of the hand or fingers.

 The technical result from the use of the proposed dynamometer is to increase the information content due to the possibility of determining both the compression force of the hand and the tensile forces of the hand or fingers.

 The essence of the invention lies in the fact that in a manual dynamometer to determine the strength of the hand of the hand, comprising a housing, a power-transmitting element, a power-receiving mechanism made in the form of levers equipped with handles, and an arrow mechanism, the power-transmitting element is made in the form of a ring rigidly fixed to the housing and the rod in diametrically opposite points, in the holes of the housing and the thrust facing each other, there is a pin with the possibility of axial movement, the power-receiving mechanism is equipped with removable rings, arrow m The mechanism is equipped with a clip.

 Figure 1 and 2 shows a General view of the proposed manual dynamometer.

 The dynamometer comprises a housing 1, a power transmitting element 2, a clock mechanism (dial indicator) 3 with a clamp 4 rigidly mounted on the housing 1, a rod 5 with a support platform 6, a pin 7 placed in the holes of the housing 1 and the rod 5, levers 8 and 9 and platforms 10. On the rod 5, the load cells 11 are glued.

 The dynamometer operates as follows.

 When working on compression, the effort of the hand through the platforms 10, levers 8 and 9, the housing 1 and the rod 5 is transmitted to the power transmitting element 2, the platform 6 and the rod of the dial indicator (pointer) 3. After removing the force, the clamp 4 holds the indicator rod 3. In this case, the arrow of indicator 3 shows the maximum compression force of the hand.

 When working in tension, the support pads 10 are removed, and rings (not shown) are inserted into the holes of the ends of the levers 8 and 9, which are equipped with a dynamometer. The pressing device 4 is turned off. The tensile forces of the hand or fingers through the rings on the levers 8 and 9, the housing 1 and the rod 5 are transmitted to the power transmitting element 2, the platform 6 moves away from the indicator rod 3, which moves under the action of the indicator spring 3. After the tensile forces are removed, the indicator rod 3 returns to starting position.

 When the dynamographic curve is taken, the strain gages II are connected to the recording equipment.

 Such a technical solution provides a measurement of the hand grip of the hand and the tensile strength of the hand and fingers and allows the removal of the dynamographic curve. Calibration of the indicator scale (arrow pointer) for a given batch of wire is carried out on 3 5 instances of dynamometers.

 The dynamometer can be used both in medicine and in physical therapy for rehabilitation of the muscles of the forearm and sports.

Claims (1)

 A manual dynamometer comprising a housing, a power-transmitting element, a power-receiving mechanism made in the form of levers equipped with handles, and an arrow pointer, characterized in that the power-transmitting element is made in the form of an end and is rigidly fixed at diametrically located points with the housing and traction, while in the housing and the thrust made coaxial holes for the pin installed in them with the possibility of axial movement.

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