CN203546696U - Angle adjustable converter for measuring settlement deformation along horizontal direction - Google Patents

Abstract

The utility model belongs to the technical field of settlement measurement of building foundations and provides an angle adjustable converter applicable to measuring settlement deformation of V-shaped lines formed by two settlement pipes in a single free face high fill foundation horizontal plane. According to the technical scheme, a multi-angle adjustable pulley block is mounted in a triangular prism framework, a guiding adjustable grooved column is arranged on one lateral edge of the triangular prism framework, the bottom of the multi-angle adjustable pulley block is sleeved in the guiding adjustable grooved column to be securely fastened, joint pipes are hinged to two rectangular side frameworks respectively, each joint pipe is connected with a settlement pipe, covering plates are installed on outer surfaces of the triangular prism framework, rotating gaps are reserved on the two side frameworks with the joint pipes, a measuring rope is mounted on the multi-angle adjustable pulley block, two ends of the measuring rope penetrate the joint pipes and the settlement pipes respectively, and a clinometer is installed on the measuring rope in one of the settlement pipes. The angle adjustable converter is mainly used for measuring settlement deformation of high fill foundations.

Description

A kind of along continuous straight runs is measured the adjustable converter of angle of sedimentation and deformation

Technical field

A kind of along continuous straight runs of the utility model is measured the adjustable converter of angle of sedimentation and deformation, belongs to sinking of building base field of measuring technique, the particularly measurement of V-shaped line road sedimentation and deformation in a kind of single free-face high fill foundation horizontal plane.

Background technology

Along with the requirement that China utilizes soil is more and more higher, for avoiding striving ground with good farmland, many cities have proposed the development strategy of " industry is gone out of the city, project is gone up a hill ", and more engineering construction will be positioned at Hilly land, and this just makes to occur in engineering more evaluation.The method that domestic and foreign literature carries out settlement measurement to the direct along continuous straight runs of the high embankment engineering of single free-face is not yet reported.Therefore, high embankment engineering being carried out to along continuous straight runs measures the research of sedimentation and deformation and has important realistic meaning.

Place, mountain area geology, with a varied topography, this just causes certain difficulty to our measurement of foundation settlement distortion, high embankment engineering is different from the common subgrade construction that has two free faces, and existing measuring apparatus and method can vertically be measured sedimentation, but some position is too discrete; With inclinometer, measure in the horizontal direction, need to have two free face along continuous straight runs to carry out line measurement, and be difficult to realize line measurement when measuring the sedimentation and deformation of single free-face high fill foundation, need to measure with certain angle and circuit.

Utility model content

The utility model overcomes the deficiency that prior art exists, and technical problem to be solved is to provide a kind of adjustable converter of angle that is applicable in single free-face high fill foundation horizontal plane the V-arrangement route survey sedimentation and deformation that two sedimentation pipes form.

In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of along continuous straight runs is measured the adjustable converter of angle of sedimentation and deformation, comprise triangular prism framework, multi-angle adjustable slide wheels, junction block, lining rope and overlay, multi-angle adjustable slide wheels are arranged on the inside of triangular prism framework, an incline of triangular prism framework is provided with guiding regulating tank post, the bottom of multi-angle adjustable slide wheels is sleeved in guiding regulating tank post, and guiding regulating tank post is provided with multiple adjustment holes fastening fixing by the first set screw and multi-angle adjustable slide wheels, on triangular prism framework, on the lateral frame of two rectangles corresponding with the incline that is provided with guiding regulating tank post, be hinged with respectively a junction block, each junction block is all connected with a sedimentation pipe, the external surface of described triangular prism framework is all provided with overlay and is provided with and on two lateral frames of junction block, leaves the rotary gap for junction block rotation,

The structure of described multi-angle adjustable slide wheels is: the montant of T shape bar is sleeved in guiding regulating tank post, and two ends of cross bar of T shape bar are hinged with one end of a connecting rod respectively, and the other end of each connecting rod is all provided with a pulley;

A lining rope is installed on the pulley described in two, and the two ends of described lining rope through a junction block and sedimentation pipe, are provided with inclinometer on the lining rope in one of them sedimentation pipe respectively.

In the bottom frame of described triangular prism framework, be welded with a runner frame;

On described multi-angle adjustable slide wheels, X-shaped fixed mount is installed, the structure of described X-shaped fixed mount has the arranged in a crossed manner and crosspoint of two slide bars of chute in the middle of being and is connected with described runner frame by the second set screw, one end of two slide bars be hinged on the cross bar of T shape frame and the other end hinged with one end that two connecting rods are provided with pulley respectively, the cross bar of corresponding slide bar, connecting rod and T shape frame forms triangle frame.

On all surface framework of described triangular prism framework, be all welded with multiple bracing frames, each lip-deep all bracing frames form multiple triangular framings.

One side of the top surface frame of described triangular prism framework is hinged by hinge and a lateral frame, and the other both sides of top surface frame and corresponding two lateral frames link together by fixed screw.

Bracing frame in described runner frame and triangular prism framework bottom frame splices steel plate by node and links together.

Described triangular prism frame installation has on two lateral frames of junction block and is equipped with moccasin on the rotary gap for junction block rotation.

In described junction block, be provided with and prevent that inclinometer from entering the spacing shim of triangular prism framework inside.

The structure of described connecting rod is two-segment type telescopic tube fastening fixing by the 3rd set screw.

Described overlay is steel plate.

Described junction block is pvc pipe.

The utility model compared with the existing technology has following beneficial effect.

1, the utility model is installed multi-angle adjustable slide wheels in triangular prism framework, by the anglec of rotation that changes pulley position and junction block simultaneously, be connected with the sedimentation pipe of two V-shaped line arrangements, with realize engineering predetermined angular circuit sedimentation and deformation measure, take measurement of an angle (angles between two sedimentation pipes) that can provide are 0 ~ 180 degree, when the Settlement of High Embankment distortion of measuring single free-face, only two pulleys in the utility model need be adjusted to angle, being arranged on two lining ropes on pulley passes after junction block and sedimentation pipe, the utility model is imbedded to precalculated position, on lining rope in a sedimentation pipe, connect inclinometer therein, just can measure the sedimentation and deformation of observation point, use easy to carry, applied widely.

2, in the utility model, two of X-shaped fixed mount slide bars form triangle with connecting rod respectively on the cross bar of T shape frame, utilized leg-of-mutton stability, pulley in measuring, can not be subjected to displacement in use, two slide bar crosspoints of X-shaped fixed mount are connected with the runner frame on under(-)chassis by the second set screw, make triangle more stable on the one hand, avoided on the other hand pulley to sink so that depart from center to causing measure error because of deadweight.

3, the utility model forms multiple triangular framings at triangular prism framework surface soldered bracing frame, has utilized leg-of-mutton stability, makes the utility model can not be out of shape or damage because of the embankment compacting of top, has extended application life, measures convenient.

4, one side of the utility model top surface frame is hinged by hinge and a lateral frame, during use, directly raising top surface frame adjusts pulley position, adjust complete cover can banket after top surface frame makes it be fixedly connected with lateral frame with fixed screw roll and settling amount measured with the utility model, convenient to use.

5, on the rotary gap of the utility model set confession junction block rotation on two lateral frames, lay moccasin, neither affect the adjustment of junction block angle, avoided again sandy soil to enter the utility model inside from rotary gap and made measurement result form deviation.

6, in the utility model center tap pipe, spacing shim is installed, prevents that inclinometer from entering triangular prism framework inside from junction block and causing clinometer probe to damage, measurement result is caused a deviation.

7, the connecting rod in the utility model is two-segment type sleeve pipe, fastening fixing with the 3rd set screw after adjustable length, makes the angle adjustment between two pulleys more convenient.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the structural representation that the utility model is used state one.

Fig. 2 is the structural representation of multi-angle adjustable slide wheels in the utility model.

Fig. 3 is the structural representation that the lateral frame of junction block is installed in the utility model.

Fig. 4 is the structural representation of the lateral frame of field joint pipe not in the utility model.

Fig. 5 is the internal construction schematic diagram of the utility model center tap pipe.

Fig. 6 is the structural representation of top surface frame in the utility model.

Fig. 7 is the structural representation of bottom frame in the utility model.

Fig. 8 is the structural representation that the utility model is used state two.

Fig. 9 is the structural representation that the utility model is used state three.

In figure: 1 is triangular prism framework, 2 is multi-angle adjustable slide wheels, and 3 is junction block, and 4 is lining rope, 5 is guiding regulating tank post, and 6 is T shape bar, and 7 is connecting rod, and 8 is pulley, 9 is inclinometer, and 10 is bracing frame, and 11 is hinge, and 12 is X-shaped fixed mount, 13 is moccasin, and 14 is runner frame, and 15 is sedimentation pipe, and 16 is spacing shim, 17 is top surface frame, and 18 is bottom frame, and 19 is lateral frame, 20 is the first set screw, and 21 is the second set screw, and 22 is the 3rd set screw.

The specific embodiment

As shown in Fig. 1-7, a kind of along continuous straight runs of the utility model is measured the adjustable converter of angle of sedimentation and deformation, comprise triangular prism framework 1, multi-angle adjustable slide wheels 2, junction block 3, lining rope 4 and overlay, multi-angle adjustable slide wheels 2 are arranged on the inside of triangular prism framework 1, an incline of triangular prism framework 1 is provided with guiding regulating tank post 5, the bottom of multi-angle adjustable slide wheels 2 is sleeved in guiding regulating tank post 5, and guiding regulating tank post 5 is provided with multiple adjustment holes fastening fixing by the first set screw 20 and multi-angle adjustable slide wheels 2, on triangular prism framework 1, on the lateral frame 19 of two rectangles corresponding with the incline that is provided with guiding regulating tank post 5, be hinged with respectively a junction block 3, each junction block 3 is all connected with a sedimentation pipe 15, the external surface of described triangular prism framework 1 is all provided with overlay and is provided with and on two lateral frames 19 of junction block 3, leaves the rotary gap rotating for junction block 3,

The structure of described multi-angle adjustable slide wheels 2 is: the montant of T shape bar 6 is sleeved in guiding regulating tank post 5, and two ends of cross bar of T shape bar 6 are hinged with one end of a connecting rod 7 respectively, and the other end of each connecting rod 7 is all provided with a pulley 8;

A lining rope 4 is installed on the pulley 8 described in two, and the two ends of described lining rope 4 through a junction block 3 and sedimentation pipe 15, are provided with inclinometer 9 on the lining rope 4 in one of them sedimentation pipe 15 respectively.

In the bottom frame 18 of described triangular prism framework 1, be welded with a runner frame 14;

On described multi-angle adjustable slide wheels 2, X-shaped fixed mount 12 is installed, the structure of described X-shaped fixed mount 12 has the arranged in a crossed manner and crosspoint of two slide bars of chute in the middle of being and is connected with described runner frame 14 by the second set screw 21, one end of two slide bars be hinged on the cross bar of T shape frame 6 and the other end hinged with one end that two connecting rods 7 are provided with pulley 8 respectively, the cross bar of corresponding slide bar, connecting rod 7 and T shape frame 6 forms triangle frame.

On all surface framework of described triangular prism framework 1, be all welded with multiple bracing frames 10, each lip-deep all bracing frames 10 form multiple triangular framings.

One side of the top surface frame 17 of described triangular prism framework 1 is hinged by hinge 11 and a lateral frame 19, and the other both sides of top surface frame 17 and corresponding two lateral frames 19 link together by fixed screw.

Described runner frame 14 splices steel plate with the bracing frame 10 in triangular prism framework 1 bottom frame by node and links together.

Described triangular prism framework 1 is provided with on the rotary gap rotating for junction block 3 on two lateral frames 19 of junction block 3 and is equipped with moccasin 13.

In described junction block 3, be provided with and prevent that inclinometer 9 from entering the spacing shim 16 of triangular prism framework 1 inside.

The structure of described connecting rod 7 is two-segment type telescopic tube fastening fixing by the 3rd set screw 22.

Described overlay is steel plate.

Described junction block 3 is pvc pipe.

The utility model is by the anglec of rotation of position, angle and the junction block of adjustment multi-angle adjustable slide wheels, be connected with two sedimentation pipes 15, applicable to the measurement of V-shaped line road sedimentation and deformation in high fill foundation horizontal plane, the V-arrangement angle angular range of two sedimentation pipes is 0 °-180 °:

Use state one, as shown in Figure 1, the angle angle of two sedimentation pipes 15 is 120 °;

Use state two, as shown in Figure 8, the angle angle of two sedimentation pipes 15 is 180 °;

Use state three, as shown in Figure 9, the angle angle of two sedimentation pipes 15 is 0 °.

Using method:

The first step: according to requirement of engineering, determine in advance two angles between sedimentation pipe 15, and lay two sedimentation pipes 15 in the measurement circuitry forming at scheduled measurement point according to determined angle;

Second step: by adjusting the connecting length of T shape frame 6 and guiding regulating tank post 5, angle and length thereof between two connecting rods 7, the anglec of rotation that also has junction block 3, makes to be arranged on two angles between lining rope 4 two ends on pulley 8 identical with two sedimentation pipe 15 angles;

The 3rd step: the two ends of lining rope 4, respectively through corresponding junction block 3 and sedimentation pipe 15, are connected to inclinometer 9 on the lining rope 4 in one of them sedimentation pipe 15;

The 5th step: carry out high embankment engineering, due to sedimentation and deformation, lining rope 4 draws inclinometer 9 and moves in sedimentation pipe 15, now repeatedly observes and record the data reflection of inclinometer 9;

The 6th step: after measurement finishes, the measurement result of record is arranged, analyzed.

By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-described embodiment, in the ken possessing those of ordinary skills, can also under the prerequisite that does not depart from the utility model aim, make various variations.

Claims (10)

1. the adjustable converter of angle of an along continuous straight runs measurement sedimentation and deformation, it is characterized in that: comprise triangular prism framework (1), multi-angle adjustable slide wheels (2), junction block (3), lining rope (4) and overlay, multi-angle adjustable slide wheels (2) are arranged on the inside of triangular prism framework (1), an incline of triangular prism framework (1) is provided with guiding regulating tank post (5), the bottom of multi-angle adjustable slide wheels (2) is sleeved in guiding regulating tank post (5), and guiding regulating tank post (5) is provided with multiple adjustment holes fastening fixing by the first set screw (20) and multi-angle adjustable slide wheels (2), on triangular prism framework (1), on the lateral frame (19) of two rectangles corresponding with the incline that is provided with guiding regulating tank post (5), be hinged with respectively a junction block (3), each junction block (3) is all connected with a sedimentation pipe (15), the external surface of described triangular prism framework (1) is all provided with overlay and is provided with and on two lateral frames (19) of junction block (3), leaves the rotary gap for junction block (3) rotation,

The structure of described multi-angle adjustable slide wheels (2) is: the montant of T shape bar (6) is sleeved in guiding regulating tank post (5), two ends of cross bar of T shape bar (6) are hinged with one end of a connecting rod (7) respectively, and the other end of each connecting rod (7) is all provided with a pulley (8);

On pulley (8) described in two, a lining rope (4) is installed, the two ends of described lining rope (4), respectively through a junction block (3) and sedimentation pipe (15), are provided with inclinometer (9) on the lining rope (4) in one of them sedimentation pipe (15).

2. a kind of along continuous straight runs according to claim 1 is measured the adjustable converter of angle of sedimentation and deformation, it is characterized in that: in the bottom frame (18) of described triangular prism framework (1), be welded with a runner frame (14);

On described multi-angle adjustable slide wheels (2), X-shaped fixed mount (12) is installed, the structure of described X-shaped fixed mount (12) has the arranged in a crossed manner and crosspoint of two slide bars of chute in the middle of being and is connected with described runner frame (14) by the second set screw (21), one end of two slide bars be hinged on the cross bar of T shape frame (6) and the other end that one end of pulley (8) is installed is hinged with two connecting rods (7) respectively, the cross bar of corresponding slide bar, connecting rod (7) and T shape frame (6) forms triangle frame.

3. a kind of along continuous straight runs according to claim 2 is measured the adjustable converter of angle of sedimentation and deformation, it is characterized in that: on all surface framework of described triangular prism framework (1), be all welded with multiple bracing frames (10), each lip-deep all bracing frames (10) form multiple triangular framings.

4. a kind of along continuous straight runs according to claim 3 is measured the adjustable converter of angle of sedimentation and deformation, it is characterized in that: one side of the top surface frame (17) of described triangular prism framework (1) is hinged by hinge (11) and a lateral frame (19), and the other both sides of top surface frame (17) and corresponding two lateral frames (19) link together by fixed screw.

5. a kind of along continuous straight runs according to claim 3 is measured the adjustable converter of angle of sedimentation and deformation, it is characterized in that: described runner frame (14) splices steel plate with the bracing frame (10) in triangular prism framework (1) bottom frame by node and links together.

6. the adjustable converter of angle of measuring sedimentation and deformation according to a kind of along continuous straight runs described in claim 1-5 any one, is characterized in that: two lateral frames (19) that described triangular prism framework (1) is provided with junction block (3) are above equipped with moccasin (13) on the rotary gap for junction block (3) rotation.

7. the adjustable converter of angle of measuring sedimentation and deformation according to a kind of along continuous straight runs described in claim 1-5 any one, is characterized in that: in described junction block (3), be provided with and prevent that inclinometer (9) from entering the inner spacing shim (16) of triangular prism framework (1).

8. the adjustable converter of angle of measuring sedimentation and deformation according to a kind of along continuous straight runs described in claim 1-5 any one, is characterized in that: the structure of described connecting rod (7) is two-segment type telescopic tube fastening fixing by the 3rd set screw (22).

9. the adjustable converter of angle of measuring sedimentation and deformation according to a kind of along continuous straight runs described in claim 1-5 any one, is characterized in that: described overlay is steel plate.

10. the adjustable converter of angle of measuring sedimentation and deformation according to a kind of along continuous straight runs described in claim 1-5 any one, is characterized in that: described junction block (3) is pvc pipe.

Images