CN212105167U - Concrete face elevation and roughness controlling means - Google Patents

Abstract

The utility model provides a concrete face elevation and roughness controlling means, include: the supporting columns are arranged in the vertical direction and connected with the wall column beam plate template, and the four corners of the wall column beam plate template are respectively provided with one supporting column; the two rails are arranged in parallel relatively along the horizontal direction, and each rail is detachably connected with two adjacent supporting columns respectively; and the sliding parts are arranged along the horizontal direction, clamped in the two rails and slide along the arrangement direction of the rails. The beneficial effects of the utility model reside in that, through setting up the support column and be connected with wall post roof beam board template, to its effectual fixed back, set up the track on the support column, simultaneously, make the slider slide in the track in order to flatten the operation to the concrete face, simultaneously, through the position with track and slider setting at the preset elevation of concrete face, can control effectively the elevation and the roughness of concrete face to control effect is good.

Description

Concrete face elevation and roughness controlling means

Technical Field

The utility model relates to a construction technical field particularly, relates to a concrete face elevation and roughness controlling means.

Background

At present, when concrete is poured into wall columns and beam plates of building construction engineering, due to the fact that the elevation of part of beam bodies is inconsistent with the plate surface, the control of the elevation and the flatness is influenced when the concrete floor is poured due to the fact that steel bars are reserved in vertical members such as shear walls and columns; the construction completion condition of the concrete structural slab is closely related to the subsequent building construction, so the marker post and the flatness control of the concrete structural slab are important links in the project.

Disclosure of Invention

In view of this, the utility model provides a concrete face elevation and roughness controlling means aims at solving the concrete floor face and not reach the face unevenness well in pouring completion rear surface elevation control, and influences the problem of texture quality and follow-up construction.

In one aspect, the utility model provides a concrete face elevation and roughness controlling means, include: the supporting columns are arranged in the vertical direction and connected with the wall column beam plate template, and the four corners of the wall column beam plate template are respectively provided with one supporting column; the two rails are arranged in parallel relatively along the horizontal direction, and each rail is detachably connected with two adjacent supporting columns respectively; and the sliding parts are arranged along the horizontal direction, clamped in the two rails and slide along the arrangement direction of the rails.

Further, concrete face elevation and roughness controlling means still include: and the marking piece is arranged at the lower part of the supporting column and used for marking the elevation of the concrete plate surface.

Further, the marker may be a clip or an adhesive tape.

Further, concrete face elevation and roughness controlling means still include: the number of the buckles is at least four, at least one buckle is arranged on each supporting column, and the buckles are used for connecting the supporting columns and the rails together.

Further, the buckle comprises a U-shaped buckle.

Further, concrete face elevation and roughness controlling means still include: a spacer disposed between the support post and the track.

Further, a rubber tube is sleeved on the fastener.

Further, a through hole is formed in the rail and used for enabling the buckle to penetrate through, so that the rail and the supporting column are connected together.

Furthermore, the through holes are uniformly arranged in two rows along the arrangement direction of the tracks.

Further, the sliding member is a square column or a square plate.

Compared with the prior art, the beneficial effects of the utility model reside in that, through setting up the support column and being connected with wall post roof beam board template, to its effectual fixed back, set up the track on the support column, simultaneously, make the slider slide in the track in order to flatten the operation to the concrete face, simultaneously, through the position with track and slider setting at the preset elevation of concrete face, can control effectively the elevation and the roughness of concrete face to control effectually.

The concrete board surface elevation and flatness control device of the utility model is applicable to site construction, is light and simple, is convenient to install and use, can be effectively controlled in the use process, and can control the error within +/-2 mm without repeatedly processing the board surface; the used support columns can be replaced by steel bar waste according to actual conditions, tools such as rails and the like only need to be processed once and can be used repeatedly, the cost is low, the efficiency is high, repeated operation is avoided, the on-site steel bar waste is reasonably used, the method is suitable for controlling the elevation and the flatness of the surface of the residential engineering, and the control effect is good.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is the embodiment of the utility model provides a concrete face elevation and roughness controlling means's schematic structure diagram.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, the present embodiment provides a concrete slab surface elevation and flatness control apparatus, including: the wall column beam plate template comprises support columns 2, rails 3 and sliding pieces 4, wherein the support columns 2 are arranged in the vertical direction and are connected with the wall column beam plate template 1, and the support columns 2 are arranged at the four corners of the wall column beam plate template 1 respectively; two rails 3 are arranged in parallel relatively along the horizontal direction, and each rail 3 is detachably connected with two adjacent supporting columns 2 respectively; the sliding member 4 is disposed in the horizontal direction, is engaged with the two rails 3, and slides in the direction in which the rails 3 are disposed.

In particular, the support column 2 is preferably a rebar, the length of which can be set as the case may be. The support column 2 is preferably provided with four support columns which are respectively arranged at the four corners of the wall column beam plate template 1. The lower part or the lower end of the support column 2 is connected with the steel bars in the wall column beam plate template 1 into a whole through welding or binding.

Specifically, the rail 3 is preferably a U-shaped structure, and the bottom surface of the U-shaped structure is detachably connected to the supporting column 2. When connecting, the two ends of the rail 3 are respectively connected with the two adjacent supporting columns 2, and at the same time, the two rails 3 are provided, and the opening directions of the two rails 3 are oppositely arranged, that is, the opening direction of the rail 3 is arranged along the horizontal direction. The two rails 3 are arranged relatively parallel.

In particular, the rail 3 is preferably cut equally from a square steel.

Specifically, the slider 4 is caught in the two rails 3, and the slider 4 is preferably a square column or a square plate that slides in the rails 3 in the arrangement direction of the rails 3. When the concrete panel is poured, the flatness of the upper side of the concrete panel is finished by sliding the sliding member 4. The sliding member 4 may be a metal column or a metal plate, which may also be a wood beam or a wood plate.

It can be seen that through setting up support column 2 and being connected with wall post column beam slab template 1, to its effectual fixed back, set up track 3 on support column 2, simultaneously, make slider 4 slide in track 3 in order to flatten the operation to the concrete face, simultaneously, through setting up track 3 and slider 4 in the position of concrete face preset elevation, can control the elevation and the roughness of concrete face effectively, and control effectually.

Specifically, concrete face elevation and roughness controlling means still includes marker 6, and marker 6 sets up in the lower part of support column 2 for mark the elevation of concrete face.

Specifically, the indicator 6 is provided at a lower portion of the support column 2, and an upper edge or a lower edge of the indicator 6 is flush with an elevation level of the concrete panel, thereby indicating the elevation of the concrete panel. And makes the lower side edge of the rail 3 flush with the upper or lower edge of the indicator 6, so that the elevation and flatness of the concrete panel can be effectively controlled by sliding the slider 4.

In particular, the indicator 6 may be a clip or an adhesive tape. When the clamp is a clip, the clamp is preferred; when it is an adhesive tape, it is preferably a red adhesive tape. It should be noted that the indicator 6 only needs to be capable of being firmly connected with the support and effectively indicating the elevation of the concrete panel.

Specifically, concrete face elevation and roughness controlling means still includes buckle 5, and buckle 5 sets up four at least, sets up a buckle 5 on each support column 2 at least, and buckle 5 is used for linking together support column 2 and track 3.

Specifically, at least one buckle 5 is disposed at one end of each rail 3, so that the end of the rail 3 is detachably connected to the support column 2 through the buckle 5. Simultaneously, buckle 5 set up quantity can set up according to actual conditions, and it only needs to satisfy can make track 3 and support column 2 effectual linking together can.

Specifically, the clip 5 is preferably a U-shaped clip 5. The U-shaped buckle 5 is clamped on the support column 2, and two ends of the buckle 5 penetrate through the side wall of the track 3 and are fixed on the track 3 through nuts, so that the support column 2 and the track 3 are effectively connected together.

It can be seen that through setting up buckle 5, can make support column 2 and track 3 can dismantle and be connected to be convenient for track 3 retrieve reuse here, avoided the wasting of resources, protected the environment, reduced construction cost.

Specifically, concrete face elevation and roughness controlling means still include the gasket, and the gasket setting is between support column 2 and track 3.

Particularly, the gasket is preferably a rubber gasket, and its concrete structure and shape can set up according to actual conditions, do not do the injecing here, and the gasket only needs to satisfy the setting between support column 2 and track 3, forms the buffering again between the two to make both effectual connections, avoid linking together both appearing rocking can in buckle 5. Through setting up the gasket, improved concrete face elevation and roughness controlling means's structural stability, further improvement pour the precision and the surface smoothness of the surface elevation of the concrete panel after accomplishing.

Particularly, the cover is equipped with the rubber tube on buckle 5, and the hose of rubber is preferred to the rubber tube, establishes its cover on buckle 5's surface, can prevent to appear rocking between buckle 5 and the support column 2, has improved concrete face elevation and roughness controlling means's structural stability, further improvement pour the precision and the surface smoothness of the surface elevation of the concrete panel after accomplishing.

Specifically, the rail 3 is provided with a through hole for passing the clip 5 therethrough, so that the rail 3 and the support column 2 are connected together. The through holes are uniformly arranged in two rows along the arrangement direction of the track 3.

Specifically, the through-hole sets up two rows side by side along track 3's direction of setting, and the through-hole sets up with buckle 5 relatively to can make buckle 5 effectual be connected with track 3.

It can be seen that above-mentioned embodiment is connected through setting up support column 2 and with wall post column beam slab template 1, to its effectual fixed back, set up track 3 on support column 2, simultaneously, make slider 4 slide in track 3 in order to flatten the operation to the concrete face, simultaneously, through setting up track 3 and slider 4 in the position of concrete face default elevation, can control the elevation and the roughness of concrete face effectively, and control effectually.

Particularly, the slider upside sets up the balancing weight to the weight of reinforcing slider, thereby improved the roughness of concrete panel when having improved the slider and sliding. The counterweight is preferably a metal plate or a metal block which is firmly connected, preferably bolted, to the slide.

The concrete slab surface elevation and flatness control device is applicable to site construction, light and simple, convenient to install and use, and capable of being effectively controlled in the use process, and the error can be controlled within +/-2 mm without repeatedly processing the slab surface; used support column 2 also can adopt reinforcing bar waste material to replace according to actual conditions, and apparatus such as track 3 only need process once and repeatedly usable, with low costs, high efficiency, avoid repeated operation and rationally used on-the-spot reinforcing bar waste material, is applicable to housing engineering face elevation and roughness control, and control effect is good.

In the concrete implementation, firstly, after the processes of wall column, beam and plate templates 1, reinforcing steel bars and the like are completed, a horizontal control line for building construction is measured and placed, then, the four corners of a concrete panel are taken as base points, vertical reinforcing steel bar sections (namely support columns 2) with the diameter of 8 mm are welded on reinforcing steel mesh sheets of the concrete panel, the thickness elevation of the panel surface is measured and placed through the horizontal control line, the height of the panel surface of the concrete panel is marked by red adhesive tapes, rectangular steel pipes are uniformly divided and cut along the vertical direction, two rows of through holes are drilled along the center line of the rectangular steel pipes at preset intervals, after the above operations are completed, concrete pouring is started, and concrete pouring, vibrating and spreading are performed. The steel bar section is fixed with the rectangular steel pipe track 3 by a U-shaped buckle 5 (a rubber gasket is additionally arranged on the contact surface of the steel bar section and the rectangular steel pipe track when the steel bar section and the rectangular steel pipe track are fixed, and the lower side line of the track 3 is 1.5 mm lower than the plate surface elevation of the steel bar section. The sliding member 4 is placed in the track 3, and the concrete panel is closed by pulling the sliding member 4. And finally tearing off all the red adhesive tapes, covering a plastic film on the poured concrete panel, burying the steel bar sections into the concrete structural slab, and cutting exposed steel bar sections after the strength of the concrete panel is increased.

The concrete plate surface elevation and flatness control device is suitable for field construction, is light and simple, is convenient to install and use, can be effectively controlled in the use process, and can control the error within +/-2 mm without repeatedly processing the plate surface; used support column 2 also can adopt reinforcing bar waste material to replace according to actual conditions, and apparatus such as track 3 only need process once and repeatedly usable, with low costs, high efficiency, avoid repeated operation and rationally used on-the-spot reinforcing bar waste material, is applicable to housing engineering face elevation and roughness control, and control effect is good.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. The utility model provides a concrete face elevation and roughness controlling means which characterized in that includes:

the supporting columns are arranged in the vertical direction and connected with the wall column beam plate template, and the four corners of the wall column beam plate template are respectively provided with one supporting column;

the two rails are arranged in parallel relatively along the horizontal direction, and each rail is detachably connected with two adjacent supporting columns respectively;

and the sliding parts are arranged along the horizontal direction, clamped in the two rails and slide along the arrangement direction of the rails.

2. The concrete slab face elevation and flatness control device of claim 1, further comprising:

and the marking piece is arranged at the lower part of the supporting column and used for marking the elevation of the concrete plate surface.

3. The apparatus of claim 2, wherein the marker is a clip or tape.

4. The concrete slab face elevation and flatness control device of claim 1, further comprising:

the number of the buckles is at least four, at least one buckle is arranged on each supporting column, and the buckles are used for connecting the supporting columns and the rails together.

5. The apparatus of claim 4, wherein the clip comprises a U-shaped clip.

6. The concrete slab face elevation and flatness control device of claim 4, further comprising:

a spacer disposed between the support post and the track.

7. The apparatus of claim 4, wherein the snap fit is provided with a rubber tube.

8. The concrete slab elevation and flatness control device of claim 4, wherein the track is provided with a through hole for the buckle to pass through so that the track and the support column are connected together.

9. The apparatus of claim 8, wherein the through holes are arranged in two rows uniformly along the direction of the track.

10. The apparatus of claim 1, wherein the sliding member is a square post or square plate.

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