CN113321057A

CN113321057A - Wiring method and device for connecting line of concrete performance test element

Info

Publication number: CN113321057A
Application number: CN202110739797.7A
Authority: CN
Inventors: 陈春超; 陈士海; 李少波; 罗小峰; 陈经鹏
Original assignee: Xiamen Rail Transit Group Co ltd; Huaqiao University
Current assignee: Xiamen Rail Transit Group Co ltd; Huaqiao University
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2021-08-31

Abstract

The invention discloses a wiring device for a concrete performance test element connecting wire, which comprises a wiring barrel, a rotating handle, a wire collecting circular shaft and an elastic steel wire, wherein the elastic steel wire is wound on the wire collecting circular shaft, the tail end of the elastic steel wire is fixedly connected or integrally formed with a hook, two ends of the wire collecting circular shaft are respectively and rotatably connected with a fixed baffle, the rotating handle is fixed on the wire collecting circular shaft, the rotating handle and the wire collecting circular shaft are coaxially arranged, the wiring barrel and the wire collecting circular shaft are mutually and vertically arranged, the wiring barrel is fixedly connected between the two fixed baffles, and the centers of the transverse sections of the hook and the wiring barrel are positioned on the same straight line. The connecting wire of test element follows the couple and passes a line section of thick bamboo, avoids the winding on the steel reinforcement cage, can avoid the connecting wire to be dragged by the reinforcing bar, appears the problem of hanging wire and kinking to guarantee the safety of connecting wire.

Description

Wiring method and device for connecting line of concrete performance test element

Technical Field

The invention relates to the field of wiring in a reinforcement cage, in particular to a wiring method and a wiring device for a connecting wire of a concrete performance testing element.

Background

Under the large environment of technological innovation, each field is going to be innovated to go to the next floor. As an important means for obtaining innovative technology in civil engineering, the importance of experiments cannot be ignored. In large-scale foundation ditch engineering, need pre-buried a large amount of concrete performance test elements in the steel reinforcement cage usually, nevertheless because have a large amount of irregular reinforcing bars in the steel reinforcement cage, pre-buried test element's the line in-process connecting wire easily appears hanging wire, kinking scheduling problem, serious will lead to the unable normal use of test element. Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide a wiring method and a wiring device for a concrete performance testing element connecting line, which can avoid hanging and winding of the connecting line.

In order to achieve the purpose, the invention adopts the following technical scheme:

a routing method for a connecting line of a concrete performance testing element comprises the following steps of sequentially carrying out:

a. embedding a test element in a reinforcement cage;

b. one end of a wiring device extends into the reinforcement cage, and one end of the wiring device is arranged at the position of the test element;

c. penetrating an elastic steel wire through the wiring device, and fixing a data transmission end of a connecting wire of the test element on the tail end of the elastic steel wire;

d. the elastic steel wire with the connecting line of the test element passes through the routing device;

e. and sending the data transmission end of the connecting line of the test element to a preset test point through the elastic steel wire.

Preferably, walk the line device and include a line section of thick bamboo, rotate handle and line concentration circle axle, the winding of elastic steel wire is in on the line concentration circle axle, the both ends of line concentration circle axle are rotated respectively and are connected with fixed stop, it fixes to rotate the handle on the line concentration circle axle, just rotate the handle with line concentration circle axle coaxial arrangement, a line section of thick bamboo with line concentration circle axle mutually perpendicular arranges, a line section of thick bamboo fixed connection is in two between the fixed stop, the end of elastic steel wire with the center of the transverse section of a line section of thick bamboo is located same straight line.

Preferably, the tail end of the elastic steel wire is provided with a hook, and the hook and the center of the transverse section of the wire feeding cylinder are positioned on the same straight line.

Preferably, the routing drum comprises a plurality of routing drum platforms, each routing drum platform is sequentially arranged along the axial direction of the routing drum, and two adjacent routing drum platforms are in sliding connection.

Preferably, the outer contour diameter of the wire winding drum platform far away from the hook of two adjacent wire winding drum platforms is smaller than the inner contour diameter of the wire winding drum platform near to the hook.

Preferably, the hook is provided with an opening and closing opening.

By adopting the design scheme, the invention has the beneficial effects that: the wire arrangement device extends into the steel reinforcement cage, the connecting wire of the test element is fixed on the elastic steel wire, the connecting wire with the test element is driven by the elastic steel wire to pass through the wire arrangement device to reach a preset test point, winding on the steel reinforcement is avoided, and the problems of wire hanging and wire winding are avoided, so that the safety of the connecting wire is ensured.

The utility model provides a walk traditional thread binding putting that is used for concrete performance test element connecting wire, includes a line section of thick bamboo, rotates handle, line concentration circle axle and elastic steel wire, the elastic steel wire winding is in on the line concentration circle axle, elastic steel wire's terminal fixed connection or integrated into one piece have the couple, the both ends of line concentration circle axle are rotated respectively and are connected with fixed stop, it fixes to rotate the handle the epaxial line concentration circle, just rotate the handle with line concentration circle axle is coaxial arranges, a line section of thick bamboo with line concentration circle axle mutually perpendicular arranges, a line section of thick bamboo fixed connection is two between the fixed stop, the couple with the center of the transverse section of a line section of thick bamboo is located same straight line.

Preferably, the hook is provided with an opening and closing opening.

By adopting the design scheme, the invention has the beneficial effects that: the two ends of the wire collecting circular shaft are respectively and rotatably connected with a fixed baffle, a rotating handle is fixed on the wire collecting circular shaft and is coaxially arranged with the wire collecting circular shaft, so that the rotating handle can drive the wire collecting circular shaft to rotate; elastic steel wire winding is epaxial at the line concentration circle, elastic steel wire's end-to-end connection has the couple that is used for fixed connection line, it is between two fixed stop to walk a line section of thick bamboo fixed connection, the couple is located same straight line with the centre of a circle in a line section of thick bamboo, during the use, will walk a line section of thick bamboo and stretch into the steel reinforcement cage, it makes elastic steel wire pass a line section of thick bamboo to rotate the handle, then fix the data output end of test element's connecting wire on the couple, then withdraw elastic steel wire through rotating the handle, draw the couple through elastic steel wire and get into a line section of thick bamboo, test element's connecting wire follows the couple and passes a line section of thick bamboo, can avoid the connecting wire to be dragged by the reinforcing bar, the problem of string line and kinking appears, in order to guarantee the safety of connecting wire.

Drawings

Fig. 1 is a schematic structural diagram of a routing device according to the present invention;

FIG. 2 is a schematic view of the extended structure of the routing tube of the routing device of the present invention;

in the figure:

10. a wire routing drum 11, a wire routing drum platform,

20. a rotating handle 30, a wire-collecting round shaft 40 and an elastic steel wire,

50. a hook 51, an opening and closing opening,

60. fixed stop, 61, installing support.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In this embodiment, the state in which the routing device is standing on the horizontal plane and the routing cylinder 10 is located right above the wire-collecting circular shaft 30 is taken as the reference state of the orientation.

As shown in fig. 1-2, a method for routing a connecting wire of a concrete performance testing element includes the following steps performed in sequence:

a. embedding a test element in a reinforcement cage; the pre-buried position of the test element can be set according to actual test requirements.

b. One end of the wiring device extends into the reinforcement cage, and one end of the wiring device is arranged at the position of the test element; the routing device of this embodiment includes a routing tube 10, and in this embodiment, one end of the routing device extending into the reinforcement cage is an end of the routing tube 10.

c. Passing an elastic steel wire through the wiring device, and fixing the data transmission end of the connecting wire of the test element on the tail end of the elastic steel wire 40; the connecting wires of the vision elements of this embodiment are wound around the elastic steel wire 40. One end of the elastic steel wire 40 of this embodiment is fixed on the routing device, and the other end of the elastic steel wire 40 is the tail end of the elastic steel wire 40.

d. The flexible wire 40 is passed through the routing device with the test element connection wires. The wire barrel 10 through which the elastic steel wire 40 passes has a smooth inner wall, so that the connecting wires of the test elements on the elastic steel wire 40 are prevented from being worn. The user can pull the elastic steel wire 40 at the end of the routing cylinder 10 far away from the pre-embedded position of the test element, so that the elastic steel wire 40 drives the connecting line of the test element to pass through the routing cylinder 10.

e. Sending the data transmission end of the connecting line of the test element to a preset test point through an elastic steel wire 40; the predetermined test point can be set according to actual test requirements, and the predetermined test point refers to a place for collecting test data.

The connecting line with the test element is driven by the elastic steel wire 40 to pass through the wiring device to reach a preset test point, so that the connecting line is prevented from being wound on a steel bar, the problems of hanging and winding of the connecting line are avoided, and the safety of the connecting line is ensured.

As a preferable mode of this embodiment, the routing device further includes a rotating handle 20 and a line-collecting circular shaft 30, the elastic steel wire 40 is wound on the line-collecting circular shaft 30, two ends of the line-collecting circular shaft 30 are respectively and rotatably connected with a fixing baffle 60, the rotating handle 20 is fixed on the line-collecting circular shaft 30, and the rotating handle 20 and the line-collecting circular shaft 30 are coaxially arranged, which means that a portion of the rotating handle 20 penetrating through the line-collecting circular shaft 30 is coaxially arranged with the line-collecting circular shaft 30 in this embodiment; the wiring cylinder 10 and the line concentration circular shaft 30 are arranged perpendicular to each other, the wiring cylinder 10 is positioned above the line concentration circular shaft 30, the wiring cylinder 10 is fixedly connected between the two fixed baffles 60, and the tail end of the elastic steel wire 40 and the center of the transverse section of the wiring cylinder 10 are positioned on the same straight line.

In this embodiment, the user rotates the line concentration circular shaft 30 to gradually stretch the elastic steel wire 40 into the process of the line feeding cylinder 10, manually aligns the elastic steel wire 40 with the center of the transverse section of the line feeding cylinder 10, and simultaneously straightens the elastic steel wire 40 gradually released from the line concentration circular shaft 30, thereby avoiding the bending of the elastic steel wire 40.

In this embodiment, one end of the elastic wire 40 is fixed to the hub 30, and the other end is the end of the elastic wire 40.

In this embodiment, the direction perpendicular to the length direction of the routing drum 10 is taken as the transverse direction, so the transverse cross section of the routing drum 10 is perpendicular to the length direction of the routing drum 10.

The two fixing baffles 60 of this embodiment are integrally formed with mounting brackets 61, and one ends of the two mounting brackets 61 far away from the fixing baffles 60 are respectively in one-to-one correspondence with two sides of the wire barrel 10 for fixed connection.

The rotating handle 20 of the present embodiment sequentially passes through the fixed baffle 60 located on the right, the hub round shaft 30, and the fixed baffle 60 located on the left, and the rotating handle 20 is fixedly connected to the hub round shaft 30 by welding.

As a preferable mode of this embodiment, the end of the elastic steel wire 40 is provided with a hook 50, before the end of the elastic steel wire 40 extends into the wire barrel 10, the hook 50 and the center of the radial section of the wire barrel 10 are located on the same straight line; the tail end of the elastic steel wire 40 can move along the smooth inner wall of the routing cylinder 10 after extending into the routing cylinder 10; the hook 50 is provided with an opening and closing opening 51; the hook 50 is provided, and the opening and closing port 51 is provided on the hook 50 so that the connecting line of the test element can be fixed on the hook 50.

As a preferred mode of this embodiment, the routing drum 10 includes a plurality of routing drum platforms 11, a radial cross section of each routing drum platform 11 is circular, the number and the diameter of each routing drum platform 11 can be set according to actual working requirements, each routing drum platform 11 is sequentially arranged along an axial direction of the routing drum 10, and two adjacent routing drum platforms 11 are connected in a sliding manner.

In this embodiment, two adjacent wire winding drum platforms 11 are respectively arranged, and the outer contour diameter of the end, close to the wire collecting circular shaft 30, of the wire winding drum platform 11 far away from the wire collecting circular shaft 30 is smaller than the inner contour diameter of the end, close to the wire collecting circular shaft 30, of the wire winding drum platform 11 far away from the wire collecting circular shaft 30, so that when the wire winding drum platforms 11 are stretched towards the wire collecting circular shaft 30, the two adjacent wire winding drum platforms 11 are connected to the wire winding drum platform 11 far away from the wire collecting circular shaft 30 in a clamping manner.

The outer contour diameter of the wire winding drum platform 11 far away from the hook 50 of the two adjacent wire winding drum platforms 11 is smaller than the inner contour diameter of the wire winding drum platform 11 near the hook 50, so that the wire winding drum platform 11 far away from the hook 50 can be accommodated in the wire winding drum platform near the hook 50, and the wire winding device is convenient to store.

To sum up, fix test element's connecting wire on elastic steel wire 40, take test element's connecting wire to pass through an elastic steel wire 40 and walk a line section of thick bamboo 10, avoid the winding on the reinforcing bar, can effectively improve test element's installation effectiveness, and can avoid the connecting wire to be dragged by the reinforcing bar to guarantee the safety of connecting wire.

The embodiment also provides a wiring device applying the method.

As shown in fig. 1-2, a routing device for connecting wires of concrete performance testing elements comprises a routing cylinder 10, a rotating handle 20, a wire collecting circular shaft 30 and an elastic steel wire 40, wherein the elastic steel wire 40 is wound on the wire collecting circular shaft 30, the tail end of the elastic steel wire 40 is fixedly connected or integrally formed with a hook 50, in this embodiment, one end of the elastic steel wire 40 is fixed on the wire collecting circular shaft 30, and the other end is the tail end of the elastic steel wire 40.

The two ends of the line concentration circular shaft 30 are respectively connected with a fixed baffle 60 in a rotating way, the rotating handle 20 is fixed on the line concentration circular shaft 30, and the rotating handle 20 and the line concentration circular shaft 30 are coaxially arranged, in the embodiment, the part of the rotating handle 20 penetrating through the line concentration circular shaft 30 is coaxially arranged with the line concentration circular shaft 30; the wiring cylinder 10 and the line concentration circular shaft 30 are arranged perpendicular to each other, the wiring cylinder 10 is fixedly connected between the two fixing baffles 60, in this embodiment, the wiring cylinder 10 is located above the line concentration circular shaft 30, and the centers of the transverse sections of the hook 50 and the wiring cylinder 10 are located on the same straight line.

The two fixing baffles 60 of this embodiment are integrally formed with mounting brackets 61, and one ends of the two mounting brackets 61 far away from the fixing baffles 60 are respectively and fixedly connected with two sides of the wire routing barrel 10 in a one-to-one correspondence manner.

In a preferred embodiment of the present invention, the hook 50 has an opening 51, and the opening 51 is opened on the hook 50 for flexible connection of the connecting cable.

The use mode of the wiring device is as follows: the wiring barrel 10 is put into a reinforcement cage, one end of the wiring barrel 10 far away from the wire collecting circular shaft 30 is positioned at the position of a test element, the rotating handle 20 is rotated to enable the elastic steel wire 40 to pass through the wiring barrel 10, the rotating handle 20 is rotated while the elastic steel wire 40 is manually guided to enable the elastic steel wire 40 to straightly enter the wiring barrel 10, the elastic steel wire 40 moves towards one end of the wiring barrel 10 far away from the rotating handle 20 along the smooth inner wall of the wiring barrel 10, the data output end of the connecting wire of the test element is fixed on a hook 50, the rotating handle 20 is rotated to gradually wind the elastic steel wire 40 on the wire collecting circular shaft 30, the elastic steel wire 40 gradually enters the wiring barrel 10 until reaching a predetermined test point, the connecting wire of the test element passes through the wiring barrel 10 along with the hook 50 to avoid winding on a reinforcement, the mounting efficiency of the test element can be effectively improved, and the connecting wire can be prevented from being pulled by the reinforcement, so as to ensure the safety of the connecting wire.

The pre-buried position of the test element can be set according to actual test requirements.

The predetermined test point can be set according to actual test requirements, and the predetermined test point refers to a place for collecting test data.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A routing method for a connecting line of a concrete performance test element is characterized by comprising the following steps: the method comprises the following steps of:

a. embedding a test element in a reinforcement cage;

2. A method for routing a connecting wire for a concrete performance test element according to claim 1, wherein: the wiring device comprises a wiring barrel, a rotating handle and a wiring round shaft, wherein the elastic steel wire is wound on the wiring round shaft, two ends of the wiring round shaft are respectively and rotatably connected with fixed baffles, the rotating handle is fixed on the wiring round shaft, the rotating handle and the wiring round shaft are coaxially arranged, the wiring barrel and the wiring round shaft are mutually and vertically arranged, the wiring barrel is fixedly connected between the two fixed baffles, and the tail end of the elastic steel wire and the center of the transverse section of the wiring barrel are positioned on the same straight line.

3. A method for routing a connecting wire for a concrete performance test element according to claim 1, wherein: the tail end of the elastic steel wire is provided with a hook, and the hook and the center of the transverse section of the wire feeding cylinder are positioned on the same straight line.

4. A method for routing a connecting wire for a concrete performance test element according to claim 1, wherein: the wire routing drum comprises a plurality of wire routing drum platforms, each wire routing drum platform is sequentially arranged along the axial direction of the wire routing drum, and two adjacent wire routing drum platforms are in sliding connection.

5. A method for routing a connecting wire of a concrete performance testing element according to claim 3, wherein: in two adjacent wire routing drum platforms, the outer contour diameter of the wire routing drum platform far away from the hook is smaller than the inner contour diameter of the wire routing drum platform close to the hook.

6. A method for routing a connecting wire of a concrete performance testing element according to claim 3, wherein: the hook is provided with an opening and closing opening.

7. The utility model provides a walk traditional thread binding putting that is used for concrete performance test component connecting wire which characterized in that: including a line section of thick bamboo, rotation handle, line concentration circle axle and elastic steel wire, the elastic steel wire winding is in on the line concentration circle is epaxial, elastic steel wire's terminal fixed connection or integrated into one piece have the couple, the both ends of line concentration circle axle are rotated respectively and are connected with fixed stop, it fixes to rotate the handle on the line concentration circle is epaxial, just rotate the handle with line concentration circle axle is coaxial to be arranged, a line section of thick bamboo with line concentration circle axle mutually perpendicular arranges, a line section of thick bamboo fixed connection is two between the fixed stop, the couple with the center of the transverse section of a line section of thick bamboo of walking is located same straight line.

8. A trace arrangement for a concrete performance test element connection cord according to claim 7, wherein: the wire routing drum comprises a plurality of wire routing drum platforms, each wire routing drum platform is sequentially arranged along the axial direction of the wire routing drum, and two adjacent wire routing drum platforms are in sliding connection.

9. A trace arrangement for a concrete performance test element connection line according to claim 8, wherein: the outer contour diameter of the wire routing drum platform far away from the hook is smaller than the inner contour diameter of the wire routing drum platform close to the hook.

10. A trace arrangement for a concrete performance test element connection cord according to claim 7, wherein: the hook is provided with an opening and closing opening.