RU2116643C1 - Grip for tension tests - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: grip has cylindrical body which accommodates wedge clamping jaws, jaw displacement rod, driving part and jaw guides. Pairs of holes are made in body at an angle, mirror-like relative to vertical axis of body. Jaws have two opposite cylindrical surfaces. One of surfaces contacts specimen and is made at an angle to jaw axis, equal to an angle of slope of body hole axis, and in parallel to vertical axis of body. Another surface is made in parallel to jaw axis and to axis of body hole. Guides for jaws have cylindrical surface and flat surface for contact with jaw. Jaws are arranged in two holes of body, and guides are positioned in vacant holes. Grip has also ball bearing assembly and flexible member for interaction with rod. Two holes for guides are made on each side relative to body axis. EFFECT: reduced labor consumption in grip manufacture, reduced grip dimensions. 3 cl, 2 dwg

Description

 The invention relates to mechanical tests, namely to wedge grips for tensile testing.

 Known wedge grip containing a housing, wedge clamping jaws, a rod and a nut with handles (reference book "Testing technique", M., "Mechanical Engineering", 1982, book 2, p. 319).

 The drawback of the capture is the difficulty in manufacturing it due to the wedge-shaped inner surface and the insignificant rigidity of the half-closed type housing.

 The closest in technical essence to the invention is a grip comprising a cylindrical body, wedge clamping jaws and a rod for moving jaws placed therein, as well as a drive part.

 A disadvantage of the known capture is the complexity of manufacturing the wedge surfaces of the housing and its large dimensions to provide the necessary rigidity, since the housing is made of an open type.

 The aim of the invention is to reduce the complexity of manufacturing, increasing the rigidity of the grip, reducing the overall dimensions and the possibility of manufacturing a hard grip with a closed case for heavy loads.

 This goal is achieved in that the grip for tensile testing, containing a cylindrical body, wedge clamping jaws placed therein and a rod for moving jaws, as well as a drive part, it is additionally provided with guides for clamping wedge jaws.

 A pair of holes are made in the cyclic capture housing at an angle mirror to its vertical axis, clamping wedge lips that have two opposite cylindrical surfaces and two opposite flat surfaces are placed in two holes, the contacting surface of the sample being made at an angle to the clamping wedge axis jaws equal to the angle of inclination of the axis of the hole in the cylindrical body and parallel to the vertical axis of the cylindrical body, and the other parallel to the axis of the clamping wedge jaws and the axis from version in a cylindrical housing. In the free holes made in the cylindrical grip housing, for example, two on each side relative to the axis of the housing, guides for clamping jaws are installed having a cylindrical surface and a flat surface for contacting with the clamping wedge sponge.

 In addition, to reduce the effect of dynamic loads on machine components, the gripper is equipped with a ball-bearing unit and an elastic element fixed to the drive part, which interacts with the rod through a ball-bearing unit. To ensure a hard stop, the drive engaging part with the capture housing relative to the test load has a shoulder on the rod.

 Comparative analysis with the prototype shows that the proposed capture is characterized in that it is provided with guides for clamping wedge jaws, and in the cylindrical body at an angle, mirror-like relative to its vertical axis, pairs of holes are made, clamping wedge jaws have two opposite cylindrical surfaces and two opposite flat surfaces, one of which in contact with the sample, is made at an angle to the axis of the clamping wedge-shaped jaw, equal to the angle of inclination of the axis of the hole in the cylindrical body and parallel to the vertical axis of the cylindrical body, and the other parallel to the axis of the clamping wedge-shaped sponge and the axis of the hole in the cylindrical body, the guides for the clamping wedge-shaped lips have a cylindrical surface and a flat surface for contacting the clamping wedge-shaped sponge, while the clamping wedge-shaped jaws are placed in two holes of the cylindrical body and the guides for them are in free holes, and the holes for the guides are two on each side relative to the axis of the cylindrical body.

 In addition, the gripper is additionally equipped with a ball-bearing assembly and an elastic element fixed to the drive part for interacting with the rod through the ball-bearing assembly, the rod having a shoulder to provide a hard stop for the drive part.

 In FIG. 1 shows a diagram of the proposed capture; in FIG. 2 is a top view of the capture.

The capture comprises a cylindrical housing 1, in which at the angle of, for example 15 ^o , three pairs of holes are made mirror-image relative to its vertical axis. The clamping wedge jaws 2 are placed in two holes, and the guides 3 are arranged in the other two pairs of holes along which the clamping wedge jaws 2 move. The cylindrical body 1 has an external thread and is mounted on the stem 4. A spring stop 5 is located at one end of the stem 4, with by means of which clamping wedge-shaped jaws 2 are held on it, and a thread is made on the other end of the rod for securing the gripper to the support of the tensile testing machine.

 The drive part of the gripper includes a threaded base 6 interacting with the cylindrical housing 1, an elastic element 7 fixed to the base 6 using rings 8 and 9. The elastic element interacts with the rod 4 through a ball-bearing assembly, while the lower bearing ring 10 is located on an elastic element, and the counterpart of the bearing on the base 6. On the rod 4 there is a groove 11 in which the balls 12 of the bearing are placed. The base 6 is equipped with handles 13, for rotation when installing the sample.

 Capture works as follows.

 Rotating the base 6, using the handles 13, translates the vertical movement of the housing 1 relative to the rod 4, while the guides 3 act on the wedge surfaces of the clamping jaws 2, moving them to the axis until it contacts the specimen installed between the working surfaces of the clamping jaws. Further, when the sample is stretched, the force arising in the sample additionally creates jamming of the clamping jaws 2 in the housing 1.

 To ensure the translational movement of the housing 1 relative to the stem 4, a pin 14 is installed in the housing, which contacts the stem with a lateral surface, and to limit the movement of the housing 1 relative to the stem 4, a limit pin 15 is located in the groove of the stem.

 Thus, by making the guides and clamping wedge-shaped jaws cylindrical and installing them in the holes made in the capture housing at a certain angle, it will significantly reduce the complexity of manufacturing the capture, as well as reduce its overall dimensions. The use of a ball-bearing assembly in the drive part of the gripper ensures ease of rotation of the drive part on the rod when securing the sample and damping the force to the opposite test load, and the presence of a shoulder on the rod ensures hard contact of the drive part with the gripper body.

Claims (3)

 1. Grip for tensile testing, containing a cylindrical body, the wedge clamping jaws placed therein and a rod for moving the jaws, as well as a drive part, characterized in that it is provided with guides for the clamping wedge jaws, and in the cylindrical case at an angle to the mirror pairs of holes are made on the vertical axis, clamping wedge lips have two opposite cylindrical surfaces and two opposite flat surfaces, one of which is in contact with the sample and is made at an angle to the axis of the clamping wedge-shaped sponge equal to the angle of inclination of the axis of the hole in the cylindrical body and parallel to the vertical axis of the cylindrical body, and the other parallel to the axis of the clamping wedge-shaped sponge and the axis of the hole in the cylindrical body, the guides for the clamping wedge-shaped jaws have a cylindrical surface and a flat contact surface with a clamping wedge-shaped sponge, while the clamping wedge-shaped jaws are placed in two holes of the cylindrical body, and the guides for them are in the free holes.  2. The grip according to claim 1, characterized in that it is provided with a ball bearing assembly and an elastic element fixed to the drive part for interacting with the rod through said ball bearing assembly, the rod having a shoulder to provide a hard stop for the drive part.  3. The grip according to claim 1, characterized in that the holes for the guides of the clamping wedge jaws are two on each side relative to the axis of the cylindrical body.

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