CN110388061B - Structure and building slope finding, shaping and face collecting method - Google Patents

Abstract

The invention relates to the technical field of slope finding, and discloses a structure and a building slope finding shaping and surface collecting method.

Description

Structure and building slope finding, shaping and face collecting method

Technical Field

The invention relates to the technical field of slope finding, in particular to a structure and a method for building slope finding, shaping and surface folding.

Background

In the construction process of a main body structure in the building industry, the construction quality control of the special-shaped lines of the outer vertical surface of the super-high-rise building is not ideal, but along with the fact that the real estate market is competitive, the product quality requirements of various large real estate developers on engineering projects and the cost control of the developers are higher and higher, many large real estate developers are dedicated to micro slope finding of the original structure, the current situation of building systems in the building industry is that most of the current building industry still dominates the traditional slope finding process, the slope finding effect is poor, the finishing cost is high, and the traditional construction process cannot meet the increasingly advanced quality requirements of the industry, so that the method has very important significance on how to research and develop structures and shape and receive the slope finding of the building.

At present, in the conventional building and structure slope finding quality control method, control lines, elevation control points and the like are mainly used for slope finding slope control, before concrete construction, the elevation of the structure or the building surface of each area is calculated according to the gradient required by a drawing, the control lines or the control points are marked on wall columns in the construction area according to the elevation, and workers find slopes according to the control lines and the control points through pull lines in the construction process.

In the prior art, for large-area slope finding, because field construction is partitioned and segmented construction, discontinuity of slope finding is easy to occur at construction joints of a slope finding face and a slope receiving face, and common quality problems such as local bulge or depression of a slope surface, structural cracks and the like are caused.

Disclosure of Invention

The invention aims to provide a structure and a building slope finding, shaping and surface folding method, and aims to solve the problem that in the prior art, slope finding is discontinuous when a large area of slope finding is carried out.

The invention is realized in this way, the structure and the building slope finding, shaping and surface folding method, which comprises the following steps:

1) designing a slope finding tool, and adopting BIM to carry out accurate modeling;

2) assembling the slope finding tool;

the slope finding tool comprises a plurality of support frames, a scraping ruler and a plurality of guide rail frames; wherein the two guide rail brackets are arranged side by side; the support frame supports the guide rail frame support; two ends of the scraping ruler are respectively connected with the two guide rail frames which are arranged side by side;

3) adjusting the height from the guide rail bracket to the concrete;

the support frame comprises an adjusting piece and a support rod, the adjusting piece is fixed with the guide rail frame, and the support rod is movably connected with the adjusting piece; the height of the support rod for supporting the guide rail frame is adjusted through the adjusting piece, so that the thickness of the floor slab is controlled;

4) adjusting the gradient;

the scraping ruler comprises a first ruler strip and a second ruler strip; the end parts of the first ruler strip and the second ruler strip are connected with a graduated scale; the angle formed by the two ruler strips is changed by changing the distance between the two ruler strips, so that the gradient is adjusted.

5) Pouring concrete;

6) the end part of the guide rail frame is connected with the guide rail frame, construction and installation are carried out simultaneously, and the construction efficiency is improved;

the end parts of the guide rail frames are respectively provided with a first connecting part and a second connecting part corresponding to the first connecting part, the two guide rail frames are connected through the first connecting part and the second connecting part, and the heights of the two connected guide rail frames are consistent.

Furthermore, a clamping groove with an upward opening is formed on the first connecting part, and a card corresponding to the first connecting part is formed on the second connecting part; when the clamping groove is buckled with the clamping sheet, the two guide rail frames are connected.

Further, the length of the card in the longitudinal direction is gradually reduced from the middle of the card to the two ends of the card; the card is sleeved with two rubber lantern rings; when the card is buckled with the clamping groove, the two rubber lantern rings are respectively positioned at two sides of the clamping groove; when the two rubber sleeve rings are respectively abutted against the two sides of the clamping groove, the two rubber sleeve rings are stretched, and the first connecting part and the second connecting part are fixedly arranged.

Furthermore, the adjusting piece comprises a first through hole penetrating through the adjusting piece from top to bottom and a second through hole communicated with the first through hole; the second through hole is internally provided with an abutting part, the abutting part is in threaded connection with the second through hole, and the support rod is embedded into the first through hole; when the abutting part abuts against the supporting rod, the supporting rod and the adjusting part are fixedly arranged.

Furthermore, the bottom of bracing piece extends all around and is formed with many support bars, and is a plurality of the support bar is the interval arrangement.

Furthermore, convex strips are formed on two sides of the lower part of the supporting rod in a protruding mode, and the convex strips extend downwards; both sides of the convex strip are inwards recessed to form a sliding chute; the convex strip is connected with a gravity piece; the gravity piece is provided with a groove strip connected with the raised line, the groove strip extends along the vertical direction, and an opening is formed in the groove strip; the width of the opening is smaller than that of the groove strip along the transverse direction; when the raised lines are embedded into the groove strips, the gravity piece is connected with the supporting rod.

Furthermore, one end of the first ruler strip is hinged with one end of the second ruler strip, and the other end of the first ruler strip and the other end of the second ruler strip are connected with a graduated scale; the first ruler strip and the end part of the graduated scale are fixedly arranged, and the second ruler strip is movably connected with the graduated scale; by moving the second blade, the angle between the two blades is changed.

Further, a strip-shaped sliding opening is formed in the middle of the graduated scale; the strip-shaped sliding opening extends along the length direction of the graduated scale; the other end of the second ruler strip is convexly provided with a sliding column, the sliding column penetrates through the strip-shaped sliding opening, the end part of the sliding column is in threaded connection with a fixing strip, two ends of the fixing strip respectively extend towards opposite directions, and the length of the fixing strip is greater than the width of the fixing strip; and fixing the graduated scale and the second scale strip through the fixing strip.

Further, the slope finding tool comprises a fixing sheet; the fixing piece is in a long strip shape, and two ends of the fixing piece are respectively fixed with the two guide rail frames.

Further, the adjusting piece is provided with an adjustable nut; strip-shaped holes are formed in two ends of the fixing piece respectively, extend along the length of the fixing piece and are arranged in a strip shape; the adjustable nut penetrates through the strip-shaped hole to fix the fixing piece and the guide rail frame.

Compared with the prior art, the structure and the building slope finding, shaping and surface collecting method provided by the invention have the advantages that the slope finding tool is designed firstly, BIM modeling is adopted, the machining precision is high, the guide rail frame, the support frame and the scraping ruler are assembled, after the assembling is finished, the height from the guide rail frame to concrete is adjusted by adjusting the support frame, then, the angle is adjusted by using the scraping ruler, after the height and the angle are adjusted, the concrete is poured, the guide rail frame is continuously connected to the end part of the guide rail frame during pouring, the scraping ruler and the support frame are installed, and the construction is carried out while ensuring the whole slope finding to be continuous, so that the design requirement is met, the construction integrity is ensured, and the construction efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of a slope finding tool provided in an embodiment of the present invention;

FIG. 2 is a schematic top view of a hill-seeking tool provided by an embodiment of the present invention;

FIG. 3 is a schematic perspective view at A of FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view at B in FIG. 3 according to an embodiment of the present invention;

fig. 5 is a schematic plan view of a scraper provided in an embodiment of the present invention.

Detailed Description

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 invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-5, preferred embodiments of the present invention are shown.

The method for slope finding, shaping and surface folding of the structure and the building comprises the following steps:

1) designing a slope finding tool, and adopting BIM to carry out accurate modeling;

the BIM is used for establishing a building model by taking various relevant information data of a building engineering project as a model basis, and simulating real information of a building through digital information, and has eight characteristics of information completeness, information relevance, information consistency, visualization, harmony, simulation, optimization and graphing property.

2) Assembling a slope finding tool;

the slope finding tool comprises a plurality of support frames 20, a scraping rule 40 and a plurality of guide rail frames 10; wherein the two rail brackets 10 are arranged side by side; supporting the rail frame 10; two ends of the scraping ruler 40 are respectively connected with the two guide rail brackets 10 which are arranged side by side; support frame 20 is connected on guide rail frame 10, inserts support frame 20 in the concrete, and support frame 20 supports guide rail frame 10, adjusts the slope through adjusting the scraper bar 40, carries out subsequent construction afterwards, simple structure, convenient operation.

3) Adjusting the height from the guide rail frame 10 to the concrete;

the supporting frame 20 comprises an adjusting piece 21 and a supporting rod 22, the adjusting piece 21 is connected to the guide rail frame 10, and the supporting rod 22 is movably connected with the adjusting piece 21; the distance from the rail frame 10 to the concrete is changed by adjusting the height of the support rod 22 supporting the rail frame 10 by the adjusting member 21 to control the thickness of the floor slab.

4) Adjusting the gradient;

the scraper 40 comprises a first blade 41 and a second blade 42; the end parts of the first ruler strip 41 and the second ruler strip 42 are connected with a graduated scale 43; the angle formed by the two ruler strips is changed by changing the distance between the two ruler strips, so that the design gradient is adjusted.

5) After the gradient and the height are adjusted, the gradient and the thickness of the floor slab can be determined, and then concrete can be poured;

6) connecting the guide rail frame 10 to the end part of the guide rail frame 10, and performing construction and installation simultaneously, thereby improving the construction efficiency;

the end parts of the guide rail frames 10 are respectively provided with a first connecting part 11 and a second connecting part 12 corresponding to the first connecting part 11, the two guide rail frames 10 are connected through the first connecting part 11 and the second connecting part 12, and the guide rail frames 10 are directly connected continuously, so that the whole gradient is kept consistent, the error is reduced, and the construction quality is ensured.

The structure and building slope finding design receipts face method that provide above-mentioned, design the slope finding instrument earlier, adopt BIM to model, the machining precision is high, assemble guide rail frame 10, support frame 20 and scraping ruler 40, after the equipment is accomplished, through adjusting the height of guide rail frame 10 to concrete of support frame 20 adjustment, afterwards, use scraping ruler 40 angle regulation, height and angle all adjust the back, begin to pour the concrete, continue to connect guide rail frame 10 at guide rail frame 10 tip simultaneously when pouring, and scraping ruler 40 and support frame 20, the side construction of installing, in order to guarantee that whole slope of finding is continuous, accord with the design requirement, guarantee the wholeness of construction, and can improve the efficiency of construction.

A first connecting part 11 of the rail frame 10 is provided with a slot 110, the slot 110 is provided with an upward opening, and a card 120 correspondingly connected with the first connecting part 11 is formed on the second connecting part 12; the card 120 is inserted into the slot 110, so that the two rail brackets 10 are butted, and after the rail brackets 10 are butted, the two rail brackets 10 are at the same height, so as to ensure the thickness of the floor slab.

The width of the card 120 gradually decreases from the middle of the card 120 to the ends of the card 120; the card 120 is sleeved with two rubber lantern rings 13; can be on draw-in groove 110 with card 120, and make the middle part position of card 120 just imbed in draw-in groove 110, at this moment, two glue lantern rings 13 just are located the both sides of card 120 and draw-in groove 110, move two glue lantern rings 13 towards card 120 and draw-in groove 110 looks block department, until two glue lantern rings 13 all with the both sides looks butt of first connecting portion 11, at this moment, two glue lantern rings 13 are stretched, and hug closely at second connecting portion 12 and first connecting portion 11, two glue lantern rings 13 block the position of first connecting portion 11, make first connecting portion 11 fixed with second connecting portion 12, and like this, two guide rail frame 10 also are the fixed state, be convenient for look for the slope by a large scale, the integrality and the continuation of construction have been guaranteed, and it is convenient to continue to connect, and is with low costs.

A groove position is formed at the bottom of the clamping groove 110 in a concave mode, and after the card 120 is embedded into the clamping groove 110, the bottom of the card 120 is embedded into the groove position, so that the problem that when concrete is poured, the butt joint of the two guide rail frames 10 is loosened to cause errors can be avoided; and the slot position is covered with a plastic layer, which can increase the friction between the slot 110 and the card 120 and can play a role of skid resistance.

The supporting frame 20 comprises an adjusting piece 21 and a supporting rod 22; the adjusting member 21 is connected with the track frame 10, the adjusting member 21 includes a first through hole 210 and a second through hole 211, the first through hole 210 penetrates the adjusting member 21 from top to bottom, the second through hole 211 is formed at a side, one end of the second through hole 211 is communicated with the first through hole 210, the second through hole 211 extends from a side surface and is embedded with an abutting member 213, the abutting member 213 is in threaded connection with the second through hole 211, the support rod 22 passes through the first through hole 210, the support rod 22 is inserted into concrete, the adjusting member 21 is moved up and down, the height of the track frame 10 from the concrete can be changed, after the height of the track frame 10 to the concrete is determined, the abutting member 213 is rotated to move the end of the abutting member 213 towards the first through hole 210 until the abutting member 213 abuts against the support rod 22 in the first through hole 210, and the abutting member 213 cannot be rotated, the positions of the support rod 22 and the adjusting member 21 are fixed, and the height of the track frame 10 is fixed, the next construction can then be continued.

The bottom of bracing piece 22 is formed with many support bars 23 towards extending all around, and a plurality of support bars 23 are the interval arrangement, can avoid bracing piece 22 slope like this, and support bars 23 all around can make whole slope-finding instrument keep balance to reduce the error that causes because bracing piece 22 is uneven.

The two sides of the lower part of the support bar 22 protrude outwards to form convex strips 220, and the two ends of the convex strips 220 are sunken inwards to form sliding grooves 221; the convex strip 220 is connected with gravity piece 223, gravity piece 223 is formed with the groove bar of being connected with convex strip 220, the groove bar runs through gravity piece 223, the groove bar has the opening towards convex strip 220, aim at the upper end of convex strip 220 with the bottom of gravity piece 223, make convex strip 220 from the bottom embedding groove bar of gravity piece 223, the both ends embedding spout 221 of opening, can be in the groove bar with convex strip 220, when the concrete degree of depth is too big, a plurality of gravity pieces 223 of mountable, guarantee that bracing piece 22 can arrive the concrete bottom smoothly, in order to guarantee the stability of whole slope finding instrument, guarantee to look for the slope instrument also can not take place the skew in concrete placement in-process, also can avoid the tip of looking for the slope instrument because the slight deformation of slope finding instrument and stick up, in order to guarantee to become the slope quality.

The scraper 40 comprises a first blade 41 and a second blade 42; one end of the first ruler strip 41 is hinged with one end of the second ruler strip 42, the other end of the first ruler strip 41 and the other end of the second ruler strip 42 are connected with a graduated scale 43, the first ruler strip 41 and the graduated scale 43 are fixedly arranged, the second ruler strip 42 is movably connected with the graduated scale 43, when the second ruler strip 42 is moved, an angle can be formed between the first ruler strip 41 and the second ruler strip 42, and the angle between the first ruler strip 41 and the second ruler strip 42 can be calculated according to the scales on the graduated scale 43 and the length of the first ruler strip 41 or the second ruler strip 42; the gaskets are welded at the two ends of the first ruler strip 41 and the second ruler strip 42 respectively, so that the scraping ruler 40 is placed on the guide rail frame 10, pouring can be conducted after the angle is adjusted, slope finding can be conducted on a large area, and slope finding tools can be installed on the side of pouring to guarantee the integrity and continuity of construction.

In this embodiment, one end of the first ruler strip 41 hinged to the second ruler strip 42 is connected to the rail frame 10, the second ruler strip 42 is connected to another rail frame 10, the first rail frame 10 is freely arranged, the first ruler strip 41 is fixed to the graduated scale 43, a strip-shaped sliding opening 430 is formed in the middle of the graduated scale 43, and the strip-shaped sliding opening 430 extends along the length direction of the graduated scale 43; the second ruler strip 42 is convexly provided with a sliding column, the sliding column penetrates through the strip-shaped sliding opening 430, the end part of the sliding column is in threaded connection with a fixing strip, when the angle needs to be adjusted, the first ruler strip 41 is moved, the sliding column can move up and down in the strip-shaped sliding opening 430, and after the angle is determined, the position of the graduated scale 43 is fixed by the fixing strip.

The both ends of fixed strip extend towards the opposite direction respectively, and the length of fixed strip is greater than the width of fixed strip, then after angle modulation, can screw up the mounting, and the both ends that make the fixed regulation compress tightly scale 43 and can be with the rigidity of scale 43.

The slope finding tool comprises a fixing sheet 30; stationary blade 30 is rectangular form, and the both ends of stationary blade 30 are fixed with two guide rail frame 10 respectively, and whole slope instrument's wholeness can be guaranteed to stationary blade 30, avoids in the work progress, and slope instrument appears warping looking for, and in order to guarantee construction quality, in this embodiment, stationary blade 30 adopts the stainless steel preparation.

The adjusting member 21 has an adjustable nut 212; strip-shaped holes 31 are respectively formed at two ends of the fixing piece 30, and the strip-shaped holes 31 extend along the length of the fixing piece 30 and are arranged in a strip shape; the adjustable nut 212 passes through the strip-shaped hole 31 to fix the fixing piece 30 and the guide rail frame 10. Generally, in order to stabilize the whole slope finding tool, two fixing pieces 30 are fixed on two rail brackets 10, one end of each fixing piece 30 is fixed at the same position on the rail bracket 10, and the other end of each fixing piece 30 is fixed on the rail bracket 10 at a certain interval, so that the two fixing pieces 30 and the rail bracket 10 form a triangular shape, and the triangular shape is fixed, so that the whole slope finding tool is more stable; the strip-shaped holes 31 can be correspondingly adjusted according to the width of the two side-by-side guide rail frames 10 so as to adapt to road surfaces with different widths, and the device is convenient and practical.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The method for finding slope, shaping and collecting the surface of the structure and the building is characterized by comprising the following steps of:

1) designing a slope finding tool, and adopting BIM to carry out accurate modeling;

2) assembling the slope finding tool;

the slope finding tool comprises a plurality of support frames, a scraping ruler and a plurality of guide rail frames; wherein the two guide rail brackets are arranged side by side; the support frame supports the guide rail frame support; two ends of the scraping ruler are respectively connected with the two guide rail frames which are arranged side by side;

3) adjusting the height from the guide rail bracket to the concrete;

the support frame comprises an adjusting piece and a support rod, the adjusting piece is fixed with the guide rail frame, and the support rod is movably connected with the adjusting piece; the height of the support rod for supporting the guide rail frame is adjusted through the adjusting piece, so that the thickness of the floor slab is controlled;

4) adjusting the gradient;

the scraping ruler comprises a first ruler strip and a second ruler strip; the end parts of the first ruler strip and the second ruler strip are connected with a graduated scale; the angle formed by the two ruler strips is changed by changing the distance between the two ruler strips, so that the gradient is adjusted;

5) pouring concrete;

6) the end part of the guide rail frame is connected with the guide rail frame, construction and installation are carried out simultaneously, and the construction efficiency is improved;

the end parts of the guide rail frames are respectively provided with a first connecting part and a second connecting part corresponding to the first connecting part, the two guide rail frames are connected through the first connecting part and the second connecting part, and the heights of the two connected guide rail frames are consistent;

a clamping groove with an upward opening is formed on the first connecting part, and a card corresponding to the first connecting part is formed on the second connecting part; when the clamping groove is buckled with the clamping sheet, the two guide rail brackets are connected;

the length of the card in the longitudinal direction is gradually reduced from the middle part of the card to the two ends of the card; the bottom of the clamping groove is sunken to form a groove position, and the groove position is covered with a rubber layer; the card is sleeved with two rubber lantern rings; when the card is buckled with the clamping groove, the two rubber lantern rings are respectively positioned at two sides of the clamping groove, and the bottom of the card is embedded into the groove position; when the two rubber sleeve rings are respectively abutted against the two sides of the clamping groove, the two rubber sleeve rings are stretched, and the first connecting part and the second connecting part are fixedly arranged.

2. The structure and the method for building slope finding, shaping and collecting as claimed in claim 1, wherein the adjusting member comprises a first through hole penetrating the adjusting member from top to bottom and a second through hole communicating with the first through hole; the second through hole is internally provided with an abutting part, the abutting part is in threaded connection with the second through hole, and the support rod is embedded into the first through hole; when the abutting part abuts against the supporting rod, the supporting rod and the adjusting part are fixedly arranged.

3. The structure and the method for building slope finding, shaping and surface collection as claimed in claim 2, wherein the bottom of the supporting rod extends around to form a plurality of supporting bars, and the plurality of supporting bars are arranged at intervals.

4. The structure and the method for building slope finding, shaping and surface folding as claimed in claim 3, wherein the two sides of the lower part of the support bar are protruded to form convex strips, and the convex strips extend downwards; both sides of the convex strip are inwards recessed to form a sliding chute; the convex strip is connected with a gravity piece; the gravity piece is provided with a groove strip connected with the raised line, the groove strip extends along the vertical direction, and an opening is formed in the groove strip; the width of the opening is smaller than that of the groove strip along the transverse direction; when the raised lines are embedded into the groove strips, the gravity piece is connected with the supporting rod.

5. The structure and the building slope finding, shaping and surface collecting method according to claim 1, wherein one end of the first ruler strip is hinged with one end of the second ruler strip, and the other end of the first ruler strip and the other end of the second ruler strip are connected with a graduated scale; the first ruler strip and the end part of the graduated scale are fixedly arranged, and the second ruler strip is movably connected with the graduated scale; by moving the second blade, the angle between the two blades is changed.

6. The structure and the method for building slope finding, shaping and surface collection according to claim 5, wherein a strip-shaped sliding opening is formed in the middle of the graduated scale; the strip-shaped sliding opening extends along the length direction of the graduated scale; the other end of the second ruler strip is convexly provided with a sliding column, the sliding column penetrates through the strip-shaped sliding opening, the end part of the sliding column is in threaded connection with a fixing strip, two ends of the fixing strip respectively extend towards opposite directions, and the length of the fixing strip is greater than the width of the fixing strip; and fixing the graduated scale and the second scale strip through the fixing strip.

7. The structure and the method for building slope finding, shaping and collecting as claimed in claim 3 or 4, wherein the slope finding tool comprises a fixing plate; the fixing piece is in a long strip shape, and two ends of the fixing piece are respectively fixed with the two guide rail frames.

8. The structure and the method for building slope finding, shaping and surface collection according to claim 7, wherein the adjusting member has an adjustable nut; strip-shaped holes are formed in two ends of the fixing piece respectively, extend along the length of the fixing piece and are arranged in a strip shape; the adjustable nut penetrates through the strip-shaped hole to fix the fixing piece and the guide rail frame.

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