CN107724601B - Building method of municipal garden building decorative column - Google Patents

Abstract

The invention discloses a building method of a municipal garden building decorative column, and belongs to the field of garden building decorative columns. The invention comprises the following steps: firstly, selecting a plurality of bricks to build a first layer of masonry, wherein the first layer of masonry is square; secondly, placing a positioning support at one angle of the first layer of masonry, and building a second layer of masonry on the top surface of the first layer of masonry with the aid of the positioning support, so that the second layer of masonry rotates by a certain angle around the center of the first layer of masonry; thirdly, adjusting and placing a positioning support at one angle of a second layer of masonry, and building a third layer of masonry on the top surface of the second layer of masonry with the aid of the positioning support, so that the third layer of masonry rotates in the angle sequence in the second step; and fourthly, repeating the masonry work of the third step to build an Nth layer of masonry, thereby achieving the design height of the decorative column.

Description

Building method of municipal garden building decorative column

Technical Field

The invention relates to a garden building decorative column, in particular to a masonry method of a municipal garden building decorative column.

Background

The decorative column forms a whole with the wall surface, the roof and other indoor and outdoor designs, and not only has the structure supporting function of bearing weight, but also has the beautifying and decorating function. Therefore, the decoration column is widely applied to the market at present, and more decoration buildings need to use the decoration column.

The existing spiral decorative column is formed by enclosing four side faces to form a column body, the four side faces of the column body are sequentially arranged in a clockwise or anticlockwise spiral mode in the length direction, the decorative column is formed by building bricks, an existing construction worker needs to measure the angle and correct the position when building each layer of masonry, the working process is complex, the working efficiency is low, and the size precision cannot be guaranteed. Therefore, a masonry method capable of conveniently and quickly building the spiral brick column is urgently needed.

Disclosure of Invention

The invention aims to provide a decorative column building method which is simple to operate, high in building efficiency and high in size precision.

The technical purpose of the invention is realized by the following technical scheme:

a masonry method of a municipal garden building decorative column comprises the following steps:

firstly, selecting a plurality of bricks to build a first layer of masonry, wherein the first layer of masonry is square;

secondly, placing a positioning support at one angle of the first layer of masonry, and building a second layer of masonry on the top surface of the first layer of masonry with the aid of the positioning support, so that the second layer of masonry rotates by a certain angle around the center of the first layer of masonry;

thirdly, adjusting and placing a positioning support at one angle of a second layer of masonry, and building a third layer of masonry on the top surface of the second layer of masonry with the aid of the positioning support, so that the third layer of masonry rotates in the angle sequence in the second step;

and fourthly, repeating the masonry work of the third step to build an Nth layer of masonry, thereby achieving the design height of the decorative column.

The mentioned positioning support comprises a first T-shaped support and a second T-shaped support which are fixedly connected with each other, the first T-shaped support and the second T-shaped support respectively comprise a cross rod and a vertical rod which are vertically connected with each other, and the angle between the two cross rods and the angle between the two vertical rods are consistent with the angle in the second step.

By adopting the technical scheme, the multi-layer masonry with the consistent rotation angle can be conveniently and rapidly constructed in sequence under the assistance of the positioning support, so that the decorative column is spiral, and the problems of low efficiency and inconvenience in the existing process of constructing the spiral brick column are solved.

Preferably, a mounting groove with a rectangular cross section is arranged on one side surface of the cross bar of the first T-shaped support, and a level gauge for detecting the level is embedded in the mounting groove.

By adopting the technical scheme, the level gauge is arranged on the first T-shaped support, so that whether the masonry is horizontal or not can be detected after no layer of masonry is built, and if not, the masonry is trimmed in time.

Preferably, the vertical rods of the first T-shaped support and the vertical rods of the second T-shaped support are hinged to each other, the cross rod of the first T-shaped support and the cross rod of the second T-shaped support are respectively provided with a first through groove, and the first through grooves are fixed through bolts and nuts after the angle between the two cross rods is adjusted.

Adopt above-mentioned technical scheme, through two montant articulated connections, two horizontal poles are the certain angle of center rotation through the pin joint on two montants to adjust the angle between two horizontal poles, then make two horizontal pole mutual fixed connection through bolt and nut, can be in order to realize the rotation angle between first layer brickwork and the second floor brickwork.

Preferably, the length and the width of the first layer of masonry, the second layer of masonry, the third layer of masonry and the Nth layer of masonry are all consistent.

By adopting the technical scheme, the length and the width of each layer of masonry are set to be equal, so that the decorative columns meet the design requirement of consistent outer diameter.

Preferably, the vertical rod of the first T-shaped support and the vertical rod of the second T-shaped support are respectively provided with a second through groove, and when the position between the two vertical rods is adjusted and determined, the two vertical rods are fixed through bolts and nuts.

By adopting the technical scheme, the second through grooves are formed in the vertical rods of the first T-shaped support and the vertical rods of the second T-shaped support respectively, the two through grooves are respectively provided with the bolts in a penetrating mode to realize movable hinge connection between the two vertical rods, and accordingly brickworks with inconsistent lengths and widths can be built by adjusting the positions between the two transverse rods and the positions between the two vertical rods, so that the decorative column is more diversified in appearance, and the attractive effect is improved.

Preferably, the outer surface of the masonry is cleaned when each layer of masonry is completed.

Adopt above-mentioned technical scheme, through all clearing up brickwork and surface when each layer of brickwork is accomplished to make the interior external surface of brickwork clean, can not remain unnecessary cement and influence the outward appearance.

In conclusion, the invention has the following beneficial effects:

thereby can make each layer brickwork size easy control when building by laying bricks or stones through adopting the locating support to assist, carry out size measurement when having avoided every layer to build by laying bricks or stones the brickwork and calculate, improved and built by laying bricks or stones efficiency.

Drawings

FIG. 1 is a schematic view of the decoration post of the embodiment 1;

FIG. 2 is a top view of the first layer of masonry of example 1;

FIG. 3 is a schematic view showing the connection between a first T-shaped bracket and a second T-shaped bracket in the positioning bracket according to embodiment 1;

fig. 4 is a schematic flow chart of the cooperation of the positioning bracket and the second-layer masonry and the third-layer masonry sequentially constructed in embodiment 1;

FIG. 5 is a schematic view of the positioning bracket in example 2;

FIG. 6 is a schematic view of the decorative post in example 2;

FIG. 7 is a schematic structural view of a positioning bracket described in embodiment 3;

fig. 8 is a schematic view of the decorative post in example 3.

In the figure: 1a, a first layer of masonry; 2a, a second layer of masonry; 3a, a third layer of masonry; 1. a first brick; 2. a second brick; 3. a third brick; 4. a fourth brick; 5. a cement layer; 6. a second T-shaped bracket; 61. a vertical bar of a second T-shaped support; 62. a cross bar of the second T-shaped bracket; 7. a first T-shaped bracket; 71. a vertical bar of the first T-shaped bracket; 72. a cross bar of the first T-shaped bracket; 73. mounting grooves; 74. a level gauge; 8. a scale line; 9. a first through groove; 10. a second through slot.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Examples 1,

As shown in fig. 1, in the masonry method of the municipal garden building decorative column disclosed in this embodiment, a rotation angle between each layer of masonry on the decorative column and the adjacent masonry is set to be 15 degrees, and the method specifically includes the following steps:

the first step, as shown in fig. 2, selecting four bricks to construct a first layer of masonry 1a through stirred cement, wherein the bricks are standard bricks, the four bricks are respectively a first brick 1, a second brick 2, a third brick 3 and a fourth brick 4 which are sequentially placed flat and mutually and sequentially abutted, one side short edge of the second brick 2 is abutted against one side long edge of the first brick 1, one side short edge of the third brick 3 is abutted against one side long edge of the second brick 2, one side short edge of the fourth brick 4 is abutted against one side long edge of the third brick 3, one side short edge of the first brick 1 is abutted against one side long edge of the fourth brick 4, the other side short edge of the first brick 1 is flush with the other side long edge of the second brick 2, the other side short edge of the second brick 2 is flush with the other side long edge of the third brick 3, the other side short edge of the third brick 3 is flush with the other side long edge of the fourth brick 4, the short edge of the other side of the fourth brick 4 is flush with the long edge of the other side of the first brick 1, so that the first layer of brickwork 1a is in a square shape with a cavity in the center, the length of the first layer of brickwork 1a is 365 mm, and a cement layer 5 with the thickness of 10 mm is arranged between every two adjacent bricks;

and secondly, as shown in a combined figure 3, when a second layer of masonry 2a is built, auxiliary positioning is carried out by using a positioning support, the positioning support comprises a first T-shaped support 7 and a second T-shaped support 6 which are fixedly connected with each other, and the first T-shaped support 7 and the second T-shaped support 6 both comprise a cross rod and a vertical rod which are vertically and fixedly connected with each other.

As shown in fig. 3, the positioning bracket is manufactured by first manufacturing two T-shaped first T-shaped brackets 7 and second T-shaped brackets 6 by straight wooden nails.

Then, drawing a top view of the appearance of the first layer of masonry 1a built in the first step on a drawing, namely drawing a square with the length of 365 mm of the top view of the appearance of the first layer of masonry 1a, drawing a T-shaped frame, namely, using the T-shaped frame as a second T-shaped support 6, enabling one side edge of a vertical rod 61 and one side edge of a cross rod of the second T-shaped support to be overlapped on two adjacent side edges of the square respectively, then rotating the second T-shaped support 6 anticlockwise for 15 degrees around the center of the square of the first layer of masonry 1a to copy another T-shaped frame, namely, using the T-shaped frame as a first T-shaped support 7, then measuring the vertical distances A and B between the intersection points of one side edge of the vertical rod 71 of the first T-shaped support close to the first layer of masonry 1a and one side edge of the vertical rod 61 of the second T-shaped support close to the first layer of masonry 1a cross rod 72 of the first T-, after the measurement result shows that A is 206 mm, B is 159 mm, the angle between the two cross rods and the angle between the two vertical rods are both 15 degrees, the first T-shaped support 7 and the second T-shaped support 6 which are nailed are placed and determined according to the measured sizes, and then are nailed, wherein the first T-shaped support 7 is arranged on the second T-shaped support 6, and finally a positioning support is formed; wherein, an installation groove 73 with a rectangular cross section is dug on the upper top surface of the first T-shaped support 7, and a level gauge 74 is embedded in the installation groove 73 and can be used for detecting the level condition of the top surface of each layer of masonry.

As shown in fig. 4, a right angle at one side between a cross bar 62 and a vertical bar 61 of a second T-shaped support is abutted against two side walls corresponding to one corner of the first layer of masonry 1a, so that the side wall of the cross bar 62 close to the first layer of masonry 1a and the side wall of the vertical bar 61 close to the first layer of masonry 1a are abutted against two side walls corresponding to the corner of the first layer of masonry 1a respectively, a first T-shaped support 7 is positioned above the first layer of masonry 1a, then one corner of a first brick 1 for building the second layer of masonry 2a is abutted against a right angle between a cross bar 72 and a vertical bar 71 of the first T-shaped support towards the direction of the first layer of masonry 1a, so that a long side and a short side corresponding to the corner of the first brick 1 are abutted against the side walls of the cross bar 72 and the vertical bar 71 of the first T-shaped support respectively, then the first brick 1 of the second layer of masonry 2a is fixed by cement, and then a second brick 2, a second brick, The third brick 3 and the fourth brick 4 enable the shape of the second layer of masonry 2a to be consistent with the shape of the first layer of masonry 1a, and meanwhile, the second layer of masonry 2a rotates 15 degrees anticlockwise around the center of the first layer of masonry 1 a.

And thirdly, as shown in fig. 4, a corner between a cross bar 62 and a vertical bar 61 of a second T-shaped support of the positioning support towards one side of the second layer of masonry 2a is abutted against one corner of the second layer of masonry 2a, so that the first T-shaped support 7 is positioned above the second layer of masonry 2a, and then a first brick 1, a second brick 2, a third brick 3 and a fourth brick 4 of a third layer of masonry 3a are sequentially built in the same manner as the second layer of masonry 2a in the second step, so that the shape of the third layer of masonry 3a is consistent with the shape of the first layer of masonry 1a and the second layer of masonry 2a, and meanwhile, the third layer of masonry 3a rotates 15 degrees counterclockwise around the center of the second layer of masonry 2 a.

And fourthly, repeating the masonry work of the third step, building an Nth layer of masonry, and cleaning the outer surface of the masonry when each layer of masonry is finished, so that the design height of the decorative column is reached, and the building of the decorative column is finished.

Examples 2,

As shown in fig. 5, the difference from the above embodiment 1 is that the positioning bracket of this embodiment may also be adjustably installed, that is, a decorative column of each layer of masonry with various angles of rotation may be built, the vertical rod 71 of the first T-shaped bracket and the vertical rod 61 of the second T-shaped bracket of the positioning bracket are hinged to each other, the cross rod 72 of the first T-shaped bracket and the cross rod 62 of the second T-shaped bracket are respectively provided with a first through groove 9, butterfly bolts are inserted into the two first through grooves 9 and are connected by nuts, and when the angle between the two cross rods is adjusted, the two cross rods are screwed relatively and fixedly by the cooperation of the butterfly bolts and the nuts; the cross rod 72 and the vertical rod 71 of the first T-shaped support on the positioning support are provided with scale lines 8 on the side walls of the two sides in the length direction.

In this example 2, as shown in fig. 6, the rotation angle between each course of masonry and the adjacent masonry on the decorative column is set to 5 degrees.

Examples 3,

As shown in fig. 7, the difference from the above embodiment 2 lies in that the positioning bracket of this embodiment can not only build decorative columns of each layer of masonry with various angles of rotation, but also adjust the length of each layer of masonry, the vertical bar 71 of the first T-shaped bracket and the vertical bar 61 of the second T-shaped bracket of the positioning bracket are respectively provided with a second through groove, the cross bar 72 of the first T-shaped bracket and the cross bar 62 of the second T-shaped bracket are respectively provided with a first through groove 9, butterfly bolts are inserted into the two first through grooves 9 and are connected by nuts in a matching manner, butterfly bolts are inserted into the two second through grooves 10 and are connected by nuts in a matching manner, and when the angles between the two cross bars and between the two vertical bars are adjusted to be positions, the butterfly bolts and the nuts are screwed and are relatively fixedly connected by matching; the cross rod 72 of the first T-shaped support on the positioning support and the side walls of the vertical rod of the first T-shaped support on the two sides of the cross rod in the length direction are both provided with scale lines 8.

In this embodiment 3, as shown in fig. 8, the rotation angle between each layer of masonry on the decorative column and the adjacent masonry is set to be 15 degrees, and the length of each layer of masonry from bottom to top is increased by 60 millimeters from small one by one, and when the masonry reaches a certain height, the length of each layer of masonry is reduced by 60 millimeters from large one by one, so that the upper end and the lower end of the decorative column are in a spiral shape with small size and large middle size.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. A masonry method of a municipal garden building decorative column is characterized in that: the method comprises the following steps:

firstly, selecting a plurality of bricks to build a first layer of masonry, wherein the first layer of masonry (1 a) is square;

secondly, placing a positioning support at one angle of the first layer of masonry (1 a), and building a second layer of masonry (2 a) on the top surface of the first layer of masonry (1 a) with the aid of the positioning support, so that the second layer of masonry (2 a) rotates for a certain angle around the center of the first layer of masonry (1 a);

thirdly, adjusting and placing a positioning support at one angle of a second layer of masonry (2 a), building a third layer of masonry (3 a) on the top surface of the second layer of masonry (2 a) with the aid of the positioning support, and enabling the third layer of masonry (3 a) to rotate according to the angle sequence in the second step;

fourthly, repeating the building work of the third step to build an Nth layer of masonry, thereby achieving the design height of the decorative column;

the mentioned positioning support comprises a first T-shaped support (7) and a second T-shaped support (6) which are fixedly connected with each other, the first T-shaped support (7) and the second T-shaped support (6) respectively comprise a cross rod and a vertical rod which are vertically connected with each other, and the angle between the two cross rods and the angle between the two vertical rods are consistent with the angle in the second step.

2. The masonry method of the municipal garden building decorative column according to claim 1, characterized in that: a mounting groove (73) with a rectangular cross section is arranged on one side face of a cross rod (72) of the first T-shaped support, and a level gauge (74) for detecting the level is embedded in the mounting groove (73).

3. The masonry method of the municipal garden building decorative column according to claim 1 or 2, characterized in that: the angle adjusting device is characterized in that the vertical rod (71) of the first T-shaped support (7) and the vertical rod (61) of the second T-shaped support (6) are hinged to each other, a transverse rod (72) of the first T-shaped support (7) and a transverse rod (62) of the second T-shaped support (6) are respectively provided with a first through groove (9), and the first through groove and the second through groove are fixed through bolts and nuts after the angle between the two transverse rods is adjusted.

4. The masonry method of the municipal garden building decorative column according to claim 1, characterized in that: the lengths of the first layer of masonry (1 a), the second layer of masonry (2 a), the third layer of masonry (3 a) and the Nth layer of masonry are all consistent.

5. The masonry method of the municipal garden building decorative column according to claim 1, characterized in that: and the vertical rod (71) of the first T-shaped support and the vertical rod (61) of the second T-shaped support are respectively provided with a second through groove (10), and when the position between the two vertical rods is adjusted and determined, the two vertical rods are fixed through bolts and nuts.

6. The masonry method of the municipal garden building decorative column according to claim 1, characterized in that: all clear up the surface of brickwork when each layer of brickwork is accomplished.

7. The masonry method of the municipal garden building decorative column according to claim 1, characterized in that: the first T-shaped support (7) and the second T-shaped support (6) are both formed by straight batten nails.

8. The masonry method of the municipal garden building decorative column according to claim 1, characterized in that: and a cement layer (5) is arranged between two adjacent bricks on each layer of masonry body for connecting and fixing.

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