CN219158331U - Floor tile construction elevation controller - Google Patents

Abstract

The utility model relates to the technical field of building construction tools, and particularly discloses a floor tile construction elevation controller which comprises a base, wherein a mounting nut is fixed on the base, a mounting shaft is connected to the mounting nut in a threaded manner, a marker post is fixed on the mounting shaft, a plurality of scale grooves uniformly distributed along the length direction of the marker post are formed in the marker post, an auxiliary positioning piece is arranged on the marker post, and the auxiliary positioning piece is clamped on the scale grooves. The utility model has the advantages of convenience, quickness, intuitionism, and good floor tile flatness detection effect.

Description

Floor tile construction elevation controller

Technical Field

The utility model relates to the technical field of building construction tools, in particular to a floor tile construction elevation controller.

Background

At present, the floor tile has the characteristics of large pasting amount, large area, more partition walls and the like in the decoration construction stage. In the floor tile construction process, the elevation control difficulty is high, the traditional mode is to put a horizontal guiding rule on two well-adhered floor tiles, and whether the flatness of two ground rotations is consistent is judged by judging the position of horizontal bubbles on the horizontal guiding rule.

The prior art has the following technical defects that 1, after the floor tiles are pasted, the pasted floor tiles cannot be trampled by adopting a horizontal guiding rule; 2. the horizontal guiding rule needs to be matched with the feeler gauge, which is troublesome; 3. because the length of the horizontal ruler rod is fixed, the measuring range is small, and the flatness of the whole room cannot be measured; 4. the flatness of the floor tile cannot be comprehensively detected in the construction process; 5. effective measurement is difficult to be carried out from room to room; 6. the judgment is unclear and visual, the time consuming is long, and the influence of personal subjective factors is large.

Disclosure of Invention

Aiming at the defects in the background technology, the utility model provides the floor tile construction elevation controller which has the advantages of convenience, rapidness, intuitionism, clarity and good floor tile flatness detection effect.

The technical scheme of the utility model is realized as follows:

the utility model provides a ceramic tile construction elevation controller, includes the base, is fixed with the installation nut on the base, and threaded connection has the installation axle on the installation nut, is fixed with the sighting rod on the installation axle, has offered many scale grooves along its length direction evenly distributed on the sighting rod, is equipped with auxiliary positioning spare on the sighting rod, and auxiliary positioning spare card is established on the scale groove.

Furthermore, the marker post is a nested telescopic rod piece, and the inner layer rod and the outer layer rod of the marker post are movably connected through a sliding connection assembly.

Further, the sliding assembly comprises a sliding groove formed in the inner side wall of the outer pole of the marker post and a sliding block fixed on the outer side wall of the inner pole of the marker post, the sliding groove is parallel to the length direction of the marker post, and the sliding block of the inner pole of the marker post is matched with the sliding groove on the outer pole of the corresponding marker post and can slide along the corresponding sliding groove.

Further, the outer layer rod and the inner layer rod of the marker post are respectively provided with mutually matched fixing through holes, and the fixing through holes are respectively close to two ends of the corresponding rod piece;

when the bottom of the inner pole of the marker post extends to the top of the outer pole of the marker post, the fixing through hole at the bottom of the inner pole of the marker post is correspondingly communicated with the fixing through hole at the top of the outer pole of the marker post and is inserted with a fixing shaft, and the fixing shaft realizes the fixing of the inner pole of the marker post on the outer pole of the marker post.

Further, the auxiliary positioning piece comprises a positioning block, the positioning block is a U-shaped block, the opposite side faces of the two side blocks of the positioning block are provided with alignment grooves, clamping blocks are arranged in the alignment grooves through elastic pieces, one side, away from the bottoms of the alignment grooves, of the clamping blocks is provided with positioning strips matched with the scale grooves, the positioning block is inserted into the scale bars, and the positioning strips are inserted into the correspondingly matched scale grooves to realize the installation of the auxiliary positioning piece on the scale bars.

Further, one end of the positioning strip, which is far away from the bottom block of the positioning block, is an inclined plane.

Further, the auxiliary positioning pieces are provided with a plurality of auxiliary positioning pieces, and the auxiliary positioning pieces are respectively matched with the multi-section telescopic rods of the marker post.

Further, the base bottom is equipped with the bradyseism pad.

The laser leveling device has the beneficial technical effects that through the matching use of the laser leveling device and the laser leveling instrument, a worker can quickly adjust the adhesion of the floor tiles according to the irradiation position of the laser leveling device on the marker post, and can judge the flatness of the floor tiles more intuitively and quickly; the auxiliary positioning piece is arranged on the marker post, so that a worker can more quickly determine the flatness of the floor tile; in addition, when the floor tiles in the same area are pasted, the flatness judgment of the floor tiles in the whole area can be realized by only adjusting the floor tile pasting machine once, the operation is simple, and the detection effect is good; in addition, the marker post disclosed by the utility model has the advantages of elasticity, convenience in carrying and wider application range.

Drawings

In order to more clearly illustrate the embodiments of the present utility model, the drawings that are required for the description of the embodiments will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the present utility model and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a cross-sectional view taken along the direction A-A in FIG. 2;

FIG. 4 is a cross-sectional view taken along the direction B-B in FIG. 3;

FIG. 5 is an enlarged schematic view of portion C of FIG. 3;

fig. 6 is an enlarged schematic view of the portion D in fig. 4.

In the figure, 1, a base; 2. installing a screw cap; 3. a mounting shaft; 4. a target; 5. a slip-on assembly; 51. a chute; 52. a slide block; 41. a fixing through hole; 42. a fixed shaft; 43. anti-falling pieces; 44. a scale groove; 61. a positioning block; 62. an alignment groove; 63. a clamping block; 64. a positioning strip; 65. an elastic member; 7. and (5) a cushioning pad.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-3, a floor tile construction elevation controller comprises a base 1, wherein the base 1 is preferably a solid wood block. The base 1 is placed on the floor tile, the wooden base 1 is small in mass, the pressure on the floor tile is small, the possibility that the stuck floor tile sags due to the fact that the mass is too large is avoided, and the flatness of the floor tile is guaranteed.

The top of the base 1 is fixedly provided with a mounting nut 2, the mounting nut 2 is connected with a mounting shaft 3 in a threaded manner, and the mounting shaft 3 and the top surface of the base 1 are mutually hammered. The top end of the installation shaft 3 is fixed with a marker post 4 which is parallel to the axial direction of the installation shaft. Specifically, the marker post 4 is a nested telescopic rod, the marker post 4 is a telescopic rod formed by mutually nesting a plurality of rod pieces, the telescopic rod comprises an outer layer rod and an inner layer rod, and the inner layer rod of the marker post 4 is the outer layer rod for the adjacent rod pieces in the inner layer rod.

Referring to fig. 3 and 5, the inner pole of the marker post 4 is movably connected with the outer pole thereof through a sliding component 5. The sliding connection assembly 5 comprises a sliding groove 51 formed on the inner side wall of the outer layer rod of the marker post 4 and a sliding block 52 fixed on the outer side wall of the inner layer rod of the marker post 4. The sliding groove 51 is parallel to the length direction of the marker post 4, and the sliding block 52 on the outer side wall of the inner layer post of the marker post 4 is correspondingly matched with the sliding groove 51 on the inner wall of the outer layer post of the marker post 4 which is adjacent to the sliding block. The sliding block 52 of the inner layer pole of the marker post 4 slides in the sliding groove 51 of the outer layer pole of the marker post 4 adjacent to the sliding block, so that the sliding connection between the inner layer pole of the marker post 4 and the outer layer pole of the marker post is realized. By arranging the sliding connection assembly 5, the sliding of the inner layer rod of the marker post 4 on the outer layer rod of the marker post 4 can be realized, and the length of the marker post 4 can be changed.

The outer layer pole and the inner layer pole of the marker post 4 are respectively provided with a fixing through hole 41 which is mutually matched, and the fixing through holes 41 are respectively close to two ends of the corresponding pole piece. When the inner layer pole of the marker post 4 extends out of the immediately adjacent outer layer pole, namely, the bottom of the inner layer pole of the marker post 4 slides to the top of the outer layer pole, the fixing through hole 41 at the bottom of the inner layer pole of the marker post 4 is correspondingly communicated with the fixing through hole 41 at the top of the outer layer pole of the marker post 4. The fixed shaft 42 is inserted into the corresponding communicated fixed through hole 41, and the fixed shaft 42 can fix the inner layer pole of the marker post 4 on the outer layer pole of the marker post 4 which is adjacent to the inner layer pole, so that the length of the marker post 4 can be fixed.

The top of the inner layer pole positioned at the innermost layer of the marker post 4 is fixed with a falling prevention piece 43, and the plane area of the falling prevention piece 43 is larger than the top coverage area of the outer layer pole positioned at the outermost side of the marker post 4. The falling prevention piece 43 can prevent the inner layer rod of the marker post 4 from falling into the adjacent outer layer rod, ensure the normal use of the utility model and facilitate the extension of the inner layer rod of the marker post 4.

Referring to fig. 3, 4 and 6, the marker post 4 is provided with a plurality of scale grooves 44 uniformly distributed along its length. The scale grooves 44 are formed in all the inner and outer poles of the marker post 4 and are uniformly distributed along the length direction of the post body at the outer side of the corresponding post body. The marker post 4 is provided with an auxiliary positioning piece which is clamped on the scale groove 44.

The auxiliary positioning piece comprises a positioning piece 61, the positioning piece 61 is a U-shaped piece, the opposite side surfaces of the two side pieces of the positioning piece 61 are provided with alignment grooves 62, and clamping blocks 63 are arranged in the alignment grooves 62 through elastic pieces 65. The elastic member 65 is preferably a spring, and the elastic member 65 is connected between the clamping block 63 and the bottom of the alignment groove 62. The side wall of the clamping block 63 contacts with the inner side groove wall of the alignment groove 62, and one end of the clamping block 63 away from the bottom of the alignment groove 62 is fixed with a positioning strip 64 matched with the scale groove 44. The positioning block 61 is inserted on the marker post 4 and the positioning strip 64 is inserted into the corresponding matched scale groove 44 to realize the installation of the auxiliary positioning piece on the marker post 4.

In the present utility model, the end of the positioning strip 64 remote from the bottom block of the positioning block 61 is a slope. The positioning strip 64 with one end being inclined surface is more convenient for the installation of the positioning block 61 on the marker post 4.

When the utility model is used in combination with a laser leveling instrument in practical application, firstly, the laser leveling instrument is required to be arranged in a region where a floor tile is to be attached, then the laser leveling instrument is started, the laser leveling instrument emits light rays which are positioned at the same horizontal plane towards the periphery, then the floor tile is attached, after the floor tile is attached, the utility model is placed on the floor tile which is just attached, then the anti-falling piece 43 is pulled outwards, the inner layer rod of the marker post 4 is pulled to the top of the outer layer rod which is close to the inner layer rod, the fixed through holes 41 at the bottom of the inner layer rod of the marker post 4 are communicated with the fixed through holes 41 at the top of the corresponding outer layer rod, and then the fixed shaft 42 is inserted into the two corresponding fixed through holes 41 which are communicated, so that the elongation of the marker post 4 is realized;

then, at a proper position, the opening end of the positioning block 61 faces the marker post 4, the positioning strip 64 faces the corresponding scale groove 44, then the positioning block 61 is pushed to be close to the marker post 4, in the process that the positioning block 61 is inserted into the marker post 4, the inclined surface at the end part of the positioning strip 64 is firstly contacted with the edge of the marker post 4, the positioning strip 64 is forced to push the clamping block 63 to move towards the direction close to the bottom of the alignment groove 62, the elastic piece 65 is compressed, the marker post 4 enters between the side blocks at two sides of the positioning block 61, and the positioning strips 64 at two sides of the positioning block 61 enter the scale groove 44 at the corresponding position of the marker post 4, so that the positioning block 61 is mounted on the marker post 4;

then, the laser leveling instrument is adjusted so that the light emitted by the laser leveling instrument can irradiate on the marker post 4 and be leveled with the bottom surface of the positioning block 61, and then other floor tiles are attached.

When other floor tiles are mounted, the utility model is only required to be moved to a new floor tile, and then whether the newly-mounted floor tile and the previously-mounted floor tile are on the same horizontal plane can be judged according to whether the position of the light irradiated on the mark post 4 by the laser leveling instrument is level with the bottom surface of the positioning block 61;

if the light emitted by the laser leveling instrument is positioned at the bottom surface of the positioning block 61, the newly stuck floor tile is in the same horizontal plane with the floor tile stuck before, and the floor tile is stuck flatly;

if the light emitted by the laser leveling instrument is above the bottom surface of the positioning block 61, it indicates that the newly-pasted floor tile is lower than the previously-pasted floor tile, sand and concrete below the newly-pasted floor tile need to be lifted for re-pasting the floor tile, so that the bottom surface of the positioning block 61 and the light emitted by the laser leveling instrument are in the same horizontal plane;

if the light emitted by the laser leveling instrument is located below the bottom surface of the positioning block 61, which indicates that the newly stuck tile is higher than the previously stuck tile, a rubber hammer is required to strike the tile, so that the newly stuck tile descends until the bottom surface of the positioning block 61 and the light emitted by the laser leveling instrument are in the same horizontal plane.

The utility model is more convenient to control and judge the flatness of the floor tile, and when the floor tile in the same area is pasted, the flatness judgment of the floor tile in the whole area can be realized by only adjusting the utility model once, the judgment mode is visual and clear, the detection effect is good, in addition, the marker post 4 of the utility model has the advantages of elasticity, portability and wider application range.

Example 2:

this example is a further improvement over example 1.

In this embodiment, the auxiliary positioning members are provided in plural numbers, and the plural auxiliary positioning members are respectively matched with the plural sections of the telescopic links of the marker post 4. The positioning blocks 61 are arranged, and the positioning blocks 61 respectively correspond to the multi-section telescopic rods of the marker post 4, so that the flatness of a plurality of different heights can be determined at the same time, and the application range is wider.

Example 3:

this example is a further improvement on the basis of example 1 or example 2.

In this embodiment, a rubber cushion 7 is fixed to the bottom of the base 1. The cushioning pad 7 made of rubber not only can play a role of cushioning, but also has larger friction force with the top porcelain surface of the floor tile. The utility model is more stable on the floor tile and the flatness judgment is more accurate.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (9)

1. The utility model provides a ceramic tile construction elevation controller, includes base (1), its characterized in that: the base (1) is fixedly provided with a mounting nut (2), the mounting nut (2) is connected with a mounting shaft (3) in a threaded manner, the mounting shaft (3) is fixedly provided with a marker post (4), a plurality of scale grooves (44) uniformly distributed along the length direction of the marker post (4) are formed in the marker post (4), and the auxiliary positioning piece is arranged on the marker post (4) in a clamping manner and is arranged on the scale grooves (44).

2. The floor tile construction elevation controller of claim 1, wherein: the marker post (4) is a nested telescopic rod piece, and an inner layer rod and an outer layer rod of the marker post (4) are movably connected through a sliding connection assembly (5).

3. The floor tile construction elevation controller of claim 2, wherein: the sliding assembly (5) comprises a sliding groove (51) formed in the inner side wall of the outer layer rod of the marker post (4) and a sliding block (52) fixed on the outer side wall of the inner layer rod of the marker post (4), the sliding groove (51) is parallel to the length direction of the marker post (4), the sliding block (52) of the inner layer rod of the marker post (4) is matched with the sliding groove (51) on the outer layer rod of the corresponding marker post (4), and the sliding block (52) can slide along the corresponding sliding groove (51).

4. A tile construction elevation controller according to claim 2 or 3, wherein: the outer layer rod and the inner layer rod of the marker post (4) are respectively provided with a mutually matched fixing through hole (41), and the fixing through holes (41) are respectively close to two ends of the corresponding rod piece;

when the bottom of the inner layer pole of the marker post (4) stretches to the top of the outer layer pole of the marker post (4), the fixing through hole (41) at the bottom of the inner layer pole of the marker post (4) is correspondingly communicated with the fixing through hole (41) at the top of the outer layer pole of the marker post (4), and the fixing shaft (42) is inserted, so that the fixing of the inner layer pole of the marker post (4) on the outer layer pole of the marker post (4) is realized by the fixing shaft (42).

5. The floor tile construction elevation controller of claim 4, wherein: the top of the innermost inner layer rod of the marker post (4) is fixed with a falling prevention sheet (43).

6. The floor tile construction elevation controller of claim 5, wherein: the auxiliary positioning piece comprises a positioning piece (61), the positioning piece (61) is a U-shaped piece, a counterpoint groove (62) is formed in the opposite side faces of the two side pieces of the positioning piece (61), a clamping block (63) is arranged in the counterpoint groove (62) through an elastic piece, one side, far away from the groove bottom of the counterpoint groove (62), of the clamping block (63) is provided with a positioning strip (64) matched with the scale groove (44), the positioning piece (61) is inserted on the marker post (4), and the positioning strip (64) is inserted in the corresponding matched scale groove (44) to realize the installation of the auxiliary positioning piece on the marker post (4).

7. The floor tile construction elevation controller of claim 6, wherein: one end of the positioning strip (64) far away from the bottom block of the positioning block (61) is an inclined plane.

8. The floor tile construction level controller according to any one of claims 1-3, 5-7, wherein: the auxiliary positioning pieces are provided with a plurality of auxiliary positioning pieces, and the auxiliary positioning pieces are respectively matched with the multi-section telescopic rods of the marker post (4).

9. The floor tile construction elevation controller of claim 7, wherein: the bottom of the base (1) is provided with a cushioning pad (7).

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