CN211313091U - Automatic tool anchor clamping piece convenient for accurately measuring internal shrinkage - Google Patents

Abstract

The embodiment of the utility model discloses automatic tool anchor clamping piece of volume of contracting in convenient precision measurement, include: the automatic tool anchor clamping piece is characterized in that the automatic tool anchor clamping piece convenient for accurately measuring the internal shrinkage comprises a measuring head connected with the stop block. Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses a convenient gauge head is increased on the dog to the automatic tool anchor clamping piece of the volume of contracting in the accurate measurement on current basis, then sets up displacement sensor and this gauge head cooperation use correspondingly on the ground tackle, utilizes displacement sensor to measure the displacement volume of this instrument anchor clamping piece, compares with measuring the sleeve, and measurement accuracy improves greatly.

Description

Automatic tool anchor clamping piece convenient for accurately measuring internal shrinkage

Technical Field

The utility model relates to a prestressed anchorage utensil technical field especially relates to an automatic tool anchor clamping piece of convenient accurate measurement internal contraction volume.

Background

The anchorage device is widely applied to project engineering such as highway bridges, railway bridges, urban overpasses, urban light rails, high-rise buildings, hydraulic and hydroelectric dams, ports and wharfs, rock slope protection anchoring, foundation reinforcement, tunnel mine roof anchor tops, prestressed net frames, subways, large buildings and institutions, warehouse workshops, tower buildings, weight lifting, sliding film intermittent propulsion, bridge and tunnel pushing, large containers and ships, sleepers, bridge support replacement, bridge and building reinforcement, steel bar engineering, antimagnetic and anticorrosive engineering, carbon fiber reinforcement, pretensioned beam yard construction, in-vitro prestressed engineering, stay cables, suspension cables and the like.

The existing prestressed anchorage device generally adopts the arrangement of a sleeve for measurement when measuring the displacement distance of an anchor clamping piece of a tool, and then a displacement sensor is arranged to measure the displacement of the sleeve, thereby indirectly measuring the exposed amount of the anchor clamping piece of the tool during tensioning. Because the sleeve and the tool clamping piece are in conical surface contact and are pressed by the spring, a gap and lateral sliding exist, and the data indirectly obtained by measuring the sleeve is not accurate enough.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned technique not enough, provide an automatic tool anchor clamping piece of the volume of contracting in convenient precision measurement, solve and adopt among the prior art sleeve measuring tool anchor clamping piece to expose the measurement mode that the volume obtained instrument anchor clamping piece displacement distance accurate inadequately, the great technical problem of error.

In order to achieve the technical purpose, the embodiment of the utility model provides an automatic tool anchor clamping piece of the volume of contracting in convenient precision measurement, this automatic tool anchor clamping piece of the volume of contracting in convenient precision measurement includes: the automatic tool anchor clamping piece is characterized in that the automatic tool anchor clamping piece convenient for accurately measuring the internal shrinkage comprises a measuring head connected with the stop block.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses a convenient gauge head is increased on the dog to the automatic tool anchor clamping piece of the volume of contracting in the accurate measurement on current basis, then sets up displacement sensor and this gauge head cooperation use correspondingly on the ground tackle, utilizes displacement sensor to measure the displacement volume of this instrument anchor clamping piece, compares with measuring the sleeve, and measurement accuracy improves greatly.

Drawings

FIG. 1 is a schematic structural view of an embodiment of an automatic tool anchor clamping piece for conveniently and accurately measuring the retraction amount provided by the present invention;

FIG. 2 is a cross-sectional view of one embodiment of an automatic tool anchor clip that facilitates accurate measurement of retraction;

fig. 3 is a sectional view of an embodiment of an anchor clamping piece of an automatic tool for conveniently and accurately measuring the retraction amount.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 to 3, fig. 1 is a schematic structural view of an embodiment of an automatic tool anchor clamping piece for conveniently and accurately measuring retraction amount according to the present invention; fig. 2 is a cross-sectional view of an embodiment of an automatic tool anchor clamping piece for conveniently and accurately measuring the internal shrinkage, and fig. 3 is a cross-sectional view of an embodiment of an automatic tool anchor clamping piece for conveniently and accurately measuring the internal shrinkage during assembly.

An automated tool anchor clip for facilitating accurate measurement of pull-in comprising: cone 1, dog 2 and gauge head 3. The measuring head 3 is a component which is used for an external displacement sensor to be matched with an automatic tool anchor clamping piece displacement distance which is used for measuring the internal shrinkage amount conveniently and accurately.

Cone 1 one end is connected with dog 2, and dog 2 extends to outside the cone 1 along radial direction, and gauge head 3 is connected and extends along 2 radial direction of dog with 2 sides of dog. In order to ensure the connection strength, in the present embodiment, the cone 1, the stopper 2 and the probe 3 are preferably connected by an integral molding. And the end face of the measuring head 3, which is far away from the cone 1, and the end face of the stop block 2, which is far away from the cone 1, are positioned on the same plane, so that the leveling of the rear end of the automatic tool anchor clamping piece, which is convenient for accurately measuring the internal shrinkage, is ensured.

In actual use, the automatic tool anchor clamping piece which can accurately measure the retraction amount is arranged on the tool anchor, in particular, the fixing plate 7 on the tool anchor. In order to enable the fixing plate 7 to move the anchor clamps of the automatic tool, which are capable of accurately measuring the amount of retraction, in both the tightening and loosening states, two conical surfaces, i.e., a positive conical surface 111 and a negative conical surface 121, are preferably provided on the vertebral body 1.

Specifically, in the present embodiment, the cone 1 includes a front cone 11 and a rear cone 12. The front cone 11, the rear cone 12 and the stopper 2 are sequentially connected end to end, and in order to ensure the connection strength, an integrally formed connection mode is preferably adopted in the embodiment. The front cone 11 and the rear cone 12 are both in a circular truncated cone shape, and the end with the larger radius of the front cone 11 is connected with the end with the larger radius of the rear cone 12, i.e. the radius of the inner section of the cone formed by the front cone 11 and the rear cone 12 is increased and then decreased along the axial direction of the cone. Preferably, the end of the front cone 11 with the larger radius has the same size as the end of the rear cone 12 with the larger radius, and the front cone 11, the rear cone 12 and the stopper 2 are coaxially arranged, so that the connecting portion of the front cone 11 and the rear cone 12 can be completely attached. The stop 2 is integrally connected to the end of the rear cone 12 having a smaller radius and has a larger radius than the end of the rear cone 12 having a smaller radius. I.e. in the radial direction, the stop 2 extends at an angle to the side of the rear cone 12.

The side surface of the front cone 11 is a forward conical surface 111, the side surface of the rear cone 12 is a backward conical surface 121, the forward conical surface 111 and the backward conical surface 121 face in opposite directions, that is, the forward conical surface 111 faces away from the stopper 2, and the backward conical surface 121 faces toward the stopper 2.

Preferably, in order to better use the automatic tool anchor clamping piece which is convenient for accurately measuring the internal shrinkage, a through hole is formed in the automatic tool anchor clamping piece which is convenient for accurately measuring the internal shrinkage along the axis direction, one end of the through hole is communicated with the front end face of the front cone 11, and the other end of the through hole is communicated with the rear end face of the stop block 2. And a step groove 21 is provided at one end of the through hole communicating with the rear end face of the stopper 2. When the pressure spring 8 is installed and used, the stepped groove 21 is used for connecting and fixing the pressure spring 8. Meanwhile, the inner wall of the through hole in the front cone 11 is provided with the insections 12, so that the friction force between the insections and the steel strand is increased when the steel strand is clamped. The front cone 11 and the rear cone 12 are also provided with deformation grooves along the circumferential direction, and the deformation grooves separate the insections 112. When the steel strand clamping device is installed and used, the front cone 11 and the rear cone 12 are subjected to external force, the extrusion deformation grooves deform, the steel strand is clamped, the insections 112 are in contact with the steel strand, friction force is increased, and the steel strand is prevented from slipping.

Please refer to fig. 3 for a method of using the automatic tool anchor clamping piece for accurately measuring the retraction amount, fig. 3 is a sectional view of an embodiment of the automatic tool anchor clamping piece for conveniently and accurately measuring the retraction amount according to the present invention. The working condition that the automatic tool anchor clamping piece capable of accurately measuring the retraction amount is arranged on the automatic tool anchor device is shown. The automatic tool anchor device further comprises a top plate 4, a mandril 5, a tool anchor plate 6, a fixing plate 7, a compression spring 8, a spring pressing plate 9, a positioning bolt 10, a displacement sensor 15, a sensor protective cover 16, a sensor protective cover plate 17, a compression bolt 18 and a sensor socket 19.

During assembly, the stop block 2 is abutted to the fixing plate 7, the rear cone 12 penetrates through the through hole in the fixing plate 7, and the reverse conical surface 121 is matched with the through hole in the fixing plate 7 for better assembly effect. The nose cone 11 is inserted into the tapered bore of the tool anchor plate 6 and likewise, for better assembly, the positively tapered surface 111 matches the tapered bore of the tool anchor plate 6. Spring clamp 9 is fastened with tool anchor plate 6 with positioning bolt 10, has placed pressure spring 8 between spring clamp 9 and fixed plate 7, and spring 8 can promote fixed plate 7 and move left, and the through-hole extrusion anti-conical surface 121 of fixed plate 7 for rear cone 12 receives centripetal pressure, presses the deformation groove to realize warping, presss from both sides tight steel strand wires.

The body part of the displacement sensor 15 is connected with the spring pressing plate 9 and is arranged corresponding to the measuring head 3 one by one, and the displacement sensor is used for measuring the displacement of the measuring head 3. The displacement sensor 15 is surrounded by the sensor protection cover 16, the sensor protection cover plate 17 and the spring pressing plate 9 in a matching mode, a safe and stable working environment is provided for the displacement sensor 15, and the displacement sensor 15 can normally and stably work for a long time. The compression bolt 18 fixedly connects the body portion of the displacement sensor 15 with the sensor protective cover 17, further fixing the displacement sensor 15. A sensor socket 19 is also provided on the sensor protection cover 17, which is connected to the displacement sensor 15 by a cable for supplying power to the displacement sensor 15.

In practical use, a person skilled in the art may select a suitable displacement sensor 15 according to actual conditions. The displacement sensor 15 is classified into an ultrasonic distance measuring sensor, a laser distance measuring sensor, an infrared distance measuring sensor, a contact type displacement sensor, and the like. In the present embodiment, a contact type displacement sensor is used, and preferably, a GT2 series sensor by KEYENCE is used.

When the tool anchor plate is installed, the top plate 4 pushes the ejector rod 5 to move rightwards through external force, and the automatic tool anchor clamping piece capable of accurately measuring the internal shrinkage is pulled out of the taper hole of the tool anchor plate 6 to form a tensioning and loosening state. In the actual use process, the external force is generally provided by an internal clamping type jack, the jack is a common device used by those skilled in the art, and the installation method and the use method thereof are well known by those skilled in the art and are not described herein. At this time, the steel strands may be distributed from left to right through the holes in the top plate 4 communicating with the tool anchor plate 6.

Then the fixation of the inner clamping type jack is eliminated, the hold-down spring 8 pushes the automatic tool anchor clamping piece for accurately measuring the inner shrinkage and the fixing plate 7 to move leftwards, and the automatic tool anchor clamping piece for accurately measuring the inner shrinkage stops after entering the taper hole of the tool anchor plate 6. The fixed plate 7 is under the effect of the pressure spring 8, the taper hole is attached to the front taper surface 111 of the front cone 11, meanwhile, clamping force is generated on the side surface of the front cone 11, the front cone 11 deforms to compress the deformation groove, the steel strand is stably clamped to be tensioned, the fixed plate 7 is under the effect of the pressure spring 8, the fixed plate continues to move leftwards, the reverse taper surface 121 continues to be extruded, the rear cone 12 is enabled to be stressed centripetally, the deformation of the pressure deformation groove is achieved, and the steel strand is clamped.

When the steel strand needs to be replaced, the top plate 4 is pushed by the jack to push the mandril 5 and drive the fixing plate 7 to move rightwards, and the spring 8 is compressed to enable the taper hole in the fixing plate 7 to leave the reverse taper surface 121 of the rear cone 12. Meanwhile, the end face of the fixing plate 7 is tightly attached to the stop block 2, the automatic tool anchor clamping piece capable of accurately measuring the internal shrinkage is pulled out of the taper hole of the tool anchor plate 6 under the action of the jack, and the external force on the positive taper surface 111 and the negative taper surface 121 of the tool anchor plate 6 disappears, so that deformation is recovered, the steel strand is loosened, and automatic loosening after tensioning is realized. The steel strand is convenient to withdraw and penetrate again, and the state of being convenient to install is still kept after the steel strand is loosened.

In the process, the displacement of the automatic tool anchor clamping piece which can conveniently and accurately measure the internal shrinkage can be directly obtained through the displacement sensor 15, and data guidance is provided for replacing the steel strand.

Implement the embodiment of the utility model provides a, following beneficial effect has: the utility model discloses a convenient gauge head is increased on the dog to the automatic tool anchor clamping piece of the volume of contracting in the accurate measurement on current basis, then sets up displacement sensor and this gauge head cooperation use correspondingly on the ground tackle, utilizes displacement sensor to measure the displacement volume of this instrument anchor clamping piece, compares with measuring the sleeve, and measurement accuracy improves greatly.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a convenient automatic tool anchor clamping piece of accurate measurement volume of contracting in, its include the cone and with the dog that cone one end is connected, the dog extends to along radial direction outside the cone, its characterized in that, an automatic tool anchor clamping piece of convenient accurate measurement volume of contracting in include with the gauge head that the dog is connected.

2. The automatic tool anchor clip that facilitates accurate measurement of retraction according to claim 1 wherein said probe is integrally formed with said cone.

3. The automatic tool anchor clip of claim 2, wherein the probe is attached to the side of the stop and extends in a radial direction of the stop.

4. The automatic tool anchor clamping piece convenient for accurately measuring the retraction amount according to claim 3, wherein the end surface of the measuring head far away from the cone and the end surface of the stop block far away from the cone are located on the same plane.

5. The automated tool anchor clip of claim 1, wherein the radius of the cone increases and then decreases in the axial direction.

6. The automatic tool anchor clamping piece convenient for accurately measuring the retraction amount as claimed in claim 5, wherein the cone comprises a front cone and a rear cone, and the front cone, the rear cone and the stop block are integrally connected end to end in sequence.

7. The automated tool anchor clip that facilitates accurate gauging of setback as claimed in claim 6, wherein said nose cone, said rear cone and said stop are coaxially disposed.

8. The automatic tool anchor clamping piece convenient and accurate for measuring the retraction amount as claimed in claim 7, wherein a through hole is formed in the automatic tool anchor clamping piece convenient and accurate for measuring the retraction amount along the axial direction thereof, one end of the through hole is communicated with the front end face of the front cone, and the other end of the through hole is communicated with the rear end face of the stop block.

9. The automatic tool anchor clip for conveniently and accurately measuring the retraction amount as claimed in claim 8, wherein a stepped groove is formed at one end of the through hole communicating with the rear end surface of the stopper.

10. The automatic tool anchor clip for conveniently and accurately measuring the retraction amount as claimed in claim 9, wherein the inner wall of the through hole in the front cone is provided with insections.

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