RU2808626C1 - Clamping device for tensioning flat element - Google Patents

Abstract

FIELD: tension elements.

SUBSTANCE: invention relates to a clamping device for a flat tension element. The clamping device of the tension flat element contains a clamp and a stop. The clamp is made in the form of a part made of two symmetrical flat V-shaped elements connected by a jumper, at the ends of which, in the planes of the V-shaped elements, through coaxial holes are made and the first and second axes are placed, on the outer surfaces of which the first and second bushings are installed. At the tops of the flat elements along the axes of symmetry there are straight through coaxial cut-outs in which the third axis is located, on the outer cylindrical surface of which there are symmetrical flats located on two opposite sides along the cutouts in the tops of the clamp. A third bushing is installed along the outer diameter of the cylindrical surface of the third axis. The stop is located between the internal surfaces of the flat elements of the V-shaped clamp and is made in the form of a fourth axis with a fourth bushing along the outer diameter. A housing with a key is also included. The housing is made of a rectangular shape with side and end walls connected by a base, in the side walls of which there are coaxial holes and a parallel fourth axis, a fifth axis with a fifth bushing along the outer diameter, a sixth axis with a torsion spring along the outer diameter, as well as straight parallel through cuts, the longitudinal geometric axes of which are located on the line of the geometric axis of movement of the third axis and pass through the centers of the holes in which the fourth axis is located. The transverse axes of the cuts pass through the centers of the holes in which the sixth axis is located, and radial parallel through cuts are also made, the longitudinal axes of which are located on arcs with centers coinciding with the centers of the holes in which the sixth axis is located. A straight through cutout is made in the end wall of the housing, the axis of which is perpendicular to the planes of the side walls. The key is made of a rectangular shape from the side wall, end wall and wall connecting them. The side walls of the key have holes in which a parallel sixth axis and a seventh axis with a sixth bushing along the outer diameter are placed. The side walls of the key have straight blind grooves that interact with the third axis. The longitudinal axes of the grooves pass through the centers of the holes to accommodate the sixth axis. The torsion spring is installed on the sixth axis, the hooks of which interact with the internal surfaces of the connecting wall of the key and the end wall of the housing.

EFFECT: ensuring constant fixation of the flat tension element, eliminating the possibility of damage to the tape when fixing and pulling through the clamping device, as well as the ability to change the fixation force and the length of the tape under load with one hand.

1 cl, 6 dwg

Description

The invention relates to space technology when performing operations outside of shipboard activities, namely to clamping devices for continuously adjusting the length and holding flat tension elements such as tape, slings, belts with the formation of a loop on it.

The design of the clamping device provides a high degree of reliability and safety with wide operational capabilities.

Description of the invention: The invention relates to meeting the vital needs of a person, namely to clamping devices for continuously adjusting the length and holding a flat tension element such as a tape, sling, belt, etc. The invention can be used in the production of accessories, for clamping devices for sports goods, rigging work, halyards of variable length for off-board activities of astronauts and professional activities of climbers and rescuers.

A belt clamping device in the form of a buckle is known, containing two interlocking parts: a hollow body with transverse bars and a tongue movable relative to the body that secures the belt in the buckle (see patent RU 2025998 MPK: A44B 11/00).

The disadvantages of this clamping device are the need for forced fixation and the likelihood of damage to the belt in the buckle.

A clamping device for adjusting the length of a belt in the form of a buckle is also known, containing a clamp in the form of a flat part with a shank and a frame between which the belt is clamped (see patent RU 2079279 MPK: A44B 11/00).

The disadvantages of this clamping device are the need for forced fixation of the belt in the buckle and the lack of protection from external influences on the clamp and when it is rotated, the belt fixation force is weakened.

The closest technical solution, chosen as a prototype for the claimed invention, is a tape clamping device containing a frame with a stop and a clamp in the form of a bar that is movable relative to the stop (see patent RU 2111692 MPK: A44B 11/00).

The disadvantages of this clamping device are weak fixation of the tape with insignificant pulling forces due to the dependence of the fixation force on the pulling force and the impossibility of changing the length of the tape under load.

The objective of the present invention is to eliminate these disadvantages by ensuring permanent fixation of a flat tension element, for example a tape, eliminating the possibility of damage to the tape when fixing and pulling through a clamping device, as well as the ability to change the fixation force and the length of the tape under load with one hand, which ensures a high degree of reliability and safety during the movement of an astronaut in conditions of weightlessness on the outer surface of a space object.

The technical result is achieved by the fact that in the clamping device of the tension flat element containing a clamp and a stop, in contrast to the known one, the clamp is made in the form of a part from two symmetrical V-shaped flat elements connected by a jumper, at the ends of which in the planes of the V-shaped elements through coaxial holes are made and the first and second axes are placed, on the outer surfaces of which the first and second bushings are installed, and at the tops of the flat elements along the axes of symmetry, straight through coaxial cutouts are made, in which the third axis is located, on the outer cylindrical surface of which symmetrical flats are made , located on two opposite sides along the cutouts in the vertices of the clamp, a third bushing is installed along the outer diameter of the cylindrical surface of the third axis, the stop is located between the internal surfaces of the flat elements of the V-shaped clamp and is made in the form of a fourth axis with a fourth bushing along the outer diameter, and also a housing with a key is introduced, while the housing is made of a rectangular shape with side and end walls connected by a base, in the side walls of which coaxial holes are made and a parallel fourth axis, a fifth axis with a fifth bushing along the outer diameter, a sixth axis with a torsion spring along the outer diameter are placed diameter, as well as straight parallel through cuts, the longitudinal geometric axes of which are located on the line of the geometric axis of movement of the third axis and pass through the centers of the holes in which the fourth axis is located, and the transverse axes of the cuts pass through the centers of the holes in which the sixth axis is located, as well as radius parallel through cutouts are made, the longitudinal axes of which are located on arcs with centers coinciding with the centers of the holes in which the sixth axis is located, a straight through cutout is made in the end wall of the case, the axis of which is perpendicular to the planes of the side walls, the key is made of a rectangular shape from the side, end and the walls that unite them, in the side walls of the key there are holes in which a parallel sixth axis and a seventh axis with a sixth bushing along the outer diameter are placed, while straight blind grooves are made in the side walls of the key interacting with the third axis, the longitudinal axes of the grooves pass through the centers of the holes for placing the sixth axis, the torsion spring is installed on the sixth axis, the hooks of which interact with the internal surfaces of the connecting wall of the key and the end wall of the housing.

The essence of the invention is illustrated by drawings, which show:

fig. 1. - clamping device in its original position;

fig. 2. - position of the key and the clamp when releasing the tape;

fig. 3. - location of the axes relative to the body and key;

fig. 4. - location of holes and cutouts in the housing;

fig. 5. - location of holes and grooves in the cover;

fig. 6. - clamp.

The clamping device of the tension flat element contains a clamp 1 made in the form of a part of two symmetrical V-shaped flat elements connected by a jumper, at the ends of which in the planes of the elements there are through coaxial holes and the first 2 and second axes 3 are located. On the outer surfaces of the first 2 and second axis 3, the first 4 and second bushings 5 are installed, and at the tops of the flat elements along the axes of symmetry, straight through coaxial cutouts are made, in which the third axis 6 is located, on the outer cylindrical surface of which symmetrical flats are made, located on two opposite sides along the cutouts in the vertices pressing. A third bushing 7 is installed along the outer diameter of the cylindrical surface of the third axis 6. The stop is located between the internal surfaces of the flat elements of the V-shaped clamp and is made in the form of a fourth axis 8 with a fourth bushing 9 along the outer diameter. A housing 10 with a key 11 is introduced, while the housing is made of a rectangular shape with side and end walls connected by a base, in the side walls of which coaxial holes are made and a parallel fourth axis 8, a fifth axis 12 with a fifth bushing 13 along the outer diameter, a sixth axis are placed 14 with a torsion spring 15 along the outer diameter. In the side walls of the housing 10 there are also straight parallel through cutouts, the longitudinal geometric axes of which are located on the line of the geometric axis of movement of the third axis 6 and pass through the centers of the holes in which the fourth axis 8 is located, and the transverse axes of the cutouts pass through the centers of the holes in which the the sixth axis 14, as well as radial parallel through cuts, the longitudinal axes of which are located on arcs with centers coinciding with the centers of the holes in which the sixth axis 14 is located. A straight through cut is made in the end wall of the housing 10, the axis of which is perpendicular to the planes of the side walls. Key 11 is made of a rectangular shape from side, end and connecting walls. In the side walls of the key 11 there are holes in which the parallel sixth axis 14 and the seventh axis 16 with the sixth sleeve 17 along the outer diameter are placed, while in the side walls of the key 11 there are straight blind grooves interacting with the third axis 6, the longitudinal axes of the grooves pass through the centers of the holes for placing the sixth axis 14, a torsion spring 15 is installed on the sixth axis 14, the hooks of which interact with the internal surfaces of the connecting wall of the key 11 and the end wall of the housing 10.

In the initial position of the clamping device (see Fig. 1), the tape is fixed to form a small loop between the inner side of the clamp 1 and the stop, consisting of an axis 8 and a sleeve 9, due to the movement of the axis 6 of the clamp 1 in the cutouts of the side walls of the housing 10 and the side grooves walls of the key (see Fig. 3, 4 and 5) using key 11, under the action of spring 15. In the initial position, in the absence of external influence on the working part of the tape (see Fig. 1), the tape is guaranteed to be fixed in the clamping device between the outer surface of the stop sleeve 9 and the working surfaces of the clamp 1 (see Fig. 6).

Under external influence of the force of pulling the working part of the tape (see Fig. 1) in direction A from the housing 10 of the clamping device, the tape, bending around the outer surfaces of the clamp 1 and bushings 5, 7 and 4 in a large loop, moves the clamp 1 in the direction And, while the working surfaces of the clamp 1 (see Fig. 6) and the outer surface of the stop sleeve 9 provide wedge fixation of the tape, and the fixation force is proportional to the force of pulling the tape from the clamping device.

Changing the length of the working part of the tape is carried out in the following sequence:

To increase the length of the working part of the tape, apply force to key 11 in direction B (see Fig. 1), while key 11 rotates around axis 14 and, using grooves in the side walls (see Fig. 5), acts on axis 6 clamp 1, moving the axis 6 in the cutouts of the side walls of the housing 10 (see Fig. 3 and 4) together with clamp 1 in the direction of arrow G (see Fig. 2). Gaps are formed between the outer surface of the stop sleeve 9, the tape and the working surface of the clamp 1, which lead to the release of the small loop of the tape and the possibility of increasing the length of the working part of the tape by pulling the working part of the tape from the clamping device in the direction of arrow A (see Fig. 2).

To reduce the length of the working part of the tape, apply force to the free part of the tape in direction B (see Fig. 1), while the tape, resting on the sleeve 13 of the axis 12, moves the axis 16 of the key 11 in the direction D (see Fig. 2) in grooves in the side walls of the housing 10, as a result of which the key 11 rotates around the axis 14 and, with the help of grooves in the side walls (see Fig. 5), acts on the axis 6 of the clamp 1, moving the axis 6 in the cutouts of the side walls of the housing 10 (see Fig. 3 and 4) together with clamp 1 in the direction of arrow G (see Fig. 2). Gaps are formed between the outer surface of the stop sleeve 9, the tape and the working surface of the clamp 1, which lead to the release of the small loop of the tape and the possibility of pulling the free part of the tape from the clamping device in the direction of arrow B and reducing the length of the working part of the tape in the direction of arrow E (see Fig. .2).

In the design of the clamping device, bushings 4, 5, 7, 9, 13 and 17 are installed on axes 2, 3, 6, 8, 12 and 16, respectively, to reduce the friction force of moving the tape when changing the length of the working part of the tape, and wedge fixation of the tape between the outer The surface of the stop sleeve 9 and the working surfaces of the clamp 1 prevent damage to the tape.

Claims (1)

A clamping device for a tension flat element containing a clamp and a stop, characterized in that the clamp is made in the form of a part of two symmetrical V-shaped flat elements connected by a jumper, at the ends of which in the planes of the V-shaped elements through coaxial holes are made and the first and the second axis, on the outer surfaces of which the first and second bushings are installed, and at the tops of the flat elements along the axes of symmetry there are straight through coaxial cutouts in which the third axis is located, on the outer cylindrical surface of which there are symmetrical flats located on two opposite sides along the cutouts in at the tops of the clamp, a third bushing is installed along the outer diameter of the cylindrical surface of the third axis, the stop is located between the internal surfaces of the flat elements of the V-shaped clamp and is made in the form of a fourth axis with a fourth bushing along the outer diameter, and a housing with a key is inserted, while the housing is made rectangular in shape with side and end walls connected by a base, in the side walls of which coaxial holes are made and a parallel fourth axis, a fifth axis with a fifth bushing along the outer diameter, a sixth axis with a torsion spring along the outer diameter, as well as straight parallel through cuts are placed, the longitudinal geometric axes of which are located on the line of the geometric axis of movement of the third axis and pass through the centers of the holes in which the fourth axis is located, and the transverse axes of the cutouts pass through the centers of the holes in which the sixth axis is located, and also radius parallel through cuts are made, the longitudinal axes of which located on arcs with centers coinciding with the centers of the holes in which the sixth axis is located, in the end wall of the case there is a straight through cutout, the axis of which is perpendicular to the planes of the side walls, the key is made of a rectangular shape from the side, end and connecting them walls, in the side walls of the key holes are made in which a parallel sixth axis and a seventh axis with a sixth bushing along the outer diameter are placed, while straight blind grooves are made in the side walls of the key interacting with the third axis, the longitudinal axes of the grooves pass through the centers of the holes to accommodate the sixth axis, a torsion spring installed on the sixth axis, the hooks of which interact with the internal surfaces of the connecting wall of the key and the end wall of the housing.