CN215984399U - Bending rise detection device for concrete pipe pile - Google Patents

Abstract

The utility model relates to a bending rise detection device for a concrete pipe pile, which is provided with a transmitting device, a data receiving device and a data receiving device, wherein the transmitting device is provided with a transmitting scale, a laser transmitter and a pipe pile fixing base; the transmitting scale and the sliding support are fixed on the tubular pile fixing base, and the laser transmitter is fixed on one side of the transmitter sliding adjusting block and can move on the sliding support along with the transmitter sliding adjusting block; a receiving scale is arranged in the data receiving device; and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile. The detection result is visual, the bending rise value of the concrete pipe pile can be determined at any time by measuring and reading, and whether the used and processed concrete pipe pile meets the construction specification requirement can be determined according to the bending rise value of the concrete pipe pile no matter in a construction site or in a processing and manufacturing unit.

Description

Bending rise detection device for concrete pipe pile

Technical Field

The utility model relates to a concrete pipe pile bending rise detection device, in particular to a concrete pipe pile bending rise detection device.

Background

The bending rise of the concrete pipe pile is directly related to the manufacturing quality and the construction quality of the pipe pile and the safety performance of a building foundation structure. Therefore, the detection of the bending rise of the concrete pipe pile is an important index in the quality evaluation of the pipe pile.

At present, the main tool for detecting the bending rise of the concrete pipe pile is a vernier caliper with an ultra-large range. The detection value of the detection tool and the detection method is not intuitive and is not easy to operate, the process of reading the value and the calculation process are complex, and the vernier caliper with a large range is not easy to purchase.

With the increasing difficulty of construction engineering and the continuous progress of technology, the vernier caliper used as a detection tool for the bending vector height of the concrete pipe pile cannot meet the detection requirements of the existing construction engineering.

The detection tool for the bending vector height of the concrete pipe pile is in urgent need of improvement.

Disclosure of Invention

The utility model aims to provide a device for detecting the bending rise of a concrete pipe pile, which can be accurately and conveniently used for detecting the bending rise of the concrete pipe pile and improve the manufacturing quality of the concrete pipe pile. The utilization rate of defective products of the concrete pipe pile is reduced, and the construction quality of construction engineering using the concrete pipe pile is improved.

The utility model is realized by the following steps:

a concrete pipe pile bending rise detection device is provided with a transmitting device, a data receiving device and a data receiving device, wherein:

the transmitting device is provided with a transmitting scale, a laser transmitter and a tubular pile fixing base;

the emission scale and the sliding support are both fixed on the tubular pile fixing base;

a launcher sliding adjusting block is arranged outside the sliding rod of the sliding support;

the laser emitter is fixed on one side of the emitter sliding adjusting block and can move on the sliding support along with the emitter sliding adjusting block;

a receiving scale is arranged in the data receiving device;

the elevation value of the transmitting scale in the transmitting device is the same as the elevation value of the receiving scale in the data receiving device;

and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile.

Preferably, the tubular pile fixing base is provided with two tubular pile fixing and adjusting blocks, a fixing base plate and adjusting screws, the two tubular pile fixing and adjusting blocks are respectively installed on two sides of the adjusting screws, and tubular pile fixing and adjusting slider knobs are installed at the end parts of the outer ends of the adjusting screws on the outer sides of the tubular pile fixing and adjusting blocks; the threads on the two sides of the adjusting screw rod are reverse threads; the fixed chassis is arranged on the tubular pile fixed adjusting block.

Preferably, the lower end surfaces of the two tubular pile fixing and adjusting blocks are symmetrical inner inclined surfaces or symmetrical inner arc surfaces, and two sides of the upper end surfaces of the two tubular pile fixing and adjusting blocks are respectively provided with a slide way or a slide way which is connected with the slide way or the slide way at the lower end of the fixed chassis; and two sides of two side edges of the fixed chassis body are respectively provided with a connecting ring of a band of the launching device.

Preferably, the sliding support is provided with two sliding rods, and the lower ends of the two sliding rods can be directly welded with the fixed chassis, in threaded connection or fixed on the fixed chassis through a locking and fixing block; the transmitter sliding adjusting block is provided with a sliding rod mounting hole and a locking knob mounting hole, the locking knob mounting hole is communicated with the sliding rod mounting hole, and a screw rod of a sliding block locking knob can be arranged in the locking knob mounting hole.

Preferably, a transmitter fixing frame is arranged in a block body on one side, close to the transmitting scale, of the transmitter sliding adjusting block, a transmitter mounting guide rail or mounting chute is arranged on the upper end face of the transmitter fixing frame, and the transmitter mounting guide rail or mounting chute can be connected with a transmitter mounting chute or mounting guide rail at the lower end of the laser transmitter; fixing bolts are arranged on two sides of the body, wherein the lower part of the laser emitter is provided with an emitter mounting chute or a mounting guide rail; the laser emitter and an adjusting screw rod in the tubular pile fixing base are on the same axis.

Preferably, an instrument height pointer is fixed outside the laser emitter body, and the needle point of the instrument height pointer points to the elevation value in the emission scale; the needle point of the height indicator is as high as the laser beam of the laser emitter.

Preferably, the data receiving device is provided with a receiving scale fixing base with the same structure as the tubular pile fixing base, and a data receiving device binding belt is arranged on the outer side of the receiving scale fixing base; the receiving scale is fixed in the middle of the upper end of the receiving scale fixing base.

A concrete pipe pile bending rise detection device is provided with a transmitting device, a data receiving device and a data receiving device, wherein:

the transmitting device is provided with a transmitting scale, a laser transmitter, a transmitter fixing base and a tubular pile fixing base;

the transmitting scale and the sliding support are both fixed on the transmitter fixing base;

a launcher sliding adjusting block is arranged outside the sliding rod of the sliding support;

the laser emitter is fixed on one side of the emitter sliding adjusting block and can move on the sliding support along with the emitter sliding adjusting block;

a manual displacement platform is arranged between the emitter fixing base and the tubular pile fixing base, and the emitter fixing base can rotate on the manual displacement platform;

a receiving scale is arranged in the data receiving device;

the elevation value of the transmitting scale in the transmitting device is the same as the elevation value of the receiving scale in the data receiving device;

and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile.

Preferably, the emitter fixing base is fixed on the adjusting turntable in the manual displacement platform, the lower disc of the manual displacement platform is fixed on the fixing chassis of the tubular pile fixing base, and the adjusting turntable and the lower disc of the manual displacement platform are connected through a rotating shaft.

Preferably, the angle adjusting pointer is installed on the outer side of one tubular pile fixing and adjusting block in the tubular pile fixing base, and the angle adjusting pointer points to scales in an adjusting turntable of the manual displacement platform.

The utility model has the following remarkable effects:

the utility model can be used for self-checking the bending rise of the concrete pipe pile by a manufacturing unit in the manufacturing process or delivery of the concrete pipe pile. The bending rise of the concrete pipe pile can be checked on site when the concrete pipe pile enters the field by using the method for detecting the bending rise of the concrete pipe pile on the construction unit using the concrete pipe pile.

The utility model provides a convenient and fast detection device for detecting the bending rise of the concrete pipe pile, and the device transmits a laser beam to read an elevation value on a receiving scale in a data receiving device fixed at the other end of the concrete pipe pile through a high-precision laser transmitter fixed at one end of the concrete pipe pile or fixed at the middle part of the concrete pipe pile, so that the value of the curvature rise of the concrete pipe pile can be obtained by solving the difference between the elevation values in the laser transmitter and the receiving scale, and the device is convenient and fast.

The utility model has simple structure, low manufacturing cost, simple and convenient operation, low requirement on the culture level of operators, intuitive detection result, and capability of judging the bending rise value of the concrete pipe pile at any time by reading along with measurement, and judging whether the used and processed concrete pipe pile meets the construction specification requirement according to the bending rise value of the concrete pipe pile in a construction site or a processing and manufacturing unit.

The method abandons the mode that the existing large-scale measuring caliper measures the rise value of the concrete pipe pile, greatly improves the working efficiency of measurement, lightens the labor intensity of workers, improves the accuracy rate of measuring the bending rise of the concrete pipe pile, can make a contribution to greatly improving the manufacturing quality of the concrete pipe pile and the construction quality of the project using the concrete pipe pile, has obvious use effect and application value and can obtain good economic benefit.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a transmitting device in the present invention.

Fig. 2 is a schematic structural diagram of a data receiving apparatus in the present invention.

Fig. 3 is a schematic structural view of a tubular pile fixing and adjusting block and an adjusting screw rod in the tubular pile fixing base.

In fig. 1: the device comprises a transmitting scale 1, a laser transmitter 2, a height indicator 3, a tubular pile fixing and adjusting block 4, a transmitter fixing base 5, a transmitter locking knob 6, an angle coarse and accurate adjusting knob 7, a transmitting device ribbon connecting ring 8, a transmitter sliding and adjusting block 9, a sliding support 10, an angle adjusting accuracy switching knob 11, an angle fine and accurate adjusting knob 12, an adjusting rotary table 13, a tubular pile fixing and adjusting slider knob 14, an angle approving block 15 and a fixing base 16.

In fig. 2: a receiving scale 17, a receiving scale fixing base 18 and a data receiving device bandage 19.

In fig. 3: a slide way 20 and an adjusting screw 21.

Detailed Description

The drawings are for reference and illustration purposes only and are not intended to limit the scope of the present disclosure. The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. 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 order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The present invention has the following two embodiments.

Implementation mode one

Referring to fig. 1, 2 and 3, a concrete pipe pile bending rise detection device is provided with a transmitting device, a data receiving device and a data receiving device, wherein:

the transmitting device is provided with a transmitting scale 1, a laser transmitter 2 and a tubular pile fixing base;

a launcher sliding adjusting block 9 is arranged outside the sliding rod of the sliding support 10;

the laser emitter 2 is fixed on one side of the emitter sliding adjusting block 9 and can move on the sliding support 10 along with the emitter sliding adjusting block 9;

the emission scale 1 and the sliding support 10 are both fixed on the tubular pile fixing base;

the data receiving device is provided with a receiving scale 17 and a receiving scale fixing base 18, and the receiving scale 17 is fixed on the receiving scale fixing base 18;

the elevation value set in the transmitting scale 1 in the transmitting device is the same as the elevation value set in the receiving scale 17 in the data receiving device;

and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile.

The utility model provides special equipment for detecting the bending vector quantity of the concrete pipe pile, and the transmitting device and the data receiving device are respectively fixed on the concrete pipe pile through the pipe pile fixing base and the receiving scale fixing base 18, can be respectively fixed at two ends of the concrete pipe pile, and can also be respectively fixed in the middle of the concrete pipe pile and at one end of the concrete pipe pile. Because the laser beam emitted by the laser emitter 2 is a linear beam, the laser beam emitted by the laser emitter 2 irradiates the upper surface of the receiving scale 17 in the data receiving device fixed opposite to the receiving scale 17, the elevation value in the receiving scale 17 is compared with the elevation value in the emitting scale 1, and the difference between the two values is the bending vector quantity of the concrete pipe pile. According to the utility model, the high-precision laser emitter 2 is used for detecting the bending vector quantity of the concrete pipe pile, the detection result is visual and can be read at any time, the bending vector quantity of the detected concrete pipe pile is accurate and the operation is convenient, so that the manufacturing quality of the concrete pipe pile can be greatly improved, the number of defective products is reduced, and the manufacturing cost is reduced; meanwhile, before the concrete pipe pile is used, the bending rise detection can be carried out by using the method, so that the construction quality of a project using the concrete pipe pile can be greatly improved, and the method has a remarkable using effect. When being used for longer concrete pipe pile, can fix emitter at concrete pipe pile's intermediate position, after the crooked vector of test completion concrete pipe pile one end is high, when the crooked vector of test concrete pipe pile other end is high, need change emitter's fixed position, make laser emitter 2 aim at with the receiving scale 17 that has changeed the position.

On the basis of the above-described examples, the present embodiment also has the following examples:

the tubular pile fixing base is provided with two tubular pile fixing and adjusting blocks 4, a fixing base plate 16 and adjusting screws 21, the two tubular pile fixing and adjusting blocks 4 are respectively arranged at two sides of the adjusting screws 21, and tubular pile fixing and adjusting slide block knobs 14 are arranged at the end parts of the outer ends of the adjusting screws 21 at the outer sides of the tubular pile fixing and adjusting blocks 4; the threads on the two sides of the adjusting screw rod 21 are mutually reverse threads; the fixed chassis 16 is arranged on the tubular pile fixed adjusting block 4. Therefore, as long as the tubular pile fixing and adjusting slide block knob 14 on one side is rotated, the tubular pile fixing and adjusting blocks 4 on two sides of the adjusting screw rod 21 can move inwards or outwards simultaneously, and the launching device can be conveniently fixed on the concrete tubular pile.

Two the lower terminal surface of the fixed regulating block 4 of tubular pile is the interior inclined plane of symmetry or the intrados of symmetry two the both sides of the up end of the fixed regulating block 4 of tubular pile are equipped with slide or slide rail 20 respectively, slide or slide rail 20 be connected with slide or slide of fixed chassis 16 lower extreme. The inner inclined plane or the inner arc surface of the lower end surface of the tubular pile fixing and adjusting block 4 can be well combined with the appearance of a concrete tubular pile to be detected, so that the tubular pile fixing base is firmly fixed outside the concrete tubular pile. In the embodiment, the two sides of the upper end surfaces of the two tubular pile fixing and adjusting blocks 4 are respectively provided with the slide rails or the slide rails 20, the slide rails or the slide rails 20 are connected with the slide rails or the slide rails at the lower end of the fixed chassis 16, the two tubular pile fixing and adjusting sliders 20 are relatively connected to the lower part of the tubular pile fixing base, the installation distance is adjusted through the tubular pile fixing and adjusting slider knobs 14, and the tubular pile fixing and adjusting blocks can be well fixed together with a concrete tubular pile.

The lower end surfaces of the two tubular pile fixing and adjusting blocks 4 are symmetrical inner inclined surfaces or symmetrical inner arc surfaces, the two sides of the upper end surfaces of the two tubular pile fixing and adjusting blocks 4 are respectively provided with a slide way or a slide rail 20, and the slide ways or the slide rails 20 are connected with slide ways or slide ways at the lower end of a fixed chassis 16; two sides of the body of the fixed chassis 16 are respectively provided with a binding belt connecting ring 8 of the launching device.

The sliding support 10 is provided with two sliding rods, and the lower ends of the two sliding rods can be directly welded with the fixed chassis 16, in threaded connection or fixed on the fixed chassis 16 through a locking and fixing block; the emitter sliding adjusting block 9 is provided with a sliding rod mounting hole and a locking knob mounting hole, the locking knob mounting hole is communicated with the sliding rod mounting hole, and a screw of the sliding block locking knob 6 can be installed in the locking knob mounting hole. The emitter slide adjusting block 9 can be fixed outside any position of two slide bars of the slide bracket 10 through the slide block locking knob 6.

A transmitter fixing frame is arranged in a block body at one side of the transmitter sliding adjusting block 9 close to the transmitting scale 1, a transmitter mounting guide rail or a mounting chute is arranged on the upper end face of the transmitter fixing frame, and the transmitter mounting guide rail or the mounting chute can be connected with a transmitter mounting chute or a mounting guide rail at the lower end of the laser transmitter 2; fixing bolts are arranged on two sides of the body, wherein the lower part of the laser emitter 2 is provided with an emitter mounting chute or a mounting guide rail; the laser emitter 2 and an adjusting screw 21 in the tubular pile fixing base are on the same axis. This embodiment passes through fixing bolt to fix laser emitter 2 on the transmitter mount, and laser emitter 2 can conveniently remove on the transmitter mount through transmitter installation spout or installation guide rail of its body lower part, adjusts laser emitter 2 and the distance between transmission scale 1 and the high pointer 3 of appearance, makes indicating data more accurate.

An instrument height pointer 3 is fixed outside the body of the laser emitter 2, and the needle point of the instrument height pointer 3 points to the elevation value in the emission scale 1; the needle point of the height indicator 3 is as high as the laser beam of the laser emitter 2. The height indicator 3 can be fixed at the front end of the body of the laser emitter 2 and the rear end of the middle part of the body of the laser emitter 2, and the rise value of the concrete pipe pile between the transmitting device and the data receiving device can be conveniently and quickly obtained as long as the needle point of the height indicator 3 is as high as the laser beam of the laser emitter 2. If the height indicator 3 is not arranged, the height value of the laser beam emitted by the laser emitter 2 in the emitting scale 1 can be determined, and compared with the height value in the receiving scale 17 in the data receiving device, so that the rise value of the concrete pipe pile between the emitting device and the data receiving device can be obtained.

A receiving scale fixing base 18 with the same structure as the tubular pile fixing base is arranged in the data receiving device, and a data receiving device ribbon 19 is arranged on the outer side of the receiving scale fixing base 18; the receiving scale 17 is fixed to the middle of the upper end of the receiving scale fixing base 18.

Second embodiment

Referring to fig. 1 to 3, a bending rise detection device for a concrete pipe pile is provided with a transmitting device, a data receiving device and a data receiving device, wherein:

the transmitting device is provided with a transmitting scale 1, a laser transmitter 2, a transmitter fixing base 5 and a tubular pile fixing base;

the emission scale 1 and the sliding support 10 are both fixed on the emitter fixing base 5;

a launcher sliding adjusting block 9 is arranged outside the sliding rod of the sliding support 10;

the laser emitter 2 is fixed on one side of the emitter sliding adjusting block 9 and can move on the sliding support 10 along with the emitter sliding adjusting block 9;

a manual displacement platform is arranged between the emitter fixing base 5 and the tubular pile fixing base, and the emitter fixing base 5 can rotate on the manual displacement platform;

a receiving scale 17 is arranged in the data receiving device;

the elevation value of the transmitting scale 1 in the transmitting device is the same as the elevation value of the receiving scale 17 in the data receiving device;

and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile.

The utility model provides special equipment for detecting the bending vector quantity of the concrete pipe pile, and the transmitting device and the data receiving device are respectively fixed on the concrete pipe pile through the pipe pile fixing base and the receiving scale fixing base 18, can be respectively fixed at two ends of the concrete pipe pile, and can also be respectively fixed in the middle of the concrete pipe pile and at one end of the concrete pipe pile. Because the laser beam emitted by the laser emitter 2 is a linear beam, the laser beam emitted by the laser emitter 2 irradiates the upper surface of the receiving scale 17 in the data receiving device fixed opposite to the receiving scale 17, the elevation value in the receiving scale 17 is compared with the elevation value in the emitting scale 1, and the difference between the two values is the bending vector quantity of the concrete pipe pile. According to the utility model, the high-precision laser emitter 2 is used for detecting the bending vector quantity of the concrete pipe pile, the detection result is visual and can be read at any time, the bending vector quantity of the detected concrete pipe pile is accurate and the operation is convenient, so that the manufacturing quality of the concrete pipe pile can be greatly improved, the number of defective products is reduced, and the manufacturing cost is reduced; meanwhile, before the concrete pipe pile is used, the bending rise detection can be carried out by using the method, so that the construction quality of a project using the concrete pipe pile can be greatly improved, and the method has a remarkable using effect. The difference between the second embodiment and the first embodiment lies in that a manual displacement platform is arranged between the emitter fixing base 5 and the tubular pile fixing base, and the emitter fixing base 5 can rotate on the manual displacement platform, so that the second embodiment is more convenient and flexible to use.

The manual displacement platform can be purchased in the market, and the manual displacement platform still is equipped with the thick accurate adjust knob 7 of angle, and angle regulation precision switches knob 11 and the thin accurate adjust knob 12 of angle, adjusts through the thick accurate adjust knob 7 of angle and the thin accurate adjust knob 12 of angle, and the thick accurate adjust knob 7 of angle and the thin accurate adjust knob 12 of angle switch knob 11 through angle regulation precision and switch, can conveniently and accurately confirm emitter's fixed position. When the transmitting device in the embodiment is fixed at the middle position of the concrete pipe pile, the transmitter fixing base 5 can be conveniently rotated to align the laser transmitter 2 with the receiving scale 17. Without having to exchange the fixed orientation of the transmitter device to align the laser transmitter 2 with the changed orientation of the receiving scale 17 as in the above embodiment.

On the basis of the above-described examples, the present embodiment also has the following examples:

the emitter fixing base 5 is fixed on the upper surface of the adjusting rotary table 13 in the manual displacement platform, the lower disc of the manual displacement platform is fixed on the fixing base disc 16 of the tubular pile fixing base, and the adjusting rotary table 13 of the manual displacement platform is connected with the lower disc through a rotating shaft.

An angle adjusting pointer 15 is installed on the outer side of one tubular pile fixing and adjusting block 4 in the tubular pile fixing base, and the angle adjusting pointer 15 points to scales in an adjusting rotary disc 13 of the manual displacement platform.

Other technical features in the present embodiment are the same as those in the first embodiment:

the tubular pile fixing base is provided with two tubular pile fixing and adjusting blocks 4, a fixing base plate 16 and adjusting screws 21, the two tubular pile fixing and adjusting blocks 4 are respectively arranged at two sides of the adjusting screws 21, and tubular pile fixing and adjusting slide block knobs 14 are arranged at the end parts of the outer ends of the adjusting screws 21 at the outer sides of the tubular pile fixing and adjusting blocks 4; the threads on the two sides of the adjusting screw rod 21 are mutually reverse threads; the fixed chassis 16 is arranged on the tubular pile fixed adjusting block 4. Therefore, as long as the tubular pile fixing and adjusting slide block knob 14 on one side is rotated, the tubular pile fixing and adjusting blocks 4 on two sides of the adjusting screw rod 21 can move inwards or outwards simultaneously, and the launching device can be conveniently fixed on the concrete tubular pile.

Two the lower terminal surface of the fixed regulating block 4 of tubular pile is the interior inclined plane of symmetry or the intrados of symmetry two the both sides of the up end of the fixed regulating block 4 of tubular pile are equipped with slide or slide rail 20 respectively, slide or slide rail 20 be connected with slide or slide of fixed chassis 16 lower extreme. The inner inclined plane or the inner arc surface of the lower end surface of the tubular pile fixing and adjusting block 4 can be well combined with the appearance of a concrete tubular pile to be detected, so that the tubular pile fixing base is firmly fixed outside the concrete tubular pile. In the embodiment, the two sides of the upper end surfaces of the two tubular pile fixing and adjusting blocks 4 are respectively provided with the slide rails or the slide rails 20, the slide rails or the slide rails 20 are connected with the slide rails or the slide rails at the lower end of the fixed chassis 16, the two tubular pile fixing and adjusting sliders 20 are relatively connected to the lower part of the tubular pile fixing base, the installation distance is adjusted through the tubular pile fixing and adjusting slider knobs 14, and the tubular pile fixing and adjusting blocks can be well fixed together with a concrete tubular pile.

The lower end surfaces of the two tubular pile fixing and adjusting blocks 4 are symmetrical inner inclined surfaces or symmetrical inner arc surfaces, the two sides of the upper end surfaces of the two tubular pile fixing and adjusting blocks 4 are respectively provided with a slide way or a slide rail 20, and the slide ways or the slide rails 20 are connected with slide ways or slide ways at the lower end of a fixed chassis 16; two sides of the body of the fixed chassis 16 are respectively provided with a binding belt connecting ring 8 of the launching device.

The sliding support 10 is provided with two sliding rods, and the lower ends of the two sliding rods can be directly welded with the fixed chassis 16, in threaded connection or fixed on the fixed chassis 16 through a locking and fixing block; the emitter sliding adjusting block 9 is provided with a sliding rod mounting hole and a locking knob mounting hole, the locking knob mounting hole is communicated with the sliding rod mounting hole, and a screw of the sliding block locking knob 6 can be installed in the locking knob mounting hole. The emitter slide adjusting block 9 can be fixed outside any position of two slide bars of the slide bracket 10 through the slide block locking knob 6.

A transmitter fixing frame is arranged in a block body at one side of the transmitter sliding adjusting block 9 close to the transmitting scale 1, a transmitter mounting guide rail or a mounting chute is arranged on the upper end face of the transmitter fixing frame, and the transmitter mounting guide rail or the mounting chute can be connected with a transmitter mounting chute or a mounting guide rail at the lower end of the laser transmitter 2; and fixing bolts are arranged on two sides of the body, wherein the lower part of the laser emitter 2 is provided with an emitter mounting chute or a mounting guide rail. This embodiment passes through fixing bolt to fix laser emitter 2 on the transmitter mount, and laser emitter 2 can conveniently remove on the transmitter mount through transmitter installation spout or installation guide rail of its body lower part, adjusts laser emitter 2 and the distance between transmission scale 1 and the high pointer 3 of appearance, makes indicating data more accurate.

An instrument height pointer 3 is fixed outside the body of the laser emitter 2, and the needle point of the instrument height pointer 3 points to the elevation value in the emission scale 1; the needle point of the height indicator 3 is as high as the laser beam of the laser emitter 2. The height indicator 3 can be fixed at the front end of the body of the laser emitter 2 and the rear end of the middle part of the body of the laser emitter 2, and the rise value of the concrete pipe pile between the transmitting device and the data receiving device can be conveniently and quickly obtained as long as the needle point of the height indicator 3 is as high as the laser beam of the laser emitter 2. If the height indicator 3 is not arranged, the height value of the laser beam emitted by the laser emitter 2 in the emitting scale 1 can be determined, and compared with the height value in the receiving scale 17 in the data receiving device, so that the rise value of the concrete pipe pile between the emitting device and the data receiving device can be obtained.

A receiving scale fixing base 18 with the same structure as the tubular pile fixing base is arranged in the data receiving device, and a data receiving device ribbon 19 is arranged on the outer side of the receiving scale fixing base 18; the receiving scale 17 is fixed to the middle of the upper end of the receiving scale fixing base 18.

The embodiments described above are merely exemplary embodiments, but the present invention is not limited to these embodiments, and those skilled in the art can make modifications without departing from the spirit and teaching of the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof. Any modification, equivalent replacement, improvement and the like made within the spirit and inventive concept of the present invention should be included in the protection scope of the present invention. The scope of protection is therefore not limited to the description above.

Claims (10)

1. The utility model provides a crooked rise detection device of concrete pipe pile, characterized by is equipped with emitter and data receiver, wherein: the transmitting device is provided with a transmitting scale, a laser transmitter and a tubular pile fixing base; the emission scale and the sliding support are both fixed on the tubular pile fixing base; a launcher sliding adjusting block is arranged outside the sliding rod of the sliding support; the laser emitter is fixed on one side of the emitter sliding adjusting block and can move on the sliding support along with the emitter sliding adjusting block; a receiving scale is arranged in the data receiving device; the elevation value of the transmitting scale in the transmitting device is the same as the elevation value of the receiving scale in the data receiving device; and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile.

2. The concrete pipe pile bending rise detection device of claim 1, wherein the pipe pile fixing base is provided with two pipe pile fixing adjusting blocks, a fixing base plate and an adjusting screw rod, the two pipe pile fixing adjusting blocks are respectively arranged at two sides of the adjusting screw rod, and a pipe pile fixing adjusting slider knob is arranged at the end part of the outer end of the adjusting screw rod outside the pipe pile fixing adjusting block; the threads on the two sides of the adjusting screw rod are reverse threads; the fixed chassis is arranged on the tubular pile fixed adjusting block.

3. The concrete pipe pile bending rise detection device of claim 2, wherein the lower end surfaces of the two pipe pile fixing adjusting blocks are symmetrical inner inclined surfaces or symmetrical inner arc surfaces, and two sides of the upper end surfaces of the two pipe pile fixing adjusting blocks are respectively provided with a slide way or a slide rail, and the slide way or the slide rail is connected with the slide way or the slide way at the lower end of the fixing chassis; and two sides of two side edges of the fixed chassis body are respectively provided with a connecting ring of a band of the launching device.

4. The concrete pipe pile bending rise detection device of claim 1, wherein the sliding support is provided with two sliding rods, and the lower ends of the two sliding rods can be directly welded, screwed or fixed on the fixed chassis through a locking fixing block; the transmitter sliding adjusting block is provided with a sliding rod mounting hole and a locking knob mounting hole, the locking knob mounting hole is communicated with the sliding rod mounting hole, and a screw rod of a sliding block locking knob can be arranged in the locking knob mounting hole.

5. The concrete pipe pile bending rise detection device of claim 4, wherein a transmitter fixing frame is arranged in a block body at one side of the transmitter sliding adjusting block close to the transmitting scale, and a transmitter mounting guide rail or a mounting chute is arranged on the upper end face of the transmitter fixing frame and can be connected with a transmitter mounting chute or a mounting guide rail at the lower end of the laser transmitter; fixing bolts are arranged on two sides of the body, wherein the lower part of the laser emitter is provided with an emitter mounting chute or a mounting guide rail; the laser emitter and an adjusting screw rod in the tubular pile fixing base are on the same axis.

6. The concrete pipe pile bending rise detection device of claim 1 or 5, wherein a height indicator is fixed outside the laser emitter body, and the needle point of the height indicator points to an elevation value in the emission scale; the needle point of the height indicator is as high as the laser beam of the laser emitter.

7. The concrete pipe pile bending rise detection device of claim 4, wherein the data receiving device is provided with a receiving scale fixing base with the same structure as the pipe pile fixing base, and a data receiving device binding belt is arranged outside the receiving scale fixing base; the receiving scale is fixed in the middle of the upper end of the receiving scale fixing base.

8. The utility model provides a crooked rise detection device of concrete pipe pile, characterized by is equipped with emitter and data receiver, wherein: the transmitting device is provided with a transmitting scale, a laser transmitter, a transmitter fixing base and a tubular pile fixing base;

the transmitting scale and the sliding support are both fixed on the transmitter fixing base; a launcher sliding adjusting block is arranged outside the sliding rod of the sliding support; the laser emitter is fixed on one side of the emitter sliding adjusting block and can move on the sliding support along with the emitter sliding adjusting block; a manual displacement platform is arranged between the emitter fixing base and the tubular pile fixing base, and the emitter fixing base can rotate on the manual displacement platform; a receiving scale is arranged in the data receiving device; the elevation value of the transmitting scale in the transmitting device is the same as the elevation value of the receiving scale in the data receiving device; and respectively fixing the transmitting device and the data receiving device on the concrete pipe pile.

9. The concrete pipe pile bending rise detection device of claim 8, wherein the emitter fixing base is fixed on an adjusting turntable in the manual displacement platform, a lower plate of the manual displacement platform is fixed on a fixing chassis of the pipe pile fixing base, and the adjusting turntable and the lower plate of the manual displacement platform are connected through a rotating shaft.

10. The concrete pipe pile bending rise detection device of claim 8 or 9, wherein an angle adjusting pointer is arranged on the outer side of one pipe pile fixing adjusting block in the pipe pile fixing base and points to a scale in an adjusting turntable of the manual displacement platform.

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