RU163607U1 - CLAMP FOR PRELIMINARY VOLTAGE DEVICE FOR COMPOSITE FITTINGS - Google Patents

Abstract

1. A clamp for a prestressing device of composite reinforcement, comprising a housing with an internal conical cavity in which clamping jaws contacting the surface of the cavity are installed in an amount of two or more, means for fixing the jaws connected to the housing with respect to the rod reinforcement and transversely oriented to longitudinal the axis of the housing is a thrust plate with an inlet for reinforcement and designed to be connected to the tension means, while the housing is on the side of the larger base the hollow has longitudinally oriented grooves to its longitudinal axis, in which brackets protruding relative to the outer surface of the housing are rigidly connected to the clamping jaws, the working surfaces of which interact with the reinforcement and have a serrated notch, and the length of which corresponds to the ratio: L = (5-50 ) d, where d is the diameter of the composite reinforcement. 2. Clamp for the prestressing device of composite reinforcement according to claim 1, characterized in that the means for fixing the jaws relative to the rod reinforcement is made in the form of a pressure nut installed in the housing from the side of the ends of the clamping jaws. 3. The clamp for the prestressing device of composite reinforcement according to claim 1, characterized in that the means for fixing the jaws relative to the rod reinforcement is made in the form of a lever-swivel mechanism located on the outside of the housing, one of which is pivotally connected on one side to brackets mounted on the housing with the sides of the thrust plate, and on the other hand are pivotally connected to the link arms, one end of which is pivotally connected to the protruding relative

Description

The utility model relates to construction, in particular, to the clamps of prestressing devices of composite reinforcement.

There are various technical solutions for the design of clamps devices for prestressing bar reinforcement.

In the technical solution (see, for example, patent RU No. 1565994, publ. 23.05.90), the clamp of the prestressing device of the reinforcement comprises a housing with an internal conical cavity in which the clamping jaws are mounted, means for fixing the jaws relative to the rod reinforcement, which is made in the form interacting with the end part of the clamping jaws of a union nut mounted on the outer surface of the housing, at the opposite end of which a tensioning device is mounted in the form of a stop pipe screwed onto the outer surface of the housing , Free end of which is connected to the end support.

However, when implementing this technical solution, there is a slipping of the reinforcement relative to the smooth surfaces of the jaws in contact with it. The structural connection of the housing with the jaw fixing means and the tensioning means requires the housing to be fixed against rotation, which complicates the process of tensioning the fittings.

Clamp for bar reinforcement according to patent RU No. 61758, publ. 03/10/2007 contains a housing with clamping jaws, the working surface of which has a screw thread to improve contact with the surface of the reinforcement and increase the life of the jaws having means for elastic connection of the jaws with each other in the form of an elastic expansion ring located in the annular grooves of the jaws and the rear end which interacts with a compression spring in contact with a nut located in the housing.

However, the connection between the jaws and the clamping nut through the compression spring does not provide reliable fixation of various sizes of reinforcement in the clamping jaws. The presence of this connection, as well as an elastic expandable ring located in the annular grooves of the jaws, complicates the design of the clamp.

In the technical solution of the patent RU No. 94254, publ. 05/20/2010 a clamp for a prestressing device for composite reinforcement is proposed, comprising a hollow body, clamping jaws, a flare nut, a plate transversely oriented to the longitudinal axis of the body with an inlet for the reinforcement, and a tensioning device interacting with the plate in the form of a threaded pipe, the clamping jaws are made with an elongated tail section having additional annular grooves, protrusions of a conical and cylindrical shape, additionally introduced spring rings, a spring, an adjusting nut and screws, wherein the spring rings are located in the annular grooves of the clamping jaws, the adjusting nut is placed on the housing, and the adjusting screws are installed in the radial holes of the union nut located in the taper zone of the additional annular conical protrusions.

In this technical solution, the execution of the outer surface of the jaws with alternating conical and cylindrical surfaces, the presence of spring rings placed in the annular grooves of the clamping jaws, the presence of their rear part of the conical protrusions interacting with the spherical surface of the adjusting screws or with a longitudinally split insert, creating compression of the reinforcement in the length of the clamping jaws, in General, complicates the design of the device, and the use for the interaction of the protrusions of the tail with a spherical rhnosti adjusting screws or longitudinally split liner reduces the operational reliability of the whole device due to premature wear of the contacting surfaces.

When implementing this technical solution, the implementation of clamping jaws with alternating conical and cylindrical surfaces impairs operational reliability under conditions of prestressing of composite reinforcement with different diameters.

However, the technical solution according to patent RU No. 94254, publ. 05/20/2010, was chosen as the closest analogue of the claimed utility model, since this technical and the claimed utility model for functional purpose correspond to the clamp for the prestressing device of composite reinforcement and have a common set of design features for the implementation of the specified purpose of the product, namely:

a housing with an internal conical cavity in which clamping jaws contacting the surface of the cavity are installed, means for fixing the jaws to the rod reinforcement connected to the housing, and a plate transverse to the longitudinal axis of the housing with an inlet for the reinforcement and a tensioning means interacting with the plate.

The objective of this utility model was to simplify the design of the clamp for the prestressing device of composite reinforcement, to ensure its operational reliability, regardless of the diameter of the rod composite reinforcement.

To solve the technical solution proposed, a clamp for a prestressing device of composite reinforcement is proposed, comprising a housing with an internal conical cavity, in which clamping jaws in contact with the surface of this cavity are installed in an amount equal to two or more, means for fixing the jaws with respect to the rod reinforcement and transversely connected to the housing thrust plate oriented to the longitudinal axis of the housing with an inlet for reinforcement and designed to be connected to the tensioner the case, the case from the side of the larger base of its cavity has a groove longitudinally oriented to its longitudinal axis, in which there are brackets protruding relative to the outer surface of the body, rigidly connected to the clamping jaws, the working surfaces of which interact with the reinforcement have a serrated notch and the length of which corresponds to the ratio : L = (5-50) d, where d is the diameter of the composite reinforcement.

According to a utility model, the means for fixing the jaws relative to the rod reinforcement is made in the form of a pressure nut installed in the housing from the side of the ends of the clamping jaws.

According to a utility model, the means for fixing the jaws relative to the rod reinforcement is made in the form of a lever-swivel mechanism located on the outside of the housing, one of which is pivotally connected on one side to brackets mounted on the housing on the side of the thrust plate, and pivotally connected on the other side to levers - rods, one end of which is pivotally connected to the brackets protruding relative to the outer surface of the housing.

According to a utility model, the axis of rotation of the levers connected to the brackets mounted on the housing from the side of the thrust plate have eccentrics to control the compression force.

According to a utility model, the clip is provided with an annular cage fixing brackets protruding relative to the outer surface of the housing.

According to a utility model, the lever-swing mechanism is equipped with a locking mechanism for fixing the crimp of the rod reinforcement.

According to a utility model, a damping pad is located between the housing and the thrust plate.

According to a utility model, the angle between the conical surface of the housing and the longitudinal axis is 1-22 °.

The analysis of the prior art as a whole showed that the set of design features proposed in the claimed utility model and their relationship are not known from the prior art and meet the criteria of the utility model “novelty” and “industrial applicability”.

The proposed utility model can be used in construction for the design of clamps for prestressing devices of composite reinforcement based on fiberglass.

The utility model is illustrated by the following description and graphic materials, where:

Fig. 1 shows a general view of a clamp for a prestressing device of composite reinforcement with jaw fixing means in the form of a push nut (axonometric view, side view of jaw fixing means, section AA);

Fig. 2 shows a general view of a clamp for a prestressing device of composite reinforcement with jaw fixing means in the form of a lever-swivel mechanism (axonometry, view from the side of the jaw fixing means, section AA).

The clamp for the prestressing device of the composite reinforcement comprises a housing 1 with an internal conical cavity in which clamping jaws 2 contacting the surface of the cavity are installed, the number of which is two or more. A means for fixing the jaws relative to the rod reinforcement 3 is connected to the housing 1. The clamp on the side of the smaller base of the conical cavity of the housing has a thrust plate 4 transverse to the longitudinal axis of the housing with an inlet 5 for the reinforcement intended to be connected to the tensioning device (not shown in the figure) .

The design of the tension means may be different:

- in the form of a rigid frame in the production form of a concrete product with a movable bar, driven by hydraulic cylinders.

- in the form of a rigid frame in the production form of a concrete product with a movable bar, driven by a mechanical threaded tensioner.

- in the form of a separate, mobile spacer, between the tension bar and the clamp, which performs the function of tension, hydraulically or mechanically.

The housing 1 from the side of the larger base of its cavity has a groove 6 transversely oriented towards its longitudinal axis, in which brackets 7 protruding relative to the outer surface of the housing are rigidly connected to the clamping jaws 2. The working surfaces of the jaws 2 interacting with the reinforcement have a serrated notch, the length the working surface of the jaws corresponds to the ratio: L = (5-50) d, where d is the diameter of the composite reinforcement. The specified ratio is optimal according to the conditions of reliable interaction of the jaws with composite reinforcement of various diameters.

With a length L <5d, the contact surface area is insufficient, which either leads to the slipping of the reinforcement relative to the surface of the jaws, or to failure with a significant compression force of the fiberglass reinforcement. With a length L> 50d, the design parameters of the jaws significantly increase, which is technologically impractical.

The means for fixing the jaws relative to the reinforcement can be made in the form of a pressure nut 8 installed in the housing from the side of the ends of the clamping jaws 2, while the presence of brackets 7 in this case ensures the displacement of the jaws in case of jamming.

The means for fixing the jaws relative to the rod reinforcement can be made in the form of a lever-rotary mechanism, the levers 9 of which are pivotally connected on one side to the brackets 10 mounted on the housing 1 from the side of the thrust plate 4, on the other hand, the levers 9 are pivotally connected to the link arms 11 , one end of which is pivotally connected to the brackets 7 protruding relative to the outer surface of the housing. The brackets 7 are located in an annular ring 12 covering the housing 1. The free ends of the link arms 11 are designed for power impact in the fixing mode of the jaws 2 relative to the rod reinforcement. The rotation axis of the levers 9 connected to the brackets 10 have an eccentric (not shown) to control the compression force. The lever-rotary mechanism has a locking mechanism (not shown) for fixing the crimping of the rod reinforcement.

The angle between the conical surface of the housing and the longitudinal axis is 1-22 °, which is optimal under the conditions of effective interaction force between the contacting surfaces of the jaws and fiberglass reinforcement.

During the clamp operation, the fiberglass reinforcement is passed through the inlet 5 of the thrust plate 4 into the area of the working surfaces of the jaws 2, which clamp the reinforcement when the pressure nut 8 interacts with the end face of the jaws or when the levers 9 and the link arms 11 are turned. As a result, the fiberglass rod reinforcement is clamped between the working surfaces of the jaws, the presence of notches on which increases the reliability of the interaction of the contacting surfaces. After clamping the fiberglass reinforcement between the working surfaces of the jaws, the prestressing mode of the reinforcement is produced by the traditional method using a thrust plate 4 with a hydraulic or mechanical tensioning device, while to compensate for the force loads on the housing 1 from the side of the base plate, a compensating damping pad 13 is placed between them.

The clamp for a prestressing device of composite reinforcement proposed by the utility model has a simple design with high operational reliability, while ensuring that the clamp is operated on various diameters of the reinforcement.

Claims (8)

1. A clamp for a prestressing device of composite reinforcement, comprising a housing with an internal conical cavity in which clamping jaws contacting the surface of the cavity are installed in an amount of two or more, means for fixing the jaws connected to the housing with respect to the rod reinforcement and transversely oriented to longitudinal the axis of the housing is a thrust plate with an inlet for reinforcement and designed to be connected to the tension means, while the housing is on the side of the larger base the hollow has longitudinally oriented grooves to its longitudinal axis, in which brackets protruding relative to the outer surface of the housing are rigidly connected to the clamping jaws, the working surfaces of which interact with the reinforcement and have a serrated notch, and the length of which corresponds to the ratio: L = (5-50 ) d, where d is the diameter of the composite reinforcement. 2. The clamp for the prestressing device of the composite reinforcement according to claim 1, characterized in that the means for fixing the jaws relative to the rod reinforcement is made in the form of a pressure nut installed in the housing from the side of the ends of the clamping jaws. 3. The clamp for the prestressing device of composite reinforcement according to claim 1, characterized in that the means for fixing the jaws relative to the rod reinforcement is made in the form of a lever-swivel mechanism located on the outside of the housing, one of which is pivotally connected on one side to brackets mounted on the housing on the side of the thrust plate, and on the other hand are pivotally connected to the link arms, one end of which is pivotally connected to the brackets protruding relative to the outer surface of the housing. 4. Clamp for the prestressing device of composite reinforcement according to claim 3, characterized in that the axis of rotation of the levers connected to the brackets mounted on the housing on the side of the thrust plate have eccentrics to control the compression force. 5. The clamp for the prestressing device of composite reinforcement according to claim 3, characterized in that the housing is provided with an annular cage enclosing it, fixing brackets. 6. The clamp for the prestressing device of composite reinforcement according to claim 3, characterized in that the lever-swivel mechanism is equipped with a locking mechanism for fixing the crimp of the rod reinforcement. 7. The clamp for the prestressing device of composite reinforcement according to claim 1, characterized in that a damping pad is located between the housing and the thrust plate. 8. The clamp for the prestressing device of composite reinforcement according to claim 1, characterized in that the angle between the conical surface of the housing and the longitudinal axis is 1-22 °.

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