CN215669648U - Upright post lattice column direction control device - Google Patents

Abstract

The utility model relates to a direction control device for a lattice column of a vertical column pile, wherein the lattice column comprises vertical limbs and a transverse batten plate vertically connected with the vertical limbs, and the control device comprises: the positioning frame comprises a plurality of side plates which are sequentially connected to form a regular polygonal frame body, the inner diameter of the frame body is larger than the outer diameter of the lattice column, and the side plates are provided with screw holes; a plurality of top position pieces, the first end of top position piece is equipped with the screw thread that matches the screw, and the second end of top position piece is equipped with first positioning mark. The method can improve the accuracy of adjustment and solve the problem that the traditional method is too rough and tedious when applied to the construction of the lattice column of the upright column pile.

Description

Upright post lattice column direction control device

Technical Field

The utility model relates to the technical field of building construction, in particular to a lattice column direction control device for a vertical column pile.

Background

In the prior art, in the adjustment and fixing measures for the direction of the lattice column of the upright post, after an axis stay is pulled out, the direction of the lattice column is adjusted by penetrating a steel pipe through a gap between the lattice columns according to the standard of visual observation of human eyes. The operation process is rough and tedious, and the construction error is large.

Therefore, a need exists for a device for controlling the direction of a lattice column of a vertical column pile, which can solve the problems of excessive roughness and complexity and large construction error when the traditional method is applied to the construction of the lattice column of the vertical column pile.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the technical defects and provides a device for controlling the direction of a latticed column of a vertical column pile, which can solve the problems of excessive roughness and complexity and larger construction error when the traditional method is applied to the latticed column construction of the vertical column pile.

The technical scheme for realizing the purpose is as follows:

the utility model provides a direction control device for a lattice column of a stud pile, wherein the lattice column comprises a vertical limb and a transverse batten plate vertically connected with the vertical limb, and the direction control device is characterized by comprising:

the positioning frame comprises a plurality of side plates, the side plates are sequentially connected to form a regular polygonal frame body, the inner diameter of the frame body is larger than the outer diameter of the latticed column, and the side plates are provided with screw holes;

the screw hole positioning device comprises a plurality of top position pieces, wherein the first ends of the top position pieces are provided with threads matched with the screw holes, and the second ends of the top position pieces are provided with first positioning marks.

The column direction control device of the latticed column of the upright column pile is further improved in that the side plates are rectangular plates with the same size.

The column direction control device of the latticed column of the upright column pile is further improved in that the number of the side plates is four, and the four side plates are sequentially connected to form a square closed frame body.

The column direction control device of the latticed column of the upright column pile is further improved in that the center of each side plate is provided with the screw hole.

The column direction control device of the latticed column of the upright column pile is further improved in that the number of the jacking pieces is four, and the first ends of the jacking pieces are perpendicular to the side plates and screwed into the screw holes.

The column direction control device of the latticed column of the upright column pile is further improved in that the four jacking pieces are round rods with the same size.

The column direction control device of the latticed column of the upright column pile is further improved in that a reference support for placing a plurality of the jacking pieces is arranged, the inner diameter of the reference support is larger than the outer diameter of the frame body, the bottom of the reference support is placed on the ground, and a second positioning mark corresponding to the first positioning mark is arranged on the position, where the jacking pieces are placed, of the reference support.

The lattice column direction control device for the upright column pile has the beneficial effects that:

through locating the lattice column with the locating frame cover, and pass the screw and twist through a position spare and support and solidify in the position that horizontal lacing plate counterpointed, later can directly control the adjustment to the direction of lattice column through gripping a position spare, transfer the in-process, through placing a plurality of position spares on the reference support that is fixed in ground, make first positioning mark and second positioning mark align the calibration, thereby control the lattice column and be located the stake hole center, can solve the too coarse loaded down with trivial details problem of traditional approach, in addition, a position spare can be constantly adjusted until reaching the requirement under the in-process of lattice column, increase the accuracy of regulation, improve construction quality.

Drawings

Fig. 1 is a front view showing the structure of a lattice column direction control device of a stud pile according to the present invention.

Fig. 2 is a structural plan view of the lattice column direction control device of the stud pile of the present invention.

Fig. 3 is a structural plan view of a lattice column in the lattice column direction control device of the stud pile of the present invention.

Fig. 4 is a view showing a construction state of the lattice column direction control device for a vertical column pile according to the present invention using a casing as a reference sleeve.

Detailed Description

The utility model is further described with reference to the following figures and specific examples.

Referring to fig. 1 to 4, the present invention provides a direction control device for a lattice column of an upright column, the lattice column 10 includes a vertical limb 11 and a horizontal gusset plate 12 vertically connected to the vertical limb 11, and the control device includes:

the positioning frame 20 comprises a plurality of side plates 21, the side plates 21 are sequentially connected to form a regular polygonal frame body, the inner diameter of the frame body is larger than the outer diameter of the lattice column 10, and the side plates 21 are provided with screw holes 30;

and the top position parts 40 are provided with threads matched with the screw holes 30 at first ends of the top position parts 40, and first positioning marks 41 at second ends of the top position parts 40.

With continued reference to fig. 1, in an embodiment of the present invention, the plurality of side plates 21 are rectangular plates with the same size, the size of the side plate 21 is larger than that of the horizontal gusset plate 12, the number of the side plates 21 is four, and the four side plates 21 are connected in sequence to form a square closed frame. Specifically, the side plates 21 are made of steel plates, the four steel plates with the same size are sequentially connected to form a rectangular frame body, the size of the inner diameter of the frame body is larger than the outer diameter of the lattice column 10, the connection position is welded to form the frame 20 in a full-welding mode and the like, the frame 20 formed by the method is vertically through and can be sleeved on the periphery of the lattice column 10, in addition, the frame 20 is a standard square frame body and is consistent with the shape of the periphery of the lattice column 10, the subsequent top part 40 is convenient to fix, the center of the lattice column 10 is convenient to locate through the frame body 20 and the top part 40, the size of the side plates 21 is larger than the size of the transverse lacing plate 12, after the frame body 20 is sleeved on the periphery of the lattice column 10, the side plates 21 and the transverse lacing plate 12 can be aligned, and the subsequent top part 40 can penetrate through the screw holes 30 to abut against the aligned transverse lacing plate 12.

Referring to fig. 1, in an embodiment of the present invention, a screw hole 30 is formed in a center of each side plate 21, the number of the top members 40 is four, and a first end of each top member 40 is screwed into the screw hole 30 perpendicular to the side plate 21. Specifically, the number of the top members 40 corresponds to the number of the side plates 21 in the embodiment, the screw holes 30 are formed in the center of each side plate 21, the number of the top members 40 is set corresponding to the number of the side plates 21, the first ends of the top members 40 are controlled to be screwed into the screw holes 30 in a manner of being perpendicular to the side plates 21, the top members 40 are guaranteed to be located on the horizontal plane and can be adjusted in multiple directions, the center of the lattice column 10 can be located more accurately, and in addition, the subsequent top members 40 serve as placement members, and the placement members 40 are correspondingly arranged in all directions, so that the overall stability of the placement frame 20 is guaranteed.

With continuing reference to fig. 2, in an embodiment of the present invention, four top members 40 are round rods with the same size, specifically, the top members 40 are steel pipes, which are easy to screw and obtain, specifically, four screw holes 30 are provided, the number of the steel pipes is four, a first end of the steel pipe is provided with threads matching with the threads of the screw holes 30, a second end of the steel pipe is provided with first positioning marks 41, the length of the threads is adjusted as required, so as to ensure that the screwing process of the steel pipe is greater than the distance between the aligned transverse batten 12 and the screw holes 30 during screwing towards the transverse batten 12, so that the steel pipe can be temporarily fixed against the transverse batten 12 of the lattice column, the first positioning marks 41 may be groove marks engraved on the surface of the steel pipe, or paint sprayed on the surface of the steel pipe, and the like, and used as marks for subsequent calibration and positioning, during actual construction, the ground correspondingly marks the resting points for the top members 40 to rest, shelve the point and can carry out the mark through accurate measurement in advance, for example bury buried fastener etc. underground, conveniently transfer the in-process at lattice column 10 and realize the accurate calibration in center of lattice column 10 and align through putting first locating mark 41 and shelve the point.

In a preferred embodiment of the present invention, the control device further comprises a reference seat 50 for placing the plurality of top members 40, wherein the inner diameter of the reference seat 50 is larger than the outer diameter of the frame body of the positioning frame 20, the bottom of the reference seat 50 is fixed on the ground, and a second positioning mark 51 corresponding to the first positioning mark 41 is arranged on the reference seat 50 at the position where the top members 40 are placed. Specifically, the reference support 50 is a steel ring, the inner diameter of the steel ring is larger than the outer diameter of the frame body of the frame 20, the bottom of the reference support 50 is fixed to the ground, preferably, the steel ring is fixed in a pre-embedded or embedded manner, when the steel ring is fixed, the position of the reference support 50 needs to be calibrated, the precision is guaranteed through instruments such as a theodolite, the second positioning mark 51 corresponding to the first positioning mark 41 is arranged at the position of the top-placed part 40 on the reference support 50, the first positioning mark 41 can be referred to in the marking method of the second positioning mark 51, and details are not repeated here. It should be noted that the first positioning mark 41 and the second positioning mark 51 may be determined by corresponding calculation and adjustment before construction, specifically, the four top members 40 are symmetric in pairs, the extending direction of the top members 40 is controlled to pass through the center of the steel ring, the top members 40 are synchronously screwed in the same length, the top members 40 are simulated to be screwed in the positions where the transverse gusset plate 12 is abutted and fixed, when the top members 40 are placed on the reference support 50, the rest points are marked, and then the top members 40 and the reference support 50 at the rest points are marked to obtain the first positioning mark 41 and the second positioning mark 51, and during actual construction, the calibration of the lattice column 10 can be realized by ensuring that the first positioning mark 41 and the second positioning mark 51 are aligned.

In an embodiment of the present invention, a casing 60 installed during pile pit excavation may be directly used as the reference support 50, and referring to fig. 4, since the casing 60 is higher than the ground by a fixed distance, a second positioning mark 51 corresponding to the first positioning mark 41 may be directly marked at the resting point of the casing 60 where the top member 40 is placed. By using the casing 60 as the reference support 50, the additional manufacture of the reference support 50 is omitted, and the construction is more convenient.

The following further describes the use method of the lattice column direction control device of the stud pile of the present invention:

1. sleeving the positioning frame 20 on the middle-upper section of the lattice column 10, and screwing the jacking rod 40 to fix the positioning frame 20;

2. fixing the reference pile casing 50 on the ground, lowering the latticed column 10 into the pile pit through the reference pile casing 50, and rotating and adjusting the direction of the latticed column 10 by holding the jacking rod 40;

3. and continuing to put the lattice column 10 down to the top position rod 40 to be placed on the reference pile casing 50, and controlling the first positioning mark 41 and the second positioning mark 51 to correspond in position so as to accurately adjust the central position of the lattice column 10.

While the utility model has been described in detail, those skilled in the art can make various modifications to the utility model based on the foregoing description. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the utility model is to be determined by the appended claims.

Claims (7)

1. A stud lattice column direction control device, the lattice column includes vertical limbs and connects perpendicularly the horizontal lacing plate of vertical limbs, its characterized in that, controlling means includes:

the positioning frame comprises a plurality of side plates, the side plates are sequentially connected to form a regular polygonal frame body, the inner diameter of the frame body is larger than the outer diameter of the latticed column, and the side plates are provided with screw holes;

the screw hole positioning device comprises a plurality of top position pieces, wherein the first ends of the top position pieces are provided with threads matched with the screw holes, and the second ends of the top position pieces are provided with first positioning marks.

2. The stud lattice column direction control device of claim 1, wherein a plurality of the side plates are rectangular plates of uniform size, the size of the side plates being larger than the size of the transverse patch.

3. The device for controlling the direction of a latticed column of a stud according to claim 2, wherein the number of the side plates is four, and the four side plates are sequentially connected to form a square closed frame.

4. The stud lattice column orientation control device of claim 3, wherein the screw hole is formed in the center of each side plate.

5. The stud lattice column direction control device of claim 3, wherein the number of the top members is four, and the first ends of the top members are screwed into the screw holes perpendicular to the side plates.

6. A lattice column direction control device according to claim 5, wherein each of the four top members is a round rod of uniform size.

7. The lattice column direction control device of claim 1, further comprising a reference support for placing a plurality of the top pieces, wherein the inner diameter of the reference support is larger than the outer diameter of the frame body, the bottom of the reference support is fixed on the ground, and a second positioning mark corresponding to the first positioning mark is arranged on the reference support where the top pieces are placed.

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