CN218508518U - PHC tubular pile gradient detection device - Google Patents

Abstract

The utility model belongs to the technical field of building engineering, concretely relates to PHC tubular pile gradient detection device. The related inclination detection device for the PHC pipe pile is provided with a barrel body positioned in the PHC pipe pile; the barrel and the PHC tubular pile are coaxially arranged; the cylinder body is provided with an upper circular ring and a lower circular ring which have the same diameter, and the two circular rings are connected into a whole through the upright post; the upper circular ring is connected and fixed by a cross support; a rotary sphere is arranged at the center of the cross support, and a laser lamp is arranged at the center of the rotary sphere; the end heads of the cross supports extend out of the circular rings, and the end heads of the cross supports are provided with extension rods; the end of the extension rod is provided with a buckle which can be buckled with the PHC tubular pile; a disk with an angle is arranged on the inner diameter of the lower ring; the disc and the laser lamp are matched to form the detection device. The utility model has the characteristics of simple structure, detection convenience.

Description

PHC tubular pile gradient detection device

Technical Field

The utility model belongs to the technical field of building engineering, concretely relates to PHC tubular pile gradient detection device.

Background

The PHC tubular pile batter pile is a prestressed high-strength concrete tubular pile, and the tubular pile and a vertical line of a horizontal plane form a certain included angle. Therefore, the axial force of the PHC tubular pile inclined pile under the same external load action is larger than that of the vertical pile, and the transverse force of the PHC tubular pile inclined pile is smaller than that of the vertical pile; in order to enable the inclination rate of the PHC tubular pile inclined pile to meet the design requirement, the inclination angle of the PHC tubular pile inclined pile needs to be measured when the PHC tubular pile inclined pile is constructed; the patent No. 2014208704056 discloses a device for measuring the inclination angle of an inclined pile of a PHC tubular pile, which is arranged on a guide rod of a pile driver pile frame and comprises an anti-seismic three-dimensional inclinometer, a wireless transmission device and a control center, wherein the anti-seismic three-dimensional inclinometer comprises a box body, a gravity acceleration sensor, a data wire and a three-dimensional anti-seismic damper, the gravity acceleration sensor, the data wire and the three-dimensional anti-seismic damper are arranged in the box body, one end of the three-dimensional anti-seismic damper is fixedly connected with the inner wall of the box body, the other end of the three-dimensional anti-seismic damper is fixedly connected with the gravity acceleration sensor, the side wall of the box body is provided with a through hole for the data wire to pass through, one end of the data wire is fixedly connected with the gravity acceleration sensor, the anti-seismic three-dimensional inclinometer is fixedly arranged on the guide rod, and the anti-seismic three-dimensional inclinometer realizes the wireless transmission of data with the control center through the wireless transmission device; in the construction process of the PHC tubular pile inclined pile, an anti-seismic three-dimensional inclinometer is arranged on a guide rod of a pile frame of a pile driver, the influence of an impact hammer on impact vibration of a gravity acceleration sensor is weakened under the action of a three-dimensional anti-seismic damper, the instrument error is small, the influence of manual work is small, and the data is real and reliable, so that the real-time accurate measurement of the three-dimensional inclination angle of the PHC tubular pile inclined pile is realized, the measurement precision is greatly improved, the real-time dynamic measurement of the inclination angle in the piling process of the PHC tubular pile inclined pile is realized, the inclination angle is finally transmitted to a control center in real time through a wireless transmission device, and the visualization of the inclination angle measurement data is realized in real time; however, this measurement is complicated and the disassembly is complicated.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a PHC tubular pile gradient detection device.

The utility model adopts the following technical scheme for accomplishing the above purpose:

a PHC tubular pile inclination detection device is provided with a barrel positioned in a PHC tubular pile; the barrel and the PHC tubular pile are coaxially arranged; the cylinder body is provided with an upper circular ring and a lower circular ring which have the same diameter, and the two circular rings are connected into a whole through an upright post; the upper circular ring is connected and fixed by a cross support; a rotary sphere is arranged at the center of the cross support, and a laser lamp is arranged at the center of the rotary sphere; the ends of the cross supports extend out of the circular rings, and extension rods are arranged at the ends of the cross supports; the end of the extension rod is provided with a buckle which can be buckled with the PHC tubular pile; a disk with an angle is arranged on the inner diameter of the lower circular ring; the disc and the laser lamp are matched to form the detection device; when the inclination is detected, the rotary sphere is influenced by the center of gravity, and light irradiates in the inclination range corresponding to the lower side disc, so that the inclination of the pipe pile is quickly judged.

The extension rod is of a telescopic structure.

The utility model provides a PHC tubular pile gradient detection device adopts above-mentioned technical scheme, through the detection device that up end and PHC tubular pile are connected, can easily accomplish the detection of tubular pile gradient through the cooperation of laser lamp and disc, have simple structure, detect convenient characteristics, detection device pass through the buckle with PHC tubular pile joint, after accomplishing PHC tubular pile construction, can easily dismantle.

Drawings

Fig. 1 is a working principle diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a top view of the present invention in use.

In the figure: 1. the rotary sphere, 2, the extension rod, 3, the buckle, 4, the draw-in groove, 5, the laser lamp, 6, the stand, 7, the disc, 8, the PHC tubular pile, 9, the ring, 10, the cross support.

Detailed Description

The invention is described in detail with reference to the accompanying drawings and specific embodiments:

as shown in fig. 2, in combination with fig. 3, a PHC pile inclination detecting device has a barrel inside a PHC pile 8; the barrel and the PHC tubular pile 8 are coaxially arranged; the cylinder body is provided with an upper circular ring 9 and a lower circular ring 9 with the same diameter, and the two circular rings 9 are connected into a whole through the upright post 6; the upper circular ring 9 is connected and fixed by a cross support 10; the center of the cross support 10 is provided with a rotary sphere 1, and a laser lamp 5 is arranged at the center of the rotary sphere 1; the ends of the cross supports 10 extend out of the circular ring 9, and the ends are provided with extension rods 2; the end of the extension rod 2 is provided with a buckle 3 which can be buckled with the PHC tubular pile; a disk 7 with an angle is arranged on the inner diameter of the lower circular ring; the disc 7 and the laser lamp 5 are matched to form the detection device; when detecting the inclination, the rotary sphere is influenced by the center of gravity and the light irradiates in the inclination range corresponding to the lower side disc, so that the inclination of the tubular pile is rapidly judged.

As shown in fig. 1, because the barrel with the coaxial setting of PHC tubular pile 8, the barrel inclination angle A of PHC tubular pile with inclination angle A1 of barrel is the same to be the same with contained angle A2 of the light of lamp and disc, the utility model discloses a detection device just utilizes this theory of operation design to form.

Claims (2)

1. The utility model provides a PHC tubular pile gradient detection device which characterized in that: the detection device is provided with a barrel body positioned in the PHC tubular pile; the barrel and the PHC tubular pile are coaxially arranged; the cylinder body is provided with an upper circular ring and a lower circular ring which have the same diameter, and the two circular rings are connected into a whole through an upright post; the upper circular ring is connected and fixed by a cross support; a rotary sphere is arranged at the center of the cross support, and a laser lamp is arranged at the center of the rotary sphere; the ends of the cross supports extend out of the circular rings, and extension rods are arranged at the ends of the cross supports; the end of the extension rod is provided with a buckle which can be buckled with the PHC tubular pile; a disk with an angle is arranged on the inner diameter of the lower circular ring; the disc and the laser lamp are matched to form the detection device.

2. The PHC pile inclination detecting device according to claim 1, wherein: the extension rod is of a telescopic structure.

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