CN219528589U - Standardized assembled flag table - Google Patents

Abstract

A standardized assembled flag table has the structure that: the two tripods and the concrete counterweight body are arranged front and back and are overlapped with the concrete base layer up and down; the concrete base layer is provided with four non-porous bases, two eccentric hole bases and a middle hole base; the concrete counterweight body comprises a short counterweight layer sandwiched between two long counterweight layers; the long counterweight layer is provided with two non-porous long counterweights, two eccentric hole long counterweights and a middle hole long counterweight; the short balancing weight layer is provided with four non-porous short balancing weights, two eccentric hole short balancing weights and a middle hole short balancing weight; the middle hole base, the eccentric hole base, the middle hole long balancing weight, the eccentric hole long balancing weight, the middle hole short balancing weight and the eccentric hole short balancing weight are provided with flagpole mounting holes; the long weight layer, the short weight layer and the long weight layer are connected with each other by a staggered joint; the left and right spacing and the central line of the three rows of combined holes are coplanar and parallel. Which can be quickly assembled and disassembled, the related components can be reused, so that the construction cost is reduced.

Description

Standardized assembled flag table

Technical Field

The utility model relates to a standardized assembled flag table.

Background

In recent years, along with the rapid development of cities, modern building construction is required to ensure the construction quality, not only does not influence the urban landscape environment in the construction process, but also meets the policy requirements of national advocating green construction, consumption reduction and emission reduction. Referring to fig. 1, the existing flag stand C on the construction site is mostly formed by pouring concrete, and is aided with a tile with a required color to be adhered to the surface, when the project is completed, the flag stand C needs to be scrapped and removed, so that the waste of materials and the increase of construction cost are caused. In addition, the construction period of the flag post C is long, and a plurality of flag posts D can be installed after the concrete reaches the strength; the flag stage C is used as a logo of a building enterprise, and the visual quality of the flag stage C is ensured, but the quality of the flag stage C is completely dependent on the technical level of construction workers. Nowadays, the country advocates recycling and cyclic utilization of materials, greatly promotes standardization of construction sites, and improves coverage efficiency of green construction. Therefore, to overcome the above drawbacks, it is necessary to provide a standardized assembled flag table that can be reused and has low construction cost.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the standardized assembled flag table, which can realize the on-site rapid assembly with stable structure, is simple and convenient in disassembly, can repeatedly use the relevant base, the balancing weight and the tripod for a plurality of times, saves materials, is environment-friendly, and effectively reduces the construction cost, and is economical and practical.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

the standardized assembled flag table comprises a concrete base layer, a concrete counterweight body and two tripods, wherein the concrete counterweight body and the two tripods are overlapped with the concrete base layer up and down, the concrete counterweight body is positioned at the rear part of the concrete base layer in the width direction, the two tripods are distributed left and right and are placed at the front part of the concrete base layer in the width direction in a side-by-side and close manner, and each tripod is a metal prefabricated member;

the concrete base layer is formed by arranging four non-hole bases with the same overall dimensions and two eccentric hole bases with the same overall dimensions symmetrically with a middle hole base as a center, the overall dimensions of each non-hole base, each eccentric hole base and the middle hole base are the same, each non-hole base, each eccentric hole base and the middle hole base are square precast concrete members, each side of the middle hole base in the width direction is sequentially provided with one non-hole base, one eccentric hole base and the other non-hole base from inside to outside, the middle hole base is provided with a vertically through and centered flagpole mounting hole, each eccentric hole base is provided with a vertically through and offset flagpole mounting hole, and the two flagpole mounting holes on the two eccentric hole bases are symmetrically arranged relative to the middle hole base;

the concrete counterweight body is formed by stacking one long counterweight layer, one short counterweight layer and the other long counterweight layer from top to bottom, and the short counterweight layer is clamped between the two long counterweight layers;

the long counter weight layer is formed by symmetrically arranging two non-hole long counter weights with the same overall dimension and two eccentric hole long counter weights with the same overall dimension by taking a middle hole long counter weight as a center, the overall dimensions of each non-hole long counter weight, each eccentric hole long counter weight and the middle hole long counter weight are the same, each non-hole long counter weight, each eccentric hole long counter weight and the middle hole long counter weight are square precast concrete members, each side of the length direction of the middle hole long counter weight is sequentially provided with one eccentric hole long counter weight and one non-hole long counter weight from inside to outside, the middle hole long counter weight is provided with a vertically through and centered flagpole mounting hole, each eccentric hole long counter weight is provided with a vertically through and offset flagpole mounting hole, and the two flagpole mounting holes on the two eccentric hole long counter weights are symmetrically arranged relative to the middle hole long counter weight;

the short balancing weight layer is formed by arranging four non-porous short balancing weights with the same overall dimensions and two eccentric Kong Duan balancing weights with the same overall dimensions symmetrically by taking a middle hole short balancing weight as a center, the overall dimensions of each non-porous short balancing weight, each eccentric hole short balancing weight and the middle hole short balancing weight are the same, each non-porous short balancing weight, each eccentric hole short balancing weight and the middle hole short balancing weight are square precast concrete members, each side of the middle hole short balancing weight in the width direction is sequentially provided with one non-porous short balancing weight, one eccentric hole short balancing weight and the other non-porous short balancing weight from inside to outside, the middle hole short balancing weight is provided with a vertically through and centered flagpole mounting hole, each eccentric hole short balancing weight is provided with a vertically through and offset flagpole mounting hole, and the two flagpole mounting holes on the two eccentric hole short balancing weights are symmetrically arranged relative to the middle hole short balancing weight;

the flagpole mounting holes are square holes;

the long weight layer, the short weight layer, the long weight layer and the concrete base layer are sequentially overlapped up and down and are in staggered joint crimping;

the shapes, the specification sizes and the specific setting positions of the corresponding base in the concrete base layer, the long counterweight layer on the upper side, the short counterweight layer, the corresponding counterweight block in the long counterweight layer on the lower side, the three flagpole mounting holes on the long counterweight layer on the upper side, the three flagpole mounting holes on the short counterweight layer and the three flagpole mounting holes on the long counterweight layer on the lower side are enough to enable three rows of vertically through combination holes for mounting flagpoles to be formed, the three rows of combination Kong Chengzuo are sequentially arranged at right intervals, and the center lines of the three rows of combination Kong Chengzuo are positioned in the same vertical plane and are parallel to each other;

wherein:

the middle row of combination holes comprising: the flagpole mounting holes on the middle hole base, the two flagpole mounting holes on the upper middle hole long balancing weight and the lower middle hole long balancing weight and the flagpole mounting holes on the middle hole short balancing weight are coaxial;

for a corresponding column of combined holes on either side, comprising: the flagpole mounting holes on the base of the same eccentric hole, the two flagpole mounting holes on the long balancing weights of the upper eccentric hole and the lower eccentric hole on the same side and the flagpole mounting holes on the short balancing weights of the eccentric hole on the same side are coaxial.

The utility model has the advantages that:

after the structure is adopted, the standardized assembled flag table comprises a concrete base layer, a concrete counterweight body and two tripods which are assembled on site; the concrete base layer is formed by symmetrically arranging four non-porous bases and two eccentric hole bases by taking a middle hole base as a center; the concrete counterweight body is formed by stacking one long counterweight layer, one short counterweight layer and the other long counterweight layer from top to bottom; the long counterweight layer is formed by symmetrically arranging two non-porous long counterweights and two eccentric hole long counterweights by taking one middle hole long counterweight as a center; the short balancing weight layer is formed by symmetrically arranging four non-porous short balancing weights and two eccentric hole short balancing weights by taking one middle hole short balancing weight as a center; the base and the balancing weight are modularized precast concrete members, the tripod is modularized metal prefabricated members, and the transportation and the carrying of the base and the balancing weight are convenient; the base, the balancing weight and the tripod are assembled on site in a rapid manner, the structure is stable, the disassembly is simple and convenient, the base, the balancing weight and the tripod can be repeatedly utilized, materials are saved, the environment is protected, the construction cost is effectively reduced, and the tripod is economical and practical.

Further, the lengths of each non-porous long balancing weight, each eccentric hole long balancing weight and each middle hole long balancing weight are 1.4 times of the width of each non-porous base; the width of each non-porous short balancing weight, the width of each eccentric hole short balancing weight and the width of each middle hole short balancing weight are consistent with the width of each non-porous base.

Thus, the center of gravity of the integral structure is relatively stable after the long weight layer, the short weight layer, the long weight layer and the concrete base layer are sequentially overlapped.

Further, each side of the width direction of each non-hole base, each eccentric hole base, each middle hole base, each non-hole short balancing weight, each eccentric hole short balancing weight and each middle hole short balancing weight is provided with a carrying hole which is horizontally arranged and penetrates through front and back; and each side of the length direction of each non-hole long balancing weight, each eccentric hole long balancing weight and each middle hole long balancing weight is provided with a carrying hole which is horizontally arranged and penetrates through front and back.

In this way, it is easy to handle the precast concrete elements (i.e. the respective foundation and counterweight).

Further, the rear part in each eccentric hole base, the middle hole base, each eccentric hole long balancing weight, each middle hole long balancing weight, each eccentric hole short balancing weight and the middle hole short balancing weight is provided with a sand discharging through hole which is horizontally arranged front and back and communicated with the corresponding flagpole mounting hole, and the end of each sand discharging through hole, which is far away from the corresponding flagpole mounting hole, is provided with a rubber plug.

When the assembled flag post is used (namely, when the flag post is installed), one flag post is inserted into any row of combined holes from top to bottom, the circumferential interval of the flag post is adjusted, fine sand is filled in the corresponding flag post installation hole, and each corresponding sand leakage through hole is internally provided with a rubber plug so as to block the corresponding sand leakage through hole, so that the fine sand in the corresponding flag post installation hole cannot run off, and the circumferential direction of the flag post is restrained by the fine sand and is not easy to swing; when the assembled flag post is not used (namely, when the flagpole is pulled out), the rubber plug in each corresponding sand leakage through hole is pulled out, the corresponding sand leakage through hole is opened, and fine sand in the corresponding flagpole mounting hole flows out through the corresponding sand leakage through holes through simple tools such as a fine stick, a fine hook and the like, so that the circumference of the flagpole is loosened, and the flagpole is pulled out easily.

Further, each edge of each non-hole base, each eccentric hole base, each middle hole base, each non-hole long balancing weight, each eccentric hole long balancing weight, each middle hole long balancing weight, each non-hole short balancing weight, each eccentric hole short balancing weight and each middle hole short balancing weight are all coated by angle irons.

In this way, it is ensured that the precast concrete elements (i.e. the respective foundation and counterweight) are not susceptible to damage.

Further, the vertical section of each tripod is in the shape of a right triangle.

The right triangle inclined plane of tripod forms the front side decoration surface of this assembled flag table, is convenient for decorate the construction of engineering to improve the aesthetic property of this assembled flag table.

Drawings

Fig. 1 is a schematic structural diagram of a flag post in the prior art at a construction site.

Fig. 2 is a front perspective view of the present utility model.

Fig. 3 is a rear perspective view of the present utility model.

Fig. 4 is an exploded perspective view of the present utility model.

Fig. 5 is a cross-sectional view A-A of fig. 3.

Fig. 6 is a B-B cross-sectional view of fig. 3.

Reference numerals: 1-concrete base layer, 11-non-porous base, 12-eccentric hole base, 13-intermediate hole base, 2-concrete counterweight, 21-long counterweight layer, 211-non-porous long counterweight, 212-eccentric hole long counterweight, 213-intermediate hole long counterweight, 22-short counterweight layer, 221-non-porous short counterweight, 222-eccentric hole short counterweight, 223-intermediate hole short counterweight, 3-tripod, 4-flagpole mounting hole, 5-carrying hole, 6-sand discharge through hole, 7-rubber plug, 8-angle iron, C-flagpole stand and D-flagpole.

Detailed Description

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

See fig. 2-6:

the standardized assembled flag table comprises a concrete base layer 1, a concrete counterweight body 2 and two tripods 3, wherein the concrete counterweight body 2 and the two tripods 3 are all overlapped with the concrete base layer 1 up and down, the concrete counterweight body 2 is positioned at the rear part of the concrete base layer 1 in the width direction, the two tripods 3 are distributed left and right and are placed at the front part of the concrete base layer 1 in the width direction side by side in a side-by-side manner (namely, the two tripods 3 are positioned in front of the concrete counterweight body 2), each tripod 3 is a metal prefabricated member, and the vertical section of each tripod 3 is in a right triangle shape. Two tripods 3 are provided to ensure as small a structure of the metal preform as possible.

The concrete base layer 1 is formed by arranging four non-hole bases 11 and two eccentric hole bases 12 with the same overall dimensions symmetrically with a middle hole base 13 as a center, wherein the overall dimensions of each non-hole base 11, each eccentric hole base 12 and the middle hole base 13 are the same, each non-hole base 11, each eccentric hole base 12 and the middle hole base 13 are square precast concrete members, each side of the middle hole base 13 in the width direction is sequentially provided with the non-hole base 11, the one eccentric hole base 12 and the other non-hole base 11 from inside to outside, the width direction of each non-hole base 11, each eccentric hole base 12 and the middle hole base 13 is the left-right direction, the length direction is the front-back direction, the middle hole base 13 is provided with a vertically through and centered flagpole mounting hole 4, each eccentric hole base 12 is provided with a vertically through and offset flagpole mounting hole 4, and two flagpole mounting holes 4 on the two eccentric hole bases 12 are symmetrically arranged relative to the middle hole base 13.

The concrete weight body 2 is formed by stacking one long weight layer 21, one short weight layer 22 and the other long weight layer 21 from top to bottom, and the short weight layer 22 is sandwiched between the two long weight layers 21.

The long balancing layer 21 is formed by symmetrically arranging two non-hole long balancing weights 211 and two eccentric hole long balancing weights 212 with the same overall dimensions by taking a middle hole long balancing weight 213 as a center, wherein the overall dimensions of each non-hole long balancing weight 211, each eccentric hole long balancing weight 212 and the middle hole long balancing weight 213 are the same, each non-hole long balancing weight 211, each eccentric hole long balancing weight 212 and the middle hole long balancing weight 213 are square precast concrete members, each side of the length direction of the middle hole long balancing weight 213 is sequentially provided with one eccentric hole long balancing weight 212 and one non-hole long balancing weight 211 from inside to outside, the length direction of each non-hole long balancing weight 211, each eccentric hole long balancing weight 212 and the length direction of the middle hole long balancing weight 213 are in the left-right direction and the width direction, the middle hole long balancing weight 213 is provided with a vertically through and centered flagpole mounting hole 4, each eccentric hole long balancing weight 212 is provided with a vertically through and offset flagpole mounting hole 4, and the two flagpole mounting holes 4 on the two eccentric hole long balancing weights 212 are symmetrically arranged relative to the middle hole long balancing weight 213.

The short balancing weight layer 22 is formed by arranging four non-hole short balancing weights 221 with the same overall dimensions and two eccentric Kong Duan balancing weights 222 with the same overall dimensions symmetrically with a middle hole short balancing weight 223 as a center, wherein the overall dimensions of each non-hole short balancing weight 221, each eccentric hole short balancing weight 222 and the middle hole short balancing weight 223 are the same, each non-hole short balancing weight 221, each eccentric hole short balancing weight 222 and the middle hole short balancing weight 223 are square precast concrete members, each side of the middle hole short balancing weight 223 in the width direction is sequentially provided with one non-hole short balancing weight 221, one eccentric hole short balancing weight 222 and the other non-hole short balancing weight 221 from inside to outside, the width direction of each non-hole short balancing weight 221, each eccentric hole short balancing weight 222 and the middle hole short balancing weight 223 is the left-right direction and the length direction, the middle hole short balancing weight 223 is provided with a vertically through and centered flagpole mounting hole 4, each eccentric hole short balancing weight 222 is provided with a vertically through and offset flagpole mounting hole 4, and two flagpole mounting holes 4 on the two eccentric hole short balancing weights 222 are symmetrically arranged relative to the middle hole short balancing weight 223.

The flagpole mounting holes 4 are square holes.

The long counterweight layer 21, the short counterweight layer 22 on the upper side, the long counterweight layer 21 on the lower side and the concrete base layer 1 are sequentially overlapped up and down and are subjected to staggered joint crimping so as to ensure the structural stability of on-site rapid assembly.

The shape, the specification size and the specific arrangement mode of the corresponding base in the concrete base layer 1 and the long counter weight layer 21, the short counter weight layer 22 and the corresponding counter weight in the long counter weight layer 21 at the lower side, and the shape, the specification size and the specific arrangement position of the three flagpole mounting holes 4 on the concrete base layer 1, the three flagpole mounting holes 4 on the long counter weight layer 21 at the upper side, the three flagpole mounting holes 4 on the short counter weight layer 22 and the three flagpole mounting holes 4 on the long counter weight layer 21 at the lower side are enough to enable three rows of vertically up and down through combined holes for mounting flagpoles to be formed, the three rows of combined holes Kong Chengzuo are sequentially arranged at right intervals, the center lines of the three rows of combined holes are positioned in the same vertical plane and are parallel to each other (each row of combined holes can be used for mounting one flagpole), wherein:

the middle row of combination holes comprising: the flagpole mounting holes 4 on the middle hole base 13, the two flagpole mounting holes 4 on the upper middle hole long balancing weight 213 and the lower middle hole long balancing weight 213, and the flagpole mounting holes 4 on the middle hole short balancing weight 223 are concentric;

for a corresponding column of combined holes on either side, comprising: the flagpole mounting holes 4 on the same side eccentric hole base 12, the two flagpole mounting holes 4 on the same side upper and lower eccentric hole long balancing weights 212 and the flagpole mounting holes 4 on the same side eccentric Kong Duan balancing weights 222 are concentric.

The length of each non-porous long counter weight 211, each eccentric-hole long counter weight 212 and each intermediate-hole long counter weight 213 is 1.4 times the width of each non-porous base 11; the width of each non-porous short weight 221, each eccentric-hole short weight 222, and the intermediate-hole short weight 223 is identical to the width of each non-porous base 11.

Each side of the non-hole base 11, each eccentric hole base 12, the middle hole base 13, each non-hole short balancing weight 221, each eccentric hole short balancing weight 222 and each middle hole short balancing weight 223 in the width direction is provided with a carrying hole 5 which is horizontally arranged and penetrates through the carrying hole from front to back; each non-hole long balancing weight 211, each eccentric hole long balancing weight 212 and each middle hole long balancing weight 213 are provided with a carrying hole 5 which is horizontally arranged and penetrates through the carrying hole from front to back.

The rear part in each eccentric hole base 12, the middle hole base 13, each eccentric hole long balancing weight 212, each middle hole long balancing weight 213, each eccentric hole short balancing weight 222 and each middle hole short balancing weight 223 is provided with a sand discharging through hole 6 which is horizontally arranged front and back and communicated with the corresponding flagpole mounting hole 4, and the end of each sand discharging through hole 6, which is far away from the corresponding flagpole mounting hole 4, is provided with a rubber plug 7.

Each edge of each non-porous base 11, each eccentric hole base 12, the middle hole base 13, each non-porous long balancing weight 211, each eccentric hole long balancing weight 212, each middle hole long balancing weight 213, each non-porous short balancing weight 221, each eccentric hole short balancing weight 222 and each middle hole short balancing weight 223 is coated by angle iron 8. The angle iron 8 is sized so as not to cover the corresponding carrying hole 5 and the corresponding sand discharging through hole 6.

Referring to fig. 2 to 6, the use process of the assembled flag post comprises:

placing the four non-porous bases 11, the two eccentric hole bases 12 and the middle hole base 13 of the concrete base layer 1 on the hardened ground;

a long weight layer 21, a short weight layer 22 and another long weight layer 21 are overlapped up and down to form a concrete weight body 2, the short weight layer 22 is clamped between the two long weight layers 21, the long weight layer 21 on the upper side, the short weight layer 22, the long weight layer 2 on the lower side and the concrete base layer 11 are in seam-staggered compression joint (in addition, in order to further improve the structural stability after the rapid assembly on site, the related components in each layer can be also reinforced by spot welding or bolts);

two tripods 3 are placed on the concrete base layer 1 side by side and close to each other and positioned in front of the concrete counterweight body 2, and the inclined surface of each tripod 3 forms the front side decoration surface of the assembled flag table;

at this time, the assembly of the assembled flag post is completed, and three rows of vertically up-and-down through combined holes for mounting the flag post are formed, and each row of combined holes can be used for mounting one flag post; the outer elevation decoration of the assembled flag table can be additionally carried out according to the requirement;

inserting a flagpole (not shown in fig. 2 to 6) into a corresponding row of combined holes from top to bottom, adjusting the circumferential spacing of the flagpoles, and filling the corresponding flagpole mounting holes 4 with fine sand; when the flagpole is inserted, a rubber plug 7 is arranged in each corresponding sand discharging through hole 6 to block each corresponding sand discharging through hole 6;

if the operations are performed in the reverse order, the flagpole can be pulled out and the assembled flagpole can be disassembled in turn.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A standardized assembled flag post, characterized in that: the concrete counterweight body and the two tripods are overlapped with the concrete base layer up and down, the concrete counterweight body is positioned at the rear part of the concrete base layer in the width direction, the two tripods are distributed left and right and are placed at the front part of the concrete base layer in the width direction side by side in a close manner, and each tripod is a metal prefabricated member;

the concrete base layer is formed by arranging four non-hole bases with the same overall dimensions and two eccentric hole bases with the same overall dimensions symmetrically with a middle hole base as a center, the overall dimensions of each non-hole base, each eccentric hole base and the middle hole base are the same, each non-hole base, each eccentric hole base and the middle hole base are square precast concrete members, each side of the middle hole base in the width direction is sequentially provided with one non-hole base, one eccentric hole base and the other non-hole base from inside to outside, the middle hole base is provided with a vertically through and centered flagpole mounting hole, each eccentric hole base is provided with a vertically through and offset flagpole mounting hole, and the two flagpole mounting holes on the two eccentric hole bases are symmetrically arranged relative to the middle hole base;

the concrete counterweight body is formed by stacking one long counterweight layer, one short counterweight layer and the other long counterweight layer from top to bottom, and the short counterweight layer is clamped between the two long counterweight layers;

the long counter weight layer is formed by symmetrically arranging two non-hole long counter weights with the same overall dimension and two eccentric hole long counter weights with the same overall dimension by taking a middle hole long counter weight as a center, the overall dimensions of each non-hole long counter weight, each eccentric hole long counter weight and the middle hole long counter weight are the same, each non-hole long counter weight, each eccentric hole long counter weight and the middle hole long counter weight are square precast concrete members, each side of the length direction of the middle hole long counter weight is sequentially provided with one eccentric hole long counter weight and one non-hole long counter weight from inside to outside, the middle hole long counter weight is provided with a vertically through and centered flagpole mounting hole, each eccentric hole long counter weight is provided with a vertically through and offset flagpole mounting hole, and the two flagpole mounting holes on the two eccentric hole long counter weights are symmetrically arranged relative to the middle hole long counter weight;

the short balancing weight layer is formed by arranging four non-porous short balancing weights with the same overall dimensions and two eccentric Kong Duan balancing weights with the same overall dimensions symmetrically by taking a middle hole short balancing weight as a center, the overall dimensions of each non-porous short balancing weight, each eccentric hole short balancing weight and the middle hole short balancing weight are the same, each non-porous short balancing weight, each eccentric hole short balancing weight and the middle hole short balancing weight are square precast concrete members, each side of the middle hole short balancing weight in the width direction is sequentially provided with one non-porous short balancing weight, one eccentric hole short balancing weight and the other non-porous short balancing weight from inside to outside, the middle hole short balancing weight is provided with a vertically through and centered flagpole mounting hole, each eccentric hole short balancing weight is provided with a vertically through and offset flagpole mounting hole, and the two flagpole mounting holes on the two eccentric hole short balancing weights are symmetrically arranged relative to the middle hole short balancing weight;

the flagpole mounting holes are square holes;

the long weight layer, the short weight layer, the long weight layer and the concrete base layer are sequentially overlapped up and down and are in staggered joint crimping;

the shapes, the specification sizes and the specific setting positions of the corresponding base in the concrete base layer, the long counterweight layer on the upper side, the short counterweight layer, the corresponding counterweight block in the long counterweight layer on the lower side, the three flagpole mounting holes on the long counterweight layer on the upper side, the three flagpole mounting holes on the short counterweight layer and the three flagpole mounting holes on the long counterweight layer on the lower side are enough to enable three rows of vertically through combination holes for mounting flagpoles to be formed, the three rows of combination Kong Chengzuo are sequentially arranged at right intervals, and the center lines of the three rows of combination Kong Chengzuo are positioned in the same vertical plane and are parallel to each other;

wherein:

the middle row of combination holes comprising: the flagpole mounting holes on the middle hole base, the two flagpole mounting holes on the upper middle hole long balancing weight and the lower middle hole long balancing weight and the flagpole mounting holes on the middle hole short balancing weight are coaxial;

for a corresponding column of combined holes on either side, comprising: the flagpole mounting holes on the base of the same eccentric hole, the two flagpole mounting holes on the long balancing weights of the upper eccentric hole and the lower eccentric hole on the same side and the flagpole mounting holes on the short balancing weights of the eccentric hole on the same side are coaxial.

2. A standardized assembled flag table according to claim 1, wherein: the lengths of each non-hole long balancing weight, each eccentric hole long balancing weight and each middle hole long balancing weight are 1.4 times of the width of each non-hole base; the width of each non-porous short balancing weight, the width of each eccentric hole short balancing weight and the width of each middle hole short balancing weight are consistent with the width of each non-porous base.

3. A standardized assembled flag table according to claim 1, wherein: each side of the width direction of each non-hole base, each eccentric hole base, each middle hole base, each non-hole short balancing weight, each eccentric hole short balancing weight and each middle hole short balancing weight is provided with a carrying hole which is horizontally arranged and penetrates through front and back; and each side of the length direction of each non-hole long balancing weight, each eccentric hole long balancing weight and each middle hole long balancing weight is provided with a carrying hole which is horizontally arranged and penetrates through front and back.

4. A standardized assembled flag table according to claim 1, wherein: the rear part in each eccentric hole base, the middle hole base, each eccentric hole long balancing weight, each middle hole long balancing weight, each eccentric hole short balancing weight and the middle hole short balancing weight is provided with a sand discharging through hole which is horizontally arranged front and back and communicated with the corresponding flagpole mounting hole, and the end of each sand discharging through hole, which is far away from the corresponding flagpole mounting hole, is provided with a rubber plug.

5. A standardized assembled flag table according to claim 1, wherein: each edge of each non-hole base, each eccentric hole base, each middle hole base, each non-hole long balancing weight, each eccentric hole long balancing weight, each middle hole long balancing weight, each non-hole short balancing weight, each eccentric hole short balancing weight and each middle hole short balancing weight are coated by angle irons.

6. A standardized assembled flag table according to claim 1, wherein: the vertical section of each tripod is in the shape of a right triangle.